PNG  IHDRX cHRMz&u0`:pQ<bKGD pHYsodtIME MeqIDATxw]Wug^Qd˶ 6`!N:!@xI~)%7%@Bh&`lnjVF29gΨ4E$|>cɚ{gk= %,a KX%,a KX%,a KX%,a KX%,a KX%,a KX%, b` ǟzeאfp]<!SJmɤY޲ڿ,%c ~ع9VH.!Ͳz&QynֺTkRR.BLHi٪:l;@(!MԴ=žI,:o&N'Kù\vRmJ雵֫AWic H@" !: Cé||]k-Ha oݜ:y F())u]aG7*JV@J415p=sZH!=!DRʯvɱh~V\}v/GKY$n]"X"}t@ xS76^[bw4dsce)2dU0 CkMa-U5tvLƀ~mlMwfGE/-]7XAƟ`׮g ewxwC4\[~7@O-Q( a*XGƒ{ ՟}$_y3tĐƤatgvێi|K=uVyrŲlLӪuܿzwk$m87k( `múcE)"@rK( z4$D; 2kW=Xb$V[Ru819קR~qloѱDyįݎ*mxw]y5e4K@ЃI0A D@"BDk_)N\8͜9dz"fK0zɿvM /.:2O{ Nb=M=7>??Zuo32 DLD@D| &+֎C #B8ַ`bOb $D#ͮҪtx]%`ES`Ru[=¾!@Od37LJ0!OIR4m]GZRJu$‡c=%~s@6SKy?CeIh:[vR@Lh | (BhAMy=݃  G"'wzn޺~8ԽSh ~T*A:xR[ܹ?X[uKL_=fDȊ؂p0}7=D$Ekq!/t.*2ʼnDbŞ}DijYaȲ(""6HA;:LzxQ‘(SQQ}*PL*fc\s `/d'QXW, e`#kPGZuŞuO{{wm[&NBTiiI0bukcA9<4@SӊH*؎4U/'2U5.(9JuDfrޱtycU%j(:RUbArLֺN)udA':uGQN"-"Is.*+k@ `Ojs@yU/ H:l;@yyTn}_yw!VkRJ4P)~y#)r,D =ě"Q]ci'%HI4ZL0"MJy 8A{ aN<8D"1#IJi >XjX֔#@>-{vN!8tRݻ^)N_╗FJEk]CT՟ YP:_|H1@ CBk]yKYp|og?*dGvzنzӴzjֺNkC~AbZƷ`.H)=!QͷVTT(| u78y֮}|[8-Vjp%2JPk[}ԉaH8Wpqhwr:vWª<}l77_~{s۴V+RCģ%WRZ\AqHifɤL36: #F:p]Bq/z{0CU6ݳEv_^k7'>sq*+kH%a`0ԣisqにtү04gVgW΂iJiS'3w.w}l6MC2uԯ|>JF5`fV5m`Y**Db1FKNttu]4ccsQNnex/87+}xaUW9y>ͯ骵G{䩓Գ3+vU}~jJ.NFRD7<aJDB1#ҳgSb,+CS?/ VG J?|?,2#M9}B)MiE+G`-wo߫V`fio(}S^4e~V4bHOYb"b#E)dda:'?}׮4繏`{7Z"uny-?ǹ;0MKx{:_pÚmFמ:F " .LFQLG)Q8qN q¯¯3wOvxDb\. BKD9_NN &L:4D{mm o^tֽ:q!ƥ}K+<"m78N< ywsard5+Š²z~mnG)=}lYݧNj'QJS{S :UYS-952?&O-:W}(!6Mk4+>A>j+i|<<|;ر^߉=HE|V#F)Emm#}/"y GII웻Jі94+v뾧xu~5C95~ūH>c@덉pʃ1/4-A2G%7>m;–Y,cyyaln" ?ƻ!ʪ<{~h~i y.zZB̃/,雋SiC/JFMmBH&&FAbϓO^tubbb_hZ{_QZ-sύodFgO(6]TJA˯#`۶ɟ( %$&+V'~hiYy>922 Wp74Zkq+Ovn錄c>8~GqܲcWꂎz@"1A.}T)uiW4="jJ2W7mU/N0gcqܗOO}?9/wìXžΏ0 >֩(V^Rh32!Hj5`;O28؇2#ݕf3 ?sJd8NJ@7O0 b־?lldщ̡&|9C.8RTWwxWy46ah嘦mh٤&l zCy!PY?: CJyв]dm4ǜҐR޻RլhX{FƯanшQI@x' ao(kUUuxW_Ñ줮[w8 FRJ(8˼)_mQ _!RJhm=!cVmm ?sFOnll6Qk}alY}; "baӌ~M0w,Ggw2W:G/k2%R,_=u`WU R.9T"v,<\Ik޽/2110Ӿxc0gyC&Ny޽JҢrV6N ``یeA16"J³+Rj*;BϜkZPJaÍ<Jyw:NP8/D$ 011z֊Ⱳ3ι֘k1V_"h!JPIΣ'ɜ* aEAd:ݺ>y<}Lp&PlRfTb1]o .2EW\ͮ]38؋rTJsǏP@芎sF\> P^+dYJLbJ C-xϐn> ι$nj,;Ǖa FU *择|h ~izť3ᤓ`K'-f tL7JK+vf2)V'-sFuB4i+m+@My=O҈0"|Yxoj,3]:cо3 $#uŘ%Y"y죯LebqtҢVzq¼X)~>4L׶m~[1_k?kxֺQ`\ |ٛY4Ѯr!)N9{56(iNq}O()Em]=F&u?$HypWUeB\k]JɩSع9 Zqg4ZĊo oMcjZBU]B\TUd34ݝ~:7ڶSUsB0Z3srx 7`:5xcx !qZA!;%͚7&P H<WL!džOb5kF)xor^aujƍ7 Ǡ8/p^(L>ὴ-B,{ۇWzֺ^k]3\EE@7>lYBȝR.oHnXO/}sB|.i@ɥDB4tcm,@ӣgdtJ!lH$_vN166L__'Z)y&kH;:,Y7=J 9cG) V\hjiE;gya~%ks_nC~Er er)muuMg2;֫R)Md) ,¶ 2-wr#F7<-BBn~_(o=KO㭇[Xv eN_SMgSҐ BS헃D%g_N:/pe -wkG*9yYSZS.9cREL !k}<4_Xs#FmҶ:7R$i,fi!~' # !6/S6y@kZkZcX)%5V4P]VGYq%H1!;e1MV<!ϐHO021Dp= HMs~~a)ަu7G^];git!Frl]H/L$=AeUvZE4P\.,xi {-~p?2b#amXAHq)MWǾI_r`S Hz&|{ +ʖ_= (YS(_g0a03M`I&'9vl?MM+m~}*xT۲(fY*V4x@29s{DaY"toGNTO+xCAO~4Ϳ;p`Ѫ:>Ҵ7K 3}+0 387x\)a"/E>qpWB=1 ¨"MP(\xp߫́A3+J] n[ʼnӼaTbZUWb={~2ooKױӰp(CS\S筐R*JغV&&"FA}J>G֐p1ٸbk7 ŘH$JoN <8s^yk_[;gy-;߉DV{c B yce% aJhDȶ 2IdйIB/^n0tNtџdcKj4϶v~- CBcgqx9= PJ) dMsjpYB] GD4RDWX +h{y`,3ꊕ$`zj*N^TP4L:Iz9~6s) Ga:?y*J~?OrMwP\](21sZUD ?ܟQ5Q%ggW6QdO+\@ ̪X'GxN @'4=ˋ+*VwN ne_|(/BDfj5(Dq<*tNt1х!MV.C0 32b#?n0pzj#!38}޴o1KovCJ`8ŗ_"]] rDUy޲@ Ȗ-;xџ'^Y`zEd?0„ DAL18IS]VGq\4o !swV7ˣι%4FѮ~}6)OgS[~Q vcYbL!wG3 7띸*E Pql8=jT\꘿I(z<[6OrR8ºC~ډ]=rNl[g|v TMTղb-o}OrP^Q]<98S¤!k)G(Vkwyqyr޽Nv`N/e p/~NAOk \I:G6]4+K;j$R:Mi #*[AȚT,ʰ,;N{HZTGMoּy) ]%dHء9Պ䠬|<45,\=[bƟ8QXeB3- &dҩ^{>/86bXmZ]]yޚN[(WAHL$YAgDKp=5GHjU&99v簪C0vygln*P)9^͞}lMuiH!̍#DoRBn9l@ xA/_v=ȺT{7Yt2N"4!YN`ae >Q<XMydEB`VU}u]嫇.%e^ánE87Mu\t`cP=AD/G)sI"@MP;)]%fH9'FNsj1pVhY&9=0pfuJ&gޤx+k:!r˭wkl03׼Ku C &ѓYt{.O.zҏ z}/tf_wEp2gvX)GN#I ݭ߽v/ .