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/lib/python3.6/site-packages/ply
/usr/lib/python3.6/site-packages/ply/
Viewing File: /usr/lib/python3.6/site-packages/ply/cpp.py
# ----------------------------------------------------------------------------- # cpp.py # # Author: David Beazley (http://www.dabeaz.com) # Copyright (C) 2007 # All rights reserved # # This module implements an ANSI-C style lexical preprocessor for PLY. # ----------------------------------------------------------------------------- from __future__ import generators import sys # Some Python 3 compatibility shims if sys.version_info.major < 3: STRING_TYPES = (str, unicode) else: STRING_TYPES = str xrange = range # ----------------------------------------------------------------------------- # Default preprocessor lexer definitions. These tokens are enough to get # a basic preprocessor working. Other modules may import these if they want # ----------------------------------------------------------------------------- tokens = ( 'CPP_ID','CPP_INTEGER', 'CPP_FLOAT', 'CPP_STRING', 'CPP_CHAR', 'CPP_WS', 'CPP_COMMENT1', 'CPP_COMMENT2', 'CPP_POUND','CPP_DPOUND' ) literals = "+-*/%|&~^<>=!?()[]{}.,;:\\\'\"" # Whitespace def t_CPP_WS(t): r'\s+' t.lexer.lineno += t.value.count("\n") return t t_CPP_POUND = r'\#' t_CPP_DPOUND = r'\#\#' # Identifier t_CPP_ID = r'[A-Za-z_][\w_]*' # Integer literal def CPP_INTEGER(t): r'(((((0x)|(0X))[0-9a-fA-F]+)|(\d+))([uU][lL]|[lL][uU]|[uU]|[lL])?)' return t t_CPP_INTEGER = CPP_INTEGER # Floating literal t_CPP_FLOAT = r'((\d+)(\.\d+)(e(\+|-)?(\d+))? | (\d+)e(\+|-)?(\d+))([lL]|[fF])?' # String literal def t_CPP_STRING(t): r'\"([^\\\n]|(\\(.|\n)))*?\"' t.lexer.lineno += t.value.count("\n") return t # Character constant 'c' or L'c' def t_CPP_CHAR(t): r'(L)?\'([^\\\n]|(\\(.|\n)))*?\'' t.lexer.lineno += t.value.count("\n") return t # Comment def t_CPP_COMMENT1(t): r'(/\*(.|\n)*?\*/)' ncr = t.value.count("\n") t.lexer.lineno += ncr # replace with one space or a number of '\n' t.type = 'CPP_WS'; t.value = '\n' * ncr if ncr else ' ' return t # Line comment def t_CPP_COMMENT2(t): r'(//.*?(\n|$))' # replace with '/n' t.type = 'CPP_WS'; t.value = '\n' def t_error(t): t.type = t.value[0] t.value = t.value[0] t.lexer.skip(1) return t import re import copy import time import os.path # ----------------------------------------------------------------------------- # trigraph() # # Given an input string, this function replaces all trigraph sequences. # The following mapping is used: # # ??= # # ??/ \ # ??' ^ # ??( [ # ??) ] # ??! | # ??< { # ??> } # ??- ~ # ----------------------------------------------------------------------------- _trigraph_pat = re.compile(r'''\?\?[=/\'\(\)\!<>\-]''') _trigraph_rep = { '=':'#', '/':'\\', "'":'^', '(':'[', ')':']', '!':'|', '<':'{', '>':'}', '-':'~' } def trigraph(input): return _trigraph_pat.sub(lambda g: _trigraph_rep[g.group()[-1]],input) # ------------------------------------------------------------------ # Macro object # # This object holds information about preprocessor macros # # .name - Macro name (string) # .value - Macro value (a list of tokens) # .arglist - List of argument names # .variadic - Boolean indicating whether or not variadic macro # .vararg - Name of the variadic parameter # # When a macro is created, the macro replacement token sequence is # pre-scanned and used to create patch lists that are later used # during macro expansion # ------------------------------------------------------------------ class Macro(object): def __init__(self,name,value,arglist=None,variadic=False): self.name = name self.value = value self.arglist = arglist self.variadic = variadic if variadic: self.vararg = arglist[-1] self.source = None # ------------------------------------------------------------------ # Preprocessor object # # Object representing a preprocessor. Contains macro definitions, # include directories, and other information # ------------------------------------------------------------------ class Preprocessor(object): def __init__(self,lexer=None): if lexer is None: lexer = lex.lexer self.lexer = lexer self.macros = { } self.path = [] self.temp_path = [] # Probe the lexer for selected tokens self.lexprobe() tm = time.localtime() self.define("__DATE__ \"%s\"" % time.strftime("%b %d %Y",tm)) self.define("__TIME__ \"%s\"" % time.strftime("%H:%M:%S",tm)) self.parser = None # ----------------------------------------------------------------------------- # tokenize() # # Utility function. Given a string of text, tokenize into a list of tokens # ----------------------------------------------------------------------------- def tokenize(self,text): tokens = [] self.lexer.input(text) while True: tok = self.lexer.token() if not tok: break tokens.append(tok) return tokens # --------------------------------------------------------------------- # error() # # Report a preprocessor error/warning of some kind # ---------------------------------------------------------------------- def error(self,file,line,msg): print("%s:%d %s" % (file,line,msg)) # ---------------------------------------------------------------------- # lexprobe() # # This method probes the preprocessor lexer object to discover # the token types of symbols that are important to the preprocessor. # If this works right, the preprocessor will simply "work" # with any suitable lexer regardless of how tokens have been named. # ---------------------------------------------------------------------- def lexprobe(self): # Determine the token type for identifiers self.lexer.input("identifier") tok = self.lexer.token() if not tok or tok.value != "identifier": print("Couldn't determine identifier type") else: self.t_ID = tok.type # Determine the token type for integers self.lexer.input("12345") tok = self.lexer.token() if not tok or int(tok.value) != 12345: print("Couldn't determine integer type") else: self.t_INTEGER = tok.type self.t_INTEGER_TYPE = type(tok.value) # Determine the token type for strings enclosed in double quotes self.lexer.input("\"filename\"") tok = self.lexer.token() if not tok or tok.value != "\"filename\"": print("Couldn't determine string type") else: self.t_STRING = tok.type # Determine the token type for whitespace--if any self.lexer.input(" ") tok = self.lexer.token() if not tok or tok.value != " ": self.t_SPACE = None else: self.t_SPACE = tok.type # Determine the token type for newlines self.lexer.input("\n") tok = self.lexer.token() if not tok or tok.value != "\n": self.t_NEWLINE = None print("Couldn't determine token for newlines") else: self.t_NEWLINE = tok.type self.t_WS = (self.t_SPACE, self.t_NEWLINE) # Check for other characters used by the preprocessor chars = [ '<','>','#','##','\\','(',')',',','.'] for c in chars: self.lexer.input(c) tok = self.lexer.token() if not tok or tok.value != c: print("Unable to lex '%s' required for preprocessor" % c) # ---------------------------------------------------------------------- # add_path() # # Adds a search path to the preprocessor. # ---------------------------------------------------------------------- def add_path(self,path): self.path.append(path) # ---------------------------------------------------------------------- # group_lines() # # Given an input string, this function splits it into lines. Trailing whitespace # is removed. Any line ending with \ is grouped with the next line. This # function forms the lowest level of the preprocessor---grouping into text into # a line-by-line format. # ---------------------------------------------------------------------- def group_lines(self,input): lex = self.lexer.clone() lines = [x.rstrip() for x in input.splitlines()] for i in xrange(len(lines)): j = i+1 while lines[i].endswith('\\') and (j < len(lines)): lines[i] = lines[i][:-1]+lines[j] lines[j] = "" j += 1 input = "\n".join(lines) lex.input(input) lex.lineno = 1 current_line = [] while True: tok = lex.token() if not tok: break