JFIFXX    $.' ",#(7),01444'9=82<.342  2!!22222222222222222222222222222222222222222222222222"4 ,PG"Z_4˷kjزZ,F+_z,© zh6٨icfu#ډb_N?wQ5-~I8TK<5oIv-k_U_~bMdӜUHh?]EwQk{_}qFW7HTՑYF?_'ϔ_Ջt=||I 6έ"D/[k9Y8ds|\Ҿp6Ҵ].6znopM[mei$[soᘨ˸ nɜG-ĨUycP3.DBli;hjx7Z^NhN3u{:jx힞#M&jL P@_ P&o89@Sz6t7#Oߋ s}YfTlmrZ)'Nk۞pw\Tȯ?8`Oi{wﭹW[r Q4F׊3m&L=h3z~#\l :F,j@ ʱwQT8"kJO6֚l}R>ډK]y&p}b;N1mr$|7>e@BTM*-iHgD) Em|ؘbҗaҾt4oG*oCNrPQ@z,|?W[0:n,jWiEW$~/hp\?{(0+Y8rΟ+>S-SVN;}s?. w9˟<Mq4Wv'{)01mBVW[8/< %wT^5b)iM pgN&ݝVO~qu9 !J27$O-! :%H ـyΠM=t{!S oK8txA& j0 vF Y|y ~6@c1vOpIg4lODL Rcj_uX63?nkWyf;^*B @~a`Eu+6L.ü>}y}_O6͐:YrGXkGl^w~㒶syIu! W XN7BVO!X2wvGRfT#t/?%8^WaTGcLMI(J1~8?aT ]ASE(*E} 2#I/׍qz^t̔bYz4xt){ OH+(EA&NXTo"XC')}Jzp ~5}^+6wcQ|LpdH}(.|kc4^"Z?ȕ a<L!039C EuCFEwç ;n?*oB8bʝ'#RqfM}7]s2tcS{\icTx;\7KPʇ Z O-~c>"?PEO8@8GQgaՎ󁶠䧘_%#r>1zaebqcPѵn#L =׀t L7`VA{C:ge@w1 Xp3c3ġpM"'-@n4fGB3DJ8[JoߐgK)ƛ$ 83+ 6ʻ SkI*KZlT _`?KQKdB`s}>`*>,*@JdoF*弝O}ks]yߘc1GV<=776qPTtXԀ!9*44Tހ3XΛex46YD  BdemDa\_l,G/֌7Y](xTt^%GE4}bTڹ;Y)BQu>J/J ⮶.XԄjݳ+Ed r5_D1 o Bx΢#<W8R6@gM. drD>(otU@x=~v2 ӣdoBd3eO6㣷ݜ66YQz`S{\P~z m5{J/L1xO\ZFu>ck#&:`$ai>2ΔloF[hlEܺΠk:)` $[69kOw\|8}ބ:񶐕IA1/=2[,!.}gN#ub ~݊}34qdELc$"[qU硬g^%B zrpJru%v\h1Yne`ǥ:gpQM~^Xi `S:V29.PV?Bk AEvw%_9CQwKekPؠ\;Io d{ ߞoc1eP\ `E=@KIRYK2NPlLɀ)&eB+ь( JTx_?EZ }@ 6U뙢طzdWIn` D噥[uV"G&Ú2g}&m?ċ"Om# {ON"SXNeysQ@FnVgdX~nj]J58up~.`r\O,ư0oS _Ml4kv\JSdxSW<AeIX$Iw:Sy›R9Q[,5;@]%u@ *rolbI  +%m:͇ZVủθau,RW33 dJeTYE.Mϧ-oj3+yy^cVO9NV\nd1 !͕_)av;թMlWR1)ElP;yوÏu 3k5Pr6<⒲l!˞*u־n!l:UNW %Chx8vL'X@*)̮ˍ D-M+JUkvK+x8cY?Ԡ~3mo|u@[XeYC\Kpx8oCC&N~3-H MXsu<`~"WL$8ξ3a)|:@m\^`@ҷ)5p+6p%i)P Mngc#0AruzRL+xSS?