& и(ZF{e"=V!{zW`, ]+LGz"(UJp|j( #V4, 8B 0 9OkRrlɱl94)'VH9=9W|>PS['G(*I1==C<5"Pg+x'K5EMd؞Af8lG ?D FtoB[je?{k3zQ vZ;%Ɠ,]E>KZ+T/ EJxOZ1i #T<@ I}q9/t'zi(EMqw`mYkU6;[t4DPeckeM;H}_g pMww}k6#H㶏+b8雡Sxp)&C $@'b,fPߑt$RbJ'vznuS ~8='72_`{q纶|Q)Xk}cPz9p7O:'|G~8wx(a 0QCko|0ASD>Ip=4Q, d|F8RcU"/KM opKle M3#i0c%<7׿p&pZq[TR"BpqauIp$ 8~Ĩ!8Սx\ւdT>>Z40ks7 z2IQ}ItԀ<-%S⍤};zIb$I 5K}Q͙D8UguWE$Jh )cu4N tZl+[]M4k8֦Zeq֮M7uIqG 1==tLtR,ƜSrHYt&QP윯Lg' I,3@P'}'R˪e/%-Auv·ñ\> vDJzlӾNv5:|K/Jb6KI9)Zh*ZAi`?S {aiVDԲuy5W7pWeQJk֤#5&V<̺@/GH?^τZL|IJNvI:'P=Ϛt"¨=cud S Q.Ki0 !cJy;LJR;G{BJy޺[^8fK6)=yʊ+(k|&xQ2`L?Ȓ2@Mf 0C`6-%pKpm')c$׻K5[J*U[/#hH!6acB JA _|uMvDyk y)6OPYjœ50VT K}cǻP[ $:]4MEA.y)|B)cf-A?(e|lɉ#P9V)[9t.EiQPDѠ3ϴ;E:+Օ t ȥ~|_N2,ZJLt4! %ա]u {+=p.GhNcŞQI?Nd'yeh n7zi1DB)1S | S#ًZs2|Ɛy$F SxeX{7Vl.Src3E℃Q>b6G ўYCmtկ~=K0f(=LrAS GN'ɹ9<\!a`)֕y[uՍ[09` 9 +57ts6}b4{oqd+J5fa/,97J#6yν99mRWxJyѡyu_TJc`~W>l^q#Ts#2"nD1%fS)FU w{ܯ R{ ˎ󅃏џDsZSQS;LV;7 Od1&1n$ N /.q3~eNɪ]E#oM~}v֯FڦwyZ=<<>Xo稯lfMFV6p02|*=tV!c~]fa5Y^Q_WN|Vs 0ҘދU97OI'N2'8N֭fgg-}V%y]U4 峧p*91#9U kCac_AFңĪy뚇Y_AiuYyTTYЗ-(!JFLt›17uTozc. S;7A&&<ԋ5y;Ro+:' *eYJkWR[@F %SHWP 72k4 qLd'J "zB6{AC0ƁA6U.'F3:Ȅ(9ΜL;D]m8ڥ9}dU "v!;*13Rg^fJyShyy5auA?ɩGHRjo^]׽S)Fm\toy 4WQS@mE#%5ʈfFYDX ~D5Ϡ9tE9So_aU4?Ѽm%&c{n>.KW1Tlb}:j uGi(JgcYj0qn+>) %\!4{LaJso d||u//P_y7iRJ߬nHOy) l+@$($VFIQ9%EeKʈU. ia&FY̒mZ=)+qqoQn >L!qCiDB;Y<%} OgBxB!ØuG)WG9y(Ą{_yesuZmZZey'Wg#C~1Cev@0D $a@˲(.._GimA:uyw֬%;@!JkQVM_Ow:P.s\)ot- ˹"`B,e CRtaEUP<0'}r3[>?G8xU~Nqu;Wm8\RIkբ^5@k+5(By'L&'gBJ3ݶ!/㮻w҅ yqPWUg<e"Qy*167΃sJ\oz]T*UQ<\FԎ`HaNmڜ6DysCask8wP8y9``GJ9lF\G g's Nn͵MLN֪u$| /|7=]O)6s !ĴAKh]q_ap $HH'\1jB^s\|- W1:=6lJBqjY^LsPk""`]w)󭃈,(HC ?䔨Y$Sʣ{4Z+0NvQkhol6C.婧/u]FwiVjZka&%6\F*Ny#8O,22+|Db~d ~Çwc N:FuuCe&oZ(l;@ee-+Wn`44AMK➝2BRՈt7g*1gph9N) *"TF*R(#'88pm=}X]u[i7bEc|\~EMn}P瘊J)K.0i1M6=7'_\kaZ(Th{K*GJyytw"IO-PWJk)..axӝ47"89Cc7ĐBiZx 7m!fy|ϿF9CbȩV 9V-՛^pV̌ɄS#Bv4-@]Vxt-Z, &ֺ*diؠ2^VXbs֔Ìl.jQ]Y[47gj=幽ex)A0ip׳ W2[ᎇhuE^~q흙L} #-b۸oFJ_QP3r6jr+"nfzRJTUqoaۍ /$d8Mx'ݓ= OՃ| )$2mcM*cЙj}f };n YG w0Ia!1Q.oYfr]DyISaP}"dIӗթO67jqR ҊƐƈaɤGG|h;t]䗖oSv|iZqX)oalv;۩meEJ\!8=$4QU4Xo&VEĊ YS^E#d,yX_> ۘ-e\ "Wa6uLĜZi`aD9.% w~mB(02G[6y.773a7 /=o7D)$Z 66 $bY^\CuP. (x'"J60׿Y:Oi;F{w佩b+\Yi`TDWa~|VH)8q/=9!g߆2Y)?ND)%?Ǐ`k/sn:;O299yB=a[Ng 3˲N}vLNy;*?x?~L&=xyӴ~}q{qE*IQ^^ͧvü{Huu=R|>JyUlZV, B~/YF!Y\u_ݼF{_C)LD]m {H 0ihhadd nUkf3oٺCvE\)QJi+֥@tDJkB$1!Đr0XQ|q?d2) Ӣ_}qv-< FŊ߫%roppVBwü~JidY4:}L6M7f٬F "?71<2#?Jyy4뷢<_a7_=Q E=S1И/9{+93֮E{ǂw{))?maÆm(uLE#lïZ  ~d];+]h j?!|$F}*"4(v'8s<ŏUkm7^7no1w2ؗ}TrͿEk>p'8OB7d7R(A 9.*Mi^ͳ; eeUwS+C)uO@ =Sy]` }l8^ZzRXj[^iUɺ$tj))<sbDJfg=Pk_{xaKo1:-uyG0M ԃ\0Lvuy'ȱc2Ji AdyVgVh!{]/&}}ċJ#%d !+87<;qN޼Nفl|1N:8ya  8}k¾+-$4FiZYÔXk*I&'@iI99)HSh4+2G:tGhS^繿 Kتm0 вDk}֚+QT4;sC}rՅE,8CX-e~>G&'9xpW,%Fh,Ry56Y–hW-(v_,? ; qrBk4-V7HQ;ˇ^Gv1JVV%,ik;D_W!))+BoS4QsTM;gt+ndS-~:11Sgv!0qRVh!"Ȋ(̦Yl.]PQWgٳE'`%W1{ndΗBk|Ž7ʒR~,lnoa&:ü$ 3<a[CBݮwt"o\ePJ=Hz"_c^Z.#ˆ*x z̝grY]tdkP*:97YľXyBkD4N.C_[;F9`8& !AMO c `@BA& Ost\-\NX+Xp < !bj3C&QL+*&kAQ=04}cC!9~820G'PC9xa!w&bo_1 Sw"ܱ V )Yl3+ס2KoXOx]"`^WOy :3GO0g;%Yv㐫(R/r (s } u B &FeYZh0y> =2<Ϟc/ -u= c&׭,.0"g"7 6T!vl#sc>{u/Oh Bᾈ)۴74]x7 gMӒ"d]U)}" v4co[ ɡs 5Gg=XR14?5A}D "b{0$L .\4y{_fe:kVS\\O]c^W52LSBDM! C3Dhr̦RtArx4&agaN3Cf<Ԉp4~ B'"1@.b_/xQ} _߃҉/gٓ2Qkqp0շpZ2fԫYz< 4L.Cyυι1t@鎫Fe sYfsF}^ V}N<_`p)alٶ "(XEAVZ<)2},:Ir*#m_YӼ R%a||EƼIJ,,+f"96r/}0jE/)s)cjW#w'Sʯ5<66lj$a~3Kʛy 2:cZ:Yh))+a߭K::N,Q F'qB]={.]h85C9cr=}*rk?vwV렵ٸW Rs%}rNAkDv|uFLBkWY YkX מ|)1!