current_line.append(tok) if tok.type in self.t_WS and '\n' in tok.value: yield current_line current_line = [] if current_line: yield current_line # ---------------------------------------------------------------------- # tokenstrip() # # Remove leading/trailing whitespace tokens from a token list # ---------------------------------------------------------------------- def tokenstrip(self,tokens): i = 0 while i < len(tokens) and tokens[i].type in self.t_WS: i += 1 del tokens[:i] i = len(tokens)-1 while i >= 0 and tokens[i].type in self.t_WS: i -= 1 del tokens[i+1:] return tokens # ---------------------------------------------------------------------- # collect_args() # # Collects comma separated arguments from a list of tokens. The arguments # must be enclosed in parenthesis. Returns a tuple (tokencount,args,positions) # where tokencount is the number of tokens consumed, args is a list of arguments, # and positions is a list of integers containing the starting index of each # argument. Each argument is represented by a list of tokens. # # When collecting arguments, leading and trailing whitespace is removed # from each argument. # # This function properly handles nested parenthesis and commas---these do not # define new arguments. # ---------------------------------------------------------------------- def collect_args(self,tokenlist): args = [] positions = [] current_arg = [] nesting = 1 tokenlen = len(tokenlist) # Search for the opening '('. i = 0 while (i < tokenlen) and (tokenlist[i].type in self.t_WS): i += 1 if (i < tokenlen) and (tokenlist[i].value == '('): positions.append(i+1) else: self.error(self.source,tokenlist[0].lineno,"Missing '(' in macro arguments") return 0, [], [] i += 1 while i < tokenlen: t = tokenlist[i] if t.value == '(': current_arg.append(t) nesting += 1 elif t.value == ')': nesting -= 1 if nesting == 0: if current_arg: args.append(self.tokenstrip(current_arg)) positions.append(i) return i+1,args,positions current_arg.append(t) elif t.value == ',' and nesting == 1: args.append(self.tokenstrip(current_arg)) positions.append(i+1) current_arg = [] else: current_arg.append(t) i += 1 # Missing end argument self.error(self.source,tokenlist[-1].lineno,"Missing ')' in macro arguments") return 0, [],[] # ---------------------------------------------------------------------- # macro_prescan() # # Examine the macro value (token sequence) and identify patch points # This is used to speed up macro expansion later on---we'll know # right away where to apply patches to the value to form the expansion # ---------------------------------------------------------------------- def macro_prescan(self,macro): macro.patch = [] # Standard macro arguments macro.str_patch = [] # String conversion expansion macro.var_comma_patch = [] # Variadic macro comma patch i = 0 while i < len(macro.value): if macro.value[i].type == self.t_ID and macro.value[i].value in macro.arglist: argnum = macro.arglist.index(macro.value[i].value) # Conversion of argument to a string if i > 0 and macro.value[i-1].value == '#': macro.value[i] = copy.copy(macro.value[i]) macro.value[i].type = self.t_STRING del macro.value[i-1] macro.str_patch.append((argnum,i-1)) continue # Concatenation elif (i > 0 and macro.value[i-1].value == '##'): macro.patch.append(('c',argnum,i-1)) del macro.value[i-1] continue elif ((i+1) < len(macro.value) and macro.value[i+1].value == '##'): macro.patch.append(('c',argnum,i)) i += 1 continue # Standard expansion else: macro.patch.append(('e',argnum,i)) elif macro.value[i].value == '##': if macro.variadic and (i > 0) and (macro.value[i-1].value == ',') and \ ((i+1) < len(macro.value)) and (macro.value[i+1].type == self.t_ID) and \ (macro.value[i+1].value == macro.vararg): macro.var_comma_patch.append(i-1) i += 1 macro.patch.sort(key=lambda x: x[2],reverse=True) # ---------------------------------------------------------------------- # macro_expand_args() # # Given a Macro and list of arguments (each a token list), this method # returns an expanded version of a macro. The return value is a token sequence # representing the replacement macro tokens # ---------------------------------------------------------------------- def macro_expand_args(self,macro,args): # Make a copy of the macro token sequence rep = [copy.copy(_x) for _x in macro.value] # Make string expansion patches. These do not alter the length of the replacement sequence str_expansion = {} for argnum, i in macro.str_patch: if argnum not in str_expansion: str_expansion[argnum] = ('"%s"' % "".join([x.value for x in args[argnum]])).replace("\\","\\\\") rep[i] = copy.copy(rep[i]) rep[i].value = str_expansion[argnum] # Make the variadic macro comma patch. If the variadic macro argument is empty, we get rid comma_patch = False if macro.variadic and not args[-1]: for i in macro.var_comma_patch: rep[i] = None comma_patch = True # Make all other patches. The order of these matters. It is assumed that the patch list # has been sorted in reverse order of patch location since replacements will cause the # size of the replacement sequence to expand from the patch point. expanded = { } for ptype, argnum, i in macro.patch: # Concatenation. Argument is left unexpanded if ptype == 'c': rep[i:i+1] = args[argnum] # Normal expansion. Argument is macro expanded first elif ptype == 'e': if argnum not in expanded: expanded[argnum] = self.expand_macros(args[argnum]) rep[i:i+1] = expanded[argnum] # Get rid of removed comma if necessary if comma_patch: rep = [_i for _i in rep if _i] return rep # ---------------------------------------------------------------------- # expand_macros() # # Given a list of tokens, this function performs macro expansion. # The expanded argument is a dictionary that contains macros already # expanded. This is used to prevent infinite recursion. # ---------------------------------------------------------------------- def expand_macros(self,tokens,expanded=None): if expanded is None: expanded = {} i = 0 while i < len(tokens): t = tokens[i] if t.type == self.t_ID: if t.value in self.macros and t.value not in expanded: # Yes, we found a macro match expanded[t.value] = True m = self.macros[t.value] if not m.arglist: # A simple macro ex = self.expand_macros([copy.copy(_x) for _x in m.value],expanded) for e in ex: e.lineno = t.lineno tokens[i:i+1] = ex i += len(ex) else: # A macro with arguments j = i + 1 while j < len(tokens) and tokens[j].type in self.t_WS: j += 1 if tokens[j].value == '(': tokcount,args,positions = self.collect_args(tokens[j:]) if not m.variadic and len(args) != len(m.arglist): self.error(self.source,t.lineno,"Macro %s requires %d arguments" % (t.value,len(m.arglist))) i = j + tokcount elif m.variadic and len(args) < len(m.arglist)-1: if len(m.arglist) > 2: self.error(self.source,t.lineno,"Macro %s must have at least %d arguments" % (t.value, len(m.arglist)-1)) else: self.error(self.source,t.lineno,"Macro %s must have at least %d argument" % (t.value, len(m.arglist)-1)) i = j + tokcount else: if m.variadic: if len(args) == len(m.arglist)-1: args.append([]) else: args[len(m.arglist)-1] = tokens[j+positions[len(m.arglist)-1]:j+tokcount-1] del args[len(m.arglist):] # Get macro replacement text rep = self.macro_expand_args(m,args) rep = self.expand_macros(rep,expanded) for r in rep: r.lineno = t.lineno tokens[i:j+tokcount] = rep i += len(rep) del expanded[t.value] continue elif t.value == '__LINE__': t.type = self.t_INTEGER t.value = self.t_INTEGER_TYPE(t.lineno) i += 1 return tokens # ---------------------------------------------------------------------- # evalexpr() # # Evaluate an expression token sequence for the purposes of evaluating # integral expressions. # ---------------------------------------------------------------------- def evalexpr(self,tokens): # tokens = tokenize(line) # Search for defined macros i = 0 while i < len(tokens): if tokens[i].type == self.t_ID and tokens[i].value == 'defined': j = i + 1 needparen = False result = "0L" while j < len(tokens): if tokens[j].type in self.t_WS: j += 1 continue elif tokens[j].type == self.t_ID: if tokens[j].value in self.macros: result = "1L" else: result = "0L" if not needparen: break elif tokens[j].value == '(': needparen = True elif tokens[j].value == ')': break else: self.error(self.source,tokens[i].lineno,"Malformed defined()") j += 1 tokens[i].type = self.t_INTEGER tokens[i].value = self.t_INTEGER_TYPE(result) del tokens[i+1:j+1] i += 1 tokens = self.expand_macros(tokens) for i,t in enumerate(tokens): if t.type == self.t_ID: tokens[i] = copy.copy(t) tokens[i].type = self.t_INTEGER tokens[i].value = self.t_INTEGER_TYPE("0L") elif t.type == self.t_INTEGER: tokens[i] = copy.copy(t) # Strip off any trailing suffixes tokens[i].value = str(tokens[i].value) while tokens[i].value[-1] not in "0123456789abcdefABCDEF": tokens[i].value = tokens[i].value[:-1] expr = "".join([str(x.value) for x in tokens]) expr = expr.replace("&&"," and ") expr = expr.replace("||"," or ") expr = expr.replace("!"," not ") try: result = eval(expr) except Exception: self.error(self.source,tokens[0].lineno,"Couldn't evaluate expression") result = 0 return result # ---------------------------------------------------------------------- # parsegen() # # Parse an input string/ # ---------------------------------------------------------------------- def parsegen(self,input,source=None): # Replace trigraph sequences t = trigraph(input) lines = self.group_lines(t) if not source: source = "" self.define("__FILE__ \"%s\"" % source) self.source = source chunk = [] enable = True iftrigger = False ifstack = [] for x in lines: for i,tok in enumerate(x): if tok.type not in self.t_WS: break if tok.value == '#': # Preprocessor directive # insert necessary whitespace instead of eaten tokens for tok in x: if tok.type in self.t_WS and '\n' in tok.value: chunk.append(tok) dirtokens = self.tokenstrip(x[i+1:]) if dirtokens: name = dirtokens[0].value args = self.tokenstrip(dirtokens[1:]) else: name = "" args = [] if name == 'define': if enable: for tok in self.expand_macros(chunk): yield tok chunk = [] self.define(args) elif name == 'include': if enable: for tok in self.expand_macros(chunk): yield tok chunk = [] oldfile = self.macros['__FILE__'] for tok in self.include(args): yield tok self.macros['__FILE__'] = oldfile self.source = source elif name == 'undef': if enable: for tok in self.expand_macros(chunk): yield tok chunk = [] self.undef(args) elif name == 'ifdef': ifstack.append((enable,iftrigger)) if enable: if not args[0].value in self.macros: enable = False iftrigger = False else: iftrigger = True elif name == 'ifndef': ifstack.append((enable,iftrigger)) if enable: if args[0].value in self.macros: enable = False iftrigger = False else: iftrigger = True elif name == 'if': ifstack.append((enable,iftrigger)) if enable: result = self.evalexpr(args) if not result: enable = False iftrigger = False else: iftrigger = True elif name == 'elif': if ifstack: if ifstack[-1][0]: # We only pay attention if outer "if" allows this if enable: # If already true, we flip enable False enable = False elif not iftrigger: # If False, but not triggered yet, we'll check expression result = self.evalexpr(args) if result: enable = True iftrigger = True else: self.error(self.source,dirtokens[0].lineno,"Misplaced #elif") elif name == 'else': if ifstack: if ifstack[-1][0]: if enable: enable = False elif not iftrigger: enable = True iftrigger = True else: self.error(self.source,dirtokens[0].lineno,"Misplaced #else") elif name == 'endif': if ifstack: enable,iftrigger = ifstack.pop() else: self.error(self.source,dirtokens[0].lineno,"Misplaced #endif") else: # Unknown preprocessor directive pass else: # Normal text if enable: chunk.extend(x) for tok in self.expand_macros(chunk): yield tok chunk = [] # ---------------------------------------------------------------------- # include() # # Implementation of file-inclusion # ---------------------------------------------------------------------- def include(self,tokens): # Try to extract the filename and then process an include file if not tokens: return if tokens: if tokens[0].value != '<' and tokens[0].type != self.t_STRING: tokens = self.expand_macros(tokens) if tokens[0].value == '<': # Include <...