ʮ}()#tmˇ!0}}y$6Lt;$ʳ{^6{v6ķܰgVcnn ~zx«,2u?cE+ȘH؎%Za)X>uWTzNyosFQƤ$*&LLXL)1" LeOɟ9=:tZcŽY?ӭVwv~,Yrۗ|yGaFC.+ v1fήJ]STBn5sW}y$~z'c 8  ,! pVNSNNqy8z˱A4*'2n<s^ǧ˭PJޮɏUGLJ*#i}K%,)[z21z ?Nin1?TIR#m-1lA`fT5+ܐcq՝ʐ,3f2Uեmab#ŠdQy>\)SLYw#.ʑf ,"+w~N'cO3FN<)j&,- љ֊_zSTǦw>?nU仆Ve0$CdrP m׈eXmVu L.bֹ [Դaզ*\y8Է:Ez\0KqC b̘cөQ=0YsNS.3.Oo:#v7[#߫ 5܎LEr49nCOWlG^0k%;YߝZǓ:S#|}y,/kLd TA(AI$+I3;Y*Z}|ӧOdv..#:nf>>ȶITX 8y"dR|)0=n46ⲑ+ra ~]R̲c?6(q;5% |uj~z8R=XIV=|{vGj\gcqz؋%Mߍ1y#@f^^>N#x#۹6Y~?dfPO{P4Vu1E1J *|%JN`eWuzk M6q t[ gGvWIGu_ft5j"Y:Tɐ*; e54q$C2d} _SL#mYpO.C;cHi#֩%+) ӍƲVSYźg |tj38r|V1#;.SQA[S#`n+$$I P\[@s(EDzP])8G#0B[ىXIIq<9~[Z멜Z⊔IWU&A>P~#dp]9 "cP Md?٥Ifتuk/F9c*9Ǎ:ØFzn*@|Iށ9N3{'['ͬҲ4#}!V Fu,,mTIkv C7vB6kT91*l '~ƞFlU'M ][ΩũJ_{iIn$L jOdxkza۪#EClx˘oVɞljr)/,߬hL#^Lф,íMƁe̩NBLiLq}(q6IçJ$WE$:=#(KBzђ xlx?>Պ+>W,Ly!_DŌlQ![ SJ1ƐY}b,+Loxɓ)=yoh@꥟/Iѭ=Py9 ۍYӘe+pJnϱ?V\SO%(t =?MR[Șd/ nlB7j !;ӥ/[-A>dNsLj ,ɪv=1c.SQO3UƀܽE̻9GϷD7(}Ävӌ\y_0[w <΍>a_[0+LF.޺f>oNTq;y\bՃyjH<|q-eɏ_?_9+PHp$[uxK wMwNی'$Y2=qKBP~Yul:[<F12O5=d]Ysw:ϮEj,_QXz`H1,#II dwrP˂@ZJVy$\y{}^~[:NߌUOdؾe${p>G3cĖlʌ ת[`ϱ-WdgIig2 }s ؤ(%#sS@~3XnRG~\jc3vӍLM[JBTs3}jNʖW;7ç?=XF=-=qߚ#='c7ڑWI(O+=:uxqe2zi+kuGR0&eniT^J~\jyp'dtGsO39* b#Ɋ p[BwsT>d4ۧsnvnU_~,vƜJ1s QIz)(lv8MU=;56Gs#KMP=LvyGd}VwWBF'à ?MHUg2 !p7Qjڴ=ju JnA suMeƆҔ!)'8Ϣٔޝ(Vpצ֖d=ICJǠ{qkԭ߸i@Ku|p=..*+xz[Aqġ#s2aƊRR)*HRsi~a &fMP-KL@ZXy'x{}Zm+:)) IJ-iu ܒH'L(7yGӜq j 6ߌg1go,kرtY?W,pefOQS!K۟cҒA|սj>=⬒˧L[ ߿2JaB~Ru:Q] 0H~]7ƼI(}cq 'ήETq?fabӥvr )o-Q_'ᴎoK;Vo%~OK *bf:-ťIR`B5!RB@ï u ̯e\_U_ gES3QTaxU<~c?