$#3%y?pF<@<Rr0}: }\J [5FRxY<9"SQdE(Q*Qʻ)q1E0B_O24[U'],lOb ]~WjHޏTQ5Syu wq)xnw8~)c 쫬gٲߠ H% k5dƝk> kEj,0% b"vi2Wس_CuK)K{n|>t{P1򨾜j>'kEkƗBg*H%'_aY6Bn!TL&ɌOb{c`'d^{t\i^[uɐ[}q0lM˕G:‚4kb祔c^:?bpg… +37stH:0}en6x˟%/<]BL&* 5&fK9Mq)/iyqtA%kUe[ڛKN]Ě^,"`/ s[EQQm?|XJ߅92m]G.E΃ח U*Cn.j_)Tѧj̿30ڇ!A0=͜ar I3$C^-9#|pk!)?7.x9 @OO;WƝZBFU keZ75F6Tc6"ZȚs2y/1 ʵ:u4xa`C>6Rb/Yм)^=+~uRd`/|_8xbB0?Ft||Z\##|K 0>>zxv8۴吅q 8ĥ)"6>~\8:qM}#͚'ĉ#p\׶ l#bA?)|g g9|8jP(cr,BwV (WliVxxᡁ@0Okn;ɥh$_ckCgriv}>=wGzβ KkBɛ[˪ !J)h&k2%07δt}!d<9;I&0wV/ v 0<H}L&8ob%Hi|޶o&h1L|u֦y~󛱢8fٲUsւ)0oiFx2}X[zVYr_;N(w]_4B@OanC?gĦx>мgx>ΛToZoOMp>40>V Oy V9iq!4 LN,ˢu{jsz]|"R޻&'ƚ{53ўFu(<٪9:΋]B;)B>1::8;~)Yt|0(pw2N%&X,URBK)3\zz&}ax4;ǟ(tLNg{N|Ǽ\G#C9g$^\}p?556]/RP.90 k,U8/u776s ʪ_01چ|\N 0VV*3H鴃J7iI!wG_^ypl}r*jɤSR 5QN@ iZ#1ٰy;_\3\BQQ x:WJv츟ٯ$"@6 S#qe딇(/P( Dy~TOϻ<4:-+F`0||;Xl-"uw$Цi󼕝mKʩorz"mϺ$F:~E'ҐvD\y?Rr8_He@ e~O,T.(ފR*cY^m|cVR[8 JҡSm!ΆԨb)RHG{?MpqrmN>߶Y)\p,d#xۆWY*,l6]v0h15M˙MS8+EdI='LBJIH7_9{Caз*Lq,dt >+~ّeʏ?xԕ4bBAŚjﵫ!'\Ը$WNvKO}ӽmSşذqsOy?\[,d@'73'j%kOe`1.g2"e =YIzS2|zŐƄa\U,dP;jhhhaxǶ?КZ՚.q SE+XrbOu%\GتX(H,N^~]JyEZQKceTQ]VGYqnah;y$cQahT&QPZ*iZ8UQQM.qo/T\7X"u?Mttl2Xq(IoW{R^ ux*SYJ! 4S.Jy~ BROS[V|žKNɛP(L6V^|cR7i7nZW1Fd@ Ara{詑|(T*dN]Ko?s=@ |_EvF]׍kR)eBJc" MUUbY6`~V޴dJKß&~'d3i WWWWWW

F1l3 Manager

Current Directory: /usr/share/guile/2.0/language/tree-il
/usr/share/guile/2.0/language/tree-il/
Viewing File: /usr/share/guile/2.0/language/tree-il/cse.scm
;;; Common Subexpression Elimination (CSE) on Tree-IL ;; Copyright (C) 2011, 2012, 2013 Free Software Foundation, Inc. ;;;; This library is free software; you can redistribute it and/or ;;;; modify it under the terms of the GNU Lesser General Public ;;;; License as published by the Free Software Foundation; either ;;;; version 3 of the License, or (at your option) any later version. ;;;; ;;;; This library is distributed in the hope that it will be useful, ;;;; but WITHOUT ANY WARRANTY; without even the implied warranty of ;;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ;;;; Lesser General Public License for more details. ;;;; ;;;; You should have received a copy of the GNU Lesser General Public ;;;; License along with this library; if not, write to the Free Software ;;;; Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA (define-module (language tree-il cse) #:use-module (language tree-il) #:use-module (language tree-il primitives) #:use-module (language tree-il effects) #:use-module (ice-9 vlist) #:use-module (ice-9 match) #:use-module (srfi srfi-1) #:use-module (srfi srfi-9) #:use-module (srfi srfi-11) #:use-module (srfi srfi-26) #:export (cse)) ;;; ;;; This pass eliminates common subexpressions in Tree-IL. It works ;;; best locally -- within a function -- so it is meant to be run after ;;; partial evaluation, which usually inlines functions and so opens up ;;; a bigger space for CSE to work. ;;; ;;; The algorithm traverses the tree of expressions, returning two ;;; values: the newly rebuilt tree, and a "database". The database is ;;; the set of expressions that will have been evaluated as part of ;;; evaluating an expression. For example, in: ;;; ;;; (1- (+ (if a b c) (* x y))) ;;; ;;; We can say that when it comes time to evaluate (1- <>), that the ;;; subexpressions +, x, y, and (* x y) must have been evaluated in ;;; values context. We know that a was evaluated in test context, but ;;; we don't know if it was true or false. ;;; ;;; The