> i = 1 while i < len(tokens): if tokens[i].value == '>': break i += 1 else: print("Malformed #include <...>") return filename = "".join([x.value for x in tokens[1:i]]) path = self.path + [""] + self.temp_path elif tokens[0].type == self.t_STRING: filename = tokens[0].value[1:-1] path = self.temp_path + [""] + self.path else: print("Malformed #include statement") return for p in path: iname = os.path.join(p,filename) try: data = open(iname,"r").read() dname = os.path.dirname(iname) if dname: self.temp_path.insert(0,dname) for tok in self.parsegen(data,filename): yield tok if dname: del self.temp_path[0] break except IOError: pass else: print("Couldn't find '%s'" % filename) # ---------------------------------------------------------------------- # define() # # Define a new macro # ---------------------------------------------------------------------- def define(self,tokens): if isinstance(tokens,STRING_TYPES): tokens = self.tokenize(tokens) linetok = tokens try: name = linetok[0] if len(linetok) > 1: mtype = linetok[1] else: mtype = None if not mtype: m = Macro(name.value,[]) self.macros[name.value] = m elif mtype.type in self.t_WS: # A normal macro m = Macro(name.value,self.tokenstrip(linetok[2:])) self.macros[name.value] = m elif mtype.value == '(': # A macro with arguments tokcount, args, positions = self.collect_args(linetok[1:]) variadic = False for a in args: if variadic: print("No more arguments may follow a variadic argument") break astr = "".join([str(_i.value) for _i in a]) if astr == "...": variadic = True a[0].type = self.t_ID a[0].value = '__VA_ARGS__' variadic = True del a[1:] continue elif astr[-3:] == "..." and a[0].type == self.t_ID: variadic = True del a[1:] # If, for some reason, "." is part of the identifier, strip off the name for the purposes # of macro expansion if a[0].value[-3:] == '...': a[0].value = a[0].value[:-3] continue if len(a) > 1 or a[0].type != self.t_ID: print("Invalid macro argument") break else: mvalue = self.tokenstrip(linetok[1+tokcount:]) i = 0 while i < len(mvalue): if i+1 < len(mvalue): if mvalue[i].type in self.t_WS and mvalue[i+1].value == '##': del mvalue[i] continue elif mvalue[i].value == '##' and mvalue[i+1].type in self.t_WS: del mvalue[i+1] i += 1 m = Macro(name.value,mvalue,[x[0].value for x in args],variadic) self.macro_prescan(m) self.macros[name.value] = m else: print("Bad macro definition") except LookupError: print("Bad macro definition") # ---------------------------------------------------------------------- # undef() # # Undefine a macro # ---------------------------------------------------------------------- def undef(self,tokens): id = tokens[0].value try: del self.macros[id] except LookupError: pass # ---------------------------------------------------------------------- # parse() # # Parse input text. # ---------------------------------------------------------------------- def parse(self,input,source=None,ignore={}): self.ignore = ignore self.parser = self.parsegen(input,source) # ---------------------------------------------------------------------- # token() # # Method to return individual tokens # ---------------------------------------------------------------------- def token(self): try: while True: tok = next(self.parser) if tok.type not in self.ignore: return tok except StopIteration: self.parser = None return None if __name__ == '__main__': import ply.lex as lex lexer = lex.lex() # Run a preprocessor import sys f = open(sys.argv[1]) input = f.read() p = Preprocessor(lexer) p.parse(input,sys.argv[1]) while True: tok = p.token() if not tok: break print(p.source, tok)
webs 1.0 - Enhanced UI