*#]MW,[8Oax]1bC|踤Plw5V%){t<d50iXSUm:Z┵i"1^B-PhJ&)O*DcWvM)}Pܗ-q\mmζZ-l@}aE6F@&Sg@ݚM ȹ 4#p\HdYDoH"\..RBHz_/5˘6KhJRPmƶim3,#ccoqa)*PtRmk7xDE\Y閣_X<~)c[[BP6YqS0%_;Àv~| VS؇ 'O0F0\U-d@7SJ*z3nyPOm~P3|Yʉr#CSN@ ƮRN)r"C:: #qbY. 6[2K2uǦHYRQMV G$Q+.>nNHq^ qmMVD+-#*U̒ p욳u:IBmPV@Or[b= 1UE_NmyKbNOU}the`|6֮P>\2PVIDiPO;9rmAHGWS]J*_G+kP2KaZH'KxWMZ%OYDRc+o?qGhmdSoh\D|:WUAQc yTq~^H/#pCZTI1ӏT4"ČZ}`w#*,ʹ 0i課Om*da^gJ݅{le9uF#Tֲ̲ٞC"qߍ ոޑo#XZTp@ o8(jdxw],f`~|,s^f1t|m򸄭/ctr5s79Q4H1꠲BB@l9@C+wpxu£Yc9?`@#omHs2)=2.ljg9$YS%*LRY7Z,*=䷘$armoϰUW.|rufIGwtZwo~5 YյhO+=8fF)W7L9lM̘·Y֘YLf큹pRF99.A "wz=E\Z'a 2Ǚ#;'}G*l^"q+2FQ hjkŦ${ޮ-T٭cf|3#~RJt$b(R(rdx >U b&9,>%E\ Άe$'q't*אެb-|dSBOO$R+H)܎K1m`;J2Y~9Og8=vqD`K[F)k[1m޼cn]skz$@)!I x՝"v9=ZA=`Ɠi :E)`7vI}dYI_ o:obo 3Q&D&2= Ά;>hy.*ⅥSӬ+q&j|UƧ}J0WW< ۋS)jQRjƯrN)Gű4Ѷ(S)Ǣ8iW52No˓ ۍ%5brOnL;n\G=^UdI8$&h'+(cȁ߫klS^cƗjԌEꭔgFȒ@}O*;evWVYJ\]X'5ղkFb 6Ro՜mi Ni>J?lPmU}>_Z&KKqrIDՉ~q3fL:Se>E-G{L6pe,8QIhaXaUA'ʂs+טIjP-y8ۈZ?J$WP Rs]|l(ԓsƊio(S0Y 8T97.WiLc~dxcE|2!XKƘਫ਼$((6~|d9u+qd^389Y6L.I?iIq9)O/뚅OXXVZF[یgQLK1RҖr@v#XlFНyS87kF!AsM^rkpjPDyS$Nqnxҍ!Uf!ehi2m`YI9r6 TFC}/y^Η5d'9A-J>{_l+`A['յϛ#w:݅%X}&PStQ"-\縵/$ƗhXb*yBS;Wջ_mcvt?2}1;qSdd~u:2k52R~z+|HE!)Ǟl7`0<,2*Hl-x^'_TVgZA'j ^2ΪN7t?w x1fIzC-ȖK^q;-WDvT78Z hK(P:Q- 8nZ܃e貾<1YT<,"6{/ ?͟|1:#gW>$dJdB=jf[%rE^il:BxSּ1հ,=*7 fcG#q eh?27,!7x6nLC4x},GeǝtC.vS F43zz\;QYC,6~;RYS/6|25vTimlv& nRh^ejRLGf? ۉҬܦƩ|Ȱ>3!viʯ>vオX3e_1zKȗ\qHS,EW[㺨uch⍸O}a>q6n6N6qN ! 1AQaq0@"2BRb#Pr3C`Scst$4D%Td ?Na3mCwxAmqmm$4n淿t'C"wzU=D\R+wp+YT&պ@ƃ3ޯ?AﶂaŘ@-Q=9Dռѻ@MVP܅G5fY6# ?0UQ,IX(6ڵ[DIMNލc&υj\XR|,4 jThAe^db#$]wOӪ1y%LYm뭛CUƃߜ}Cy1XνmF8jI]HۺиE@Ii;r8ӭVFՇ| &?3|xBMuSGe=Ӕ#BE5GY!z_eqр/W>|-Ci߇t1ޯќdR3ug=0 5[?