expressions in the database /dominate/ any subsequent ;;; expression: FOO dominates BAR if evaluation of BAR implies that any ;;; effects associated with FOO have already occured. ;;; ;;; When adding expressions to the database, we record the context in ;;; which they are evaluated. We treat expressions in test context ;;; specially: the presence of such an expression indicates that the ;;; expression is true. In this way we can elide duplicate predicates. ;;; ;;; Duplicate predicates are not common in code that users write, but ;;; can occur quite frequently in macro-generated code. ;;; ;;; For example: ;;; ;;; (and (foo? x) (foo-bar x)) ;;; => (if (and (struct? x) (eq? (struct-vtable x) <foo>)) ;;; (if (and (struct? x) (eq? (struct-vtable x) <foo>)) ;;; (struct-ref x 1) ;;; (throw 'not-a-foo)) ;;; #f)) ;;; => (if (and (struct? x) (eq? (struct-vtable x) <foo>)) ;;; (struct-ref x 1) ;;; #f) ;;; ;;; A conditional bailout in effect context also has the effect of ;;; adding predicates to the database: ;;; ;;; (begin (foo-bar x) (foo-baz x)) ;;; => (begin ;;; (if (and (struct? x) (eq? (struct-vtable x) <foo>)) ;;; (struct-ref x 1) ;;; (throw 'not-a-foo)) ;;; (if (and (struct? x) (eq? (struct-vtable x) <foo>)) ;;; (struct-ref x 2) ;;; (throw 'not-a-foo))) ;;; => (begin ;;; (if (and (struct? x) (eq? (struct-vtable x) <foo>)) ;;; (struct-ref x 1) ;;; (throw 'not-a-foo)) ;;; (struct-ref x 2)) ;;; ;;; When removing code, we have to ensure that the semantics of the ;;; source program and the residual program are the same. It's easy to ;;; ensure that they have the same value, because those manipulations ;;; are just algebraic, but the tricky thing is to ensure that the ;;; expressions exhibit the same ordering of effects. For that, we use ;;; the effects analysis of (language tree-il effects). We only ;;; eliminate code if the duplicate code commutes with all of the ;;; dominators on the path from the duplicate to the original. ;;; ;;; The implementation uses vhashes as the fundamental data structure. ;;; This can be seen as a form of global value numbering. This ;;; algorithm currently spends most of its time in vhash-assoc. I'm not ;;; sure whether that is due to our bad hash function in Guile 2.0, an ;;; inefficiency in vhashes, or what. Overall though the complexity ;;; should be linear, or N log N -- whatever vhash-assoc's complexity ;;; is. Walking the dominators is nonlinear, but that only happens when ;;; we've actually found a common subexpression so that should be OK. ;;; ;; Logging helpers, as in peval. ;; (define-syntax *logging* (identifier-syntax #f)) ;; (define %logging #f) ;; (define-syntax *logging* (identifier-syntax %logging)) (define-syntax log (syntax-rules (quote) ((log 'event arg ...) (if (and *logging* (or (eq? *logging* #t) (memq 'event *logging*))) (log* 'event arg ...))))) (define (log* event . args) (let ((pp (module-ref (resolve-interface '(ice-9 pretty-print)) 'pretty-print))) (pp `(log ,event . ,args)) (newline) (values))) ;; A pre-pass on the source program to determine the set of assigned ;; lexicals. ;; (define* (build-assigned-var-table exp #:optional (table vlist-null)) (tree-il-fold (lambda (exp res) res) (lambda (exp res) (match exp (($ <lexical-set> src name gensym exp) (vhash-consq gensym #t res)) (_ res))) (lambda (exp res) res) table exp)) (define (boolean-valued-primitive? primitive) (or (negate-primitive primitive) (eq? primitive 'not) (let ((chars (symbol->string primitive))) (eqv? (string-ref chars (1- (string-length chars))) #\?)))) (define (boolean-valued-expression? x ctx) (match x (($ <application> _ ($ <primitive-ref> _ (? boolean-valued-primitive?))) #t) (($ <const> _ (? boolean?)) #t) (_ (eq? ctx 'test)))) (define (singly-valued-expression? x ctx) (match x (($ <const>) #t) (($ <lexical-ref>) #t) (($ <void>) #t) (($ <lexical-ref>) #t) (($ <primitive-ref>) #t) (($ <module-ref>) #t) (($ <toplevel-ref>) #t) (($ <application> _ ($ <primitive-ref> _ (? singly-valued-primitive?))) #t) (($ <application> _ ($ <primitive-ref> _ 'values) (val)) #t) (($ <lambda>) #t) (_ (eq? ctx 'value)))) (define* (cse exp) "Eliminate common subexpressions in EXP." (define assigned-lexical? (let ((table (build-assigned-var-table exp))) (lambda (sym) (vhash-assq sym table)))) (define %compute-effects (make-effects-analyzer assigned-lexical?)) (define (negate exp ctx) (match exp (($ <const> src x) (make-const src (not x))) (($ <void> src) (make-const src #f)) (($ <conditional> src test consequent alternate) (make-conditional src test (negate consequent ctx) (negate alternate ctx))) (($ <application> _ ($ <primitive-ref> _ 'not) ((and x (? (cut boolean-valued-expression? <> ctx))))) x) (($ <application> src ($ <primitive-ref> _ (and pred (? negate-primitive))) args) (make-application src (make-primitive-ref #f (negate-primitive pred)) args)) (_ (make-application #f (make-primitive-ref #f 'not) (list exp))))) (define (hasher n) (lambda (x size) (modulo n size))) (define (add-to-db exp effects ctx db) (let ((v (vector exp effects ctx)) (h (tree-il-hash exp))) (vhash-cons v h db (hasher h)))) (define (control-flow-boundary db) (let ((h (hashq 'lambda most-positive-fixnum))) (vhash-cons 'lambda h db (hasher h)))) (define (find-dominating-expression exp effects ctx db) (define (entry-matches? v1 v2) (match (if (vector? v1) v1 v2) (#(exp* effects* ctx*) (and (tree-il=? exp exp*) (or (not ctx) (eq? ctx* ctx)))) (_ #f))) (let ((len (vlist-length db)) (h (tree-il-hash exp))) (and (vhash-assoc #t db entry-matches? (hasher h)) (let lp ((n 0)) (and (< n len) (match (vlist-ref db n) (('lambda . h*) ;; We assume that lambdas can escape and thus be ;; called from anywhere. Thus code inside a lambda ;; only has a dominating expression if it does not ;; depend on any effects. (and (not (depends-on-effects? effects &all-effects)) (lp (1+ n)))) ((#(exp* effects* ctx*) . h*) (log 'walk (unparse-tree-il exp) effects (unparse-tree-il exp*) effects* ctx*) (or (and (= h h*) (or (not ctx) (eq? ctx ctx*)) (tree-il=? exp exp*)) (and (effects-commute? effects effects*) (lp (1+ n))))))))))) ;; Return #t if EXP is dominated by an instance of itself. In that ;; case, we can exclude *type-check* effects, because the first ;; expression already caused them if needed. (define (has-dominating-effect? exp effects db) (or (constant? effects) (and (effect-free? (exclude-effects effects (logior &zero-values &allocation &type-check))) (find-dominating-expression exp effects #f db)))) (define (find-dominating-test exp effects db) (and (effect-free? (exclude-effects effects (logior &allocation &type-check))) (match exp (($ <const> src val) (if (boolean? val) exp (make-const src (not (not val))))) ;; For (not FOO), try to prove FOO, then negate the result. (($ <application> src ($ <primitive-ref> _ 'not) (exp*)) (match (find-dominating-test exp* effects db) (($ <const> _ val) (log 'inferring exp (not val)) (make-const src (not val))) (_ #f))) (_ (cond ((find-dominating-expression exp effects 'test db) ;; We have an EXP fact, so we infer #t. (log 'inferring exp #t) (make-const (tree-il-src exp) #t)) ((find-dominating-expression (negate exp 'test) effects 'test db) ;; We have a (not EXP) fact, so we infer #f. (log 'inferring exp #f) (make-const (tree-il-src exp) #f)) (else ;; Otherwise we don't know. #f)))))) (define (add-to-env exp name sym db env) (let* ((v (vector exp name sym (vlist-length db))) (h (tree-il-hash exp))) (vhash-cons v h env (hasher h)))) (define (augment-env env names syms exps db) (if (null? names) env (let ((name (car names)) (sym (car syms)) (exp (car exps))) (augment-env (if (or (assigned-lexical? sym) (lexical-ref? exp)) env (add-to-env exp name sym db env)) (cdr names) (cdr syms) (cdr exps) db)))) (define (find-dominating-lexical exp effects env db) (define (entry-matches? v1 v2) (match (if (vector? v1) v1 v2) (#(exp* name sym db) (tree-il=? exp exp*)) (_ #f))) (define (unroll db base n) (or (zero? n) (match (vlist-ref db base) (('lambda . h*) ;; See note in find-dominating-expression. (and (not (depends-on-effects? effects &all-effects)) (unroll db (1+ base) (1- n)))) ((#(exp* effects* ctx*) . h*) (and (effects-commute? effects effects*) (unroll db (1+ base) (1- n))))))) (let ((h (tree-il-hash exp))) (and (effect-free? (exclude-effects effects &type-check)) (vhash-assoc exp env entry-matches? (hasher h)) (let ((env-len (vlist-length env)) (db-len (vlist-length db))) (let lp ((n 0) (m 0)) (and (< n env-len) (match (vlist-ref env n) ((#(exp* name sym db-len*) . h*) (let ((niter (- (- db-len db-len*) m))) (and (unroll db m niter) (if (and (= h h*) (tree-il=? exp* exp)) (make-lexical-ref (tree-il-src exp) name sym) (lp (1+ n) (- db-len db-len*))))))))))))) (define (lookup-lexical sym env) (let ((env-len (vlist-length env))) (let lp ((n 0)) (and (< n env-len) (match (vlist-ref env n) ((#(exp _ sym* _) . _) (if (eq? sym sym*) exp (lp (1+ n))))))))) (define (intersection db+ db-) (vhash-fold-right (lambda (k h out) (if (vhash-assoc k db- equal? (hasher h)) (vhash-cons k h out (hasher h)) out)) vlist-null db+)) (define (concat db1 db2) (vhash-fold-right (lambda (k h tail) (vhash-cons k h tail (hasher h))) db2 db1)) (let visit ((exp exp) (db vlist-null) ; dominating expressions: #(exp effects ctx) -> hash (env vlist-null) ; named expressions: #(exp name sym db) -> hash (ctx 'values)) ; test, effect, value, or values (define (parallel-visit exps db env ctx) (let lp ((in exps) (out '()) (db* vlist-null)) (if (pair? in) (call-with-values (lambda () (visit (car in) db env ctx)) (lambda (x db**) (lp (cdr in) (cons x out) (concat db** db*)))) (values (reverse out) db*)))) (define (compute-effects exp) (%compute-effects exp (lambda (sym) (lookup-lexical sym env)))) (define (bailout? exp) (causes-effects? (compute-effects exp) &definite-bailout)) (define (return exp db*) (let ((effects (compute-effects exp))) (cond ((and (eq? ctx 'effect) (not (lambda-case? exp)) (or (effect-free? (exclude-effects effects (logior &zero-values &allocation))) (has-dominating-effect? exp