#͏qcfH{ ?u=??ǯ}ZzhmΔBFTWPxs}G93 )gGR<>r h$'nchPBjJҧH -N1N?~}-q!=_2hcMlvY%UE@|vM2.Y[|y"EïKZF,ɯ?,q?vM 80jx";9vk+ ֧ ȺU?%vcVmA6Qg^MA}3nl QRNl8kkn'(M7m9وq%ޟ*h$Zk"$9: ?U8Sl,,|ɒxH(ѷGn/Q4PG%Ա8N! &7;eKM749R/%lc>x;>C:th?aKXbheᜋ^$Iհ hr7%F$EFdt5+(M6tÜUU|zW=aTsTgdqPQb'm1{|YXNb P~F^F:k6"j! Ir`1&-$Bevk:y#ywI0x=D4tUPZHڠ底taP6b>xaQ# WeFŮNjpJ* mQN*I-*ȩFg3 5Vʊɮa5FO@{NX?H]31Ri_uѕ 0 F~:60p͈SqX#a5>`o&+<2D: ڝ$nP*)N|yEjF5ټeihyZ >kbHavh-#!Po=@k̆IEN@}Ll?jO߭ʞQ|A07xwt!xfI2?Z<ץTcUj]陎Ltl }5ϓ$,Omˊ;@OjEj(ا,LXLOЦ90O .anA7j4 W_ٓzWjcBy՗+EM)dNg6y1_xp$Lv:9"zpʙ$^JԼ*ϭo=xLj6Ju82AH3$ٕ@=Vv]'qEz;I˼)=ɯx /W(Vp$ mu񶤑OqˎTr㠚xsrGCbypG1ߠw e8$⿄/M{*}W]˷.CK\ުx/$WPwr |i&}{X >$-l?-zglΆ(FhvS*b߲ڡn,|)mrH[a3ר[13o_U3TC$(=)0kgP u^=4 WYCҸ:vQרXàtkm,t*^,}D* "(I9R>``[~Q]#afi6l86:,ssN6j"A4IuQ6E,GnHzSHOuk5$I4ؤQ9@CwpBGv[]uOv0I4\yQѸ~>Z8Taqޣ;za/SI:ܫ_|>=Z8:SUIJ"IY8%b8H:QO6;7ISJҌAά3>cE+&jf$eC+z;V rʺmyeaQf&6ND.:NTvm<- uǝ\MvZYNNT-A>jr!SnO 13Ns%3D@`ܟ 1^c< aɽ̲Xë#w|ycW=9I*H8p^(4՗karOcWtO\ƍR8'KIQ?5>[}yUײ -h=% qThG2)"ו3]!kB*pFDlA,eEiHfPs5H:Փ~H0DتDIhF3c2E9H5zԑʚiX=:mxghd(v׊9iSOd@0ڽ:p5h-t&Xqӕ,ie|7A2O%PEhtjY1wЃ!  ࢽMy7\a@ţJ 4ȻF@o̒?4wx)]P~u57X 9^ܩU;Iꭆ 5 eK27({|Y׎ V\"Z1 Z}(Ǝ"1S_vE30>p; ΝD%xW?W?vo^Vidr[/&>~`9Why;R ;;ɮT?r$g1KACcKl:'3 cﳯ*"t8~l)m+U,z`(>yJ?h>]vЍG*{`;y]IT ;cNUfo¾h/$|NS1S"HVT4uhǜ]v;5͠x'C\SBplh}N ABx%ޭl/Twʽ]D=Kžr㻠l4SO?=k M: cCa#ha)ѐxcsgPiG{+xQI= zԫ+ 8"kñj=|c yCF/*9жh{ ?4o kmQNx;Y4膚aw?6>e]Qr:g,i"ԩA*M7qB?ӕFhV25r[7 Y }LR}*sg+xr2U=*'WSZDW]WǞ<叓{$9Ou4y90-1'*D`c^o?(9uݐ'PI& fJݮ:wSjfP1F:X H9dԯ˝[_54 }*;@ܨ ðynT?ןd#4rGͨH1|-#MrS3G3).᧏3vz֑r$G"`j 1tx0<ƆWh