effects db))) (cond ((void? exp) (values exp db*)) (else (log 'elide ctx (unparse-tree-il exp)) (values (make-void #f) db*)))) ((and (boolean-valued-expression? exp ctx) (find-dominating-test exp effects db)) => (lambda (exp) (log 'propagate-test ctx (unparse-tree-il exp)) (values exp db*))) ((and (singly-valued-expression? exp ctx) (find-dominating-lexical exp effects env db)) => (lambda (exp) (log 'propagate-value ctx (unparse-tree-il exp)) (values exp db*))) ((and (constant? effects) (memq ctx '(value values))) ;; Adds nothing to the db. (values exp db*)) (else (log 'return ctx effects (unparse-tree-il exp) db*) (values exp (add-to-db exp effects ctx db*)))))) (log 'visit ctx (unparse-tree-il exp) db env) (match exp (($ <const>) (return exp vlist-null)) (($ <void>) (return exp vlist-null)) (($ <lexical-ref> _ _ gensym) (return exp vlist-null)) (($ <lexical-set> src name gensym exp) (let*-values (((exp db*) (visit exp db env 'value))) (return (make-lexical-set src name gensym exp) db*))) (($ <let> src names gensyms vals body) (let*-values (((vals db*) (parallel-visit vals db env 'value)) ((body db**) (visit body (concat db* db) (augment-env env names gensyms vals db) ctx))) (return (make-let src names gensyms vals body) (concat db** db*)))) (($ <letrec> src in-order? names gensyms vals body) (let*-values (((vals db*) (parallel-visit vals db env 'value)) ((body db**) (visit body (concat db* db) (augment-env env names gensyms vals db) ctx))) (return (make-letrec src in-order? names gensyms vals body) (concat db** db*)))) (($ <fix> src names gensyms vals body) (let*-values (((vals db*) (parallel-visit vals db env 'value)) ((body db**) (visit body (concat db* db) env ctx))) (return (make-fix src names gensyms vals body) (concat db** db*)))) (($ <let-values> src producer consumer) (let*-values (((producer db*) (visit producer db env 'values)) ((consumer db**) (visit consumer (concat db* db) env ctx))) (return (make-let-values src producer consumer) (concat db** db*)))) (($ <dynwind> src winder body unwinder) (let*-values (((pre db*) (visit winder db env 'value)) ((body db**) (visit body (concat db* db) env ctx)) ((post db***) (visit unwinder db env 'value))) (return (make-dynwind src pre body post) (concat db* (concat db** db***))))) (($ <dynlet> src fluids vals body) (let*-values (((fluids db*) (parallel-visit fluids db env 'value)) ((vals db**) (parallel-visit vals db env 'value)) ((body db***) (visit body (concat db** (concat db* db)) env ctx))) (return (make-dynlet src fluids vals body) (concat db*** (concat db** db*))))) (($ <dynref> src fluid) (let*-values (((fluid db*) (visit fluid db env 'value))) (return (make-dynref src fluid) db*))) (($ <dynset> src fluid exp) (let*-values (((fluid db*) (visit fluid db env 'value)) ((exp db**) (visit exp db env 'value))) (return (make-dynset src fluid exp) (concat db** db*)))) (($ <toplevel-ref>) (return exp vlist-null)) (($ <module-ref>) (return exp vlist-null)) (($ <module-set> src mod name public? exp) (let*-values (((exp db*) (visit exp db env 'value))) (return (make-module-set src mod name public? exp) db*))) (($ <toplevel-define> src name exp) (let*-values (((exp db*) (visit exp db env 'value))) (return (make-toplevel-define src name exp) db*))) (($ <toplevel-set> src name exp) (let*-values (((exp db*) (visit exp db env 'value))) (return (make-toplevel-set src name exp) db*))) (($ <primitive-ref>) (return exp vlist-null)) (($ <conditional> src test consequent alternate) (let*-values (((test db+) (visit test db env 'test)) ((converse db-) (visit (negate test 'test) db env 'test)) ((consequent db++) (visit consequent (concat db+ db) env ctx)) ((alternate db--) (visit alternate (concat db- db) env ctx))) (match (make-conditional src test consequent alternate) (($ <conditional> _ ($ <const> _ exp)) (if exp (return consequent (concat db++ db+)) (return alternate (concat db-- db-)))) ;; (if FOO A A) => (begin FOO A) (($ <conditional> src _ ($ <const> _ a) ($ <const> _ (? (cut equal? a <>)))) (visit (make-sequence #f (list test (make-const #f a))) db env ctx)) ;; (if FOO #t #f) => FOO for boolean-valued FOO. (($ <conditional> src (? (cut boolean-valued-expression? <> ctx)) ($ <const> _ #t) ($ <const> _ #f)) (return test db+)) ;; (if FOO #f #t) => (not FOO) (($ <conditional> src _ ($ <const> _ #f) ($ <const> _ #t)) (visit (negate test ctx) db env ctx)) ;; Allow "and"-like conditions to accumulate in test context. ((and c ($ <conditional> _ _ _ ($ <const> _ #f))) (return c (if (eq? ctx 'test) (concat db++ db+) vlist-null))) ((and c ($ <conditional> _ _ ($ <const> _ #f) _)) (return c (if (eq? ctx 'test) (concat db-- db-) vlist-null))) ;; Conditional bailouts turn expressions into predicates. ((and c ($ <conditional> _ _ _ (? bailout?))) (return c (concat db++ db+))) ((and c ($ <conditional> _ _ (? bailout?) _)) (return c (concat db-- db-))) (c (return c (intersection (concat db++ db+) (concat db-- db-))))))) (($ <application> src proc args) (let*-values (((proc db*) (visit proc db env 'value)) ((args db**) (parallel-visit args db env 'value))) (return (make-application src proc args) (concat db** db*)))) (($ <lambda> src meta body) (let*-values (((body _) (if body (visit body (control-flow-boundary db) env 'values) (values #f #f)))) (return (make-lambda src meta body) vlist-null))) (($ <lambda-case> src req opt rest kw inits gensyms body alt) (let*-values (((inits _) (parallel-visit inits db env 'value)) ((body db*) (visit body db env ctx)) ((alt _) (if alt (visit alt db env ctx) (values #f #f)))) (return (make-lambda-case src req opt rest kw inits gensyms body alt) (if alt vlist-null db*)))) (($ <sequence> src exps) (let lp ((in exps) (out '()) (db* vlist-null)) (match in ((last) (let*-values (((last db**) (visit last (concat db* db) env ctx))) (if (null? out) (return last (concat db** db*)) (return (make-sequence src (reverse (cons last out))) (concat db** db*))))) ((head . rest) (let*-values (((head db**) (visit head (concat db* db) env 'effect))) (cond ((sequence? head) (lp (append (sequence-exps head) rest) out db*)) ((void? head) (lp rest out db*)) (else (lp rest (cons head out) (concat db** db*))))))))) (($ <prompt> src tag body handler) (let*-values (((tag db*) (visit tag db env 'value)) ((body _) (visit body (concat db* db) env 'values)) ((handler _) (visit handler (concat db* db) env ctx))) (return (make-prompt src tag body handler) db*))) (($ <abort> src tag args tail) (let*-values (((tag db*) (visit tag db env 'value)) ((args db**) (parallel-visit args db env 'value)) ((tail db***) (visit tail db env 'value))) (return (make-abort src tag args tail) (concat db* (concat db** db***))))))))
webs 1.0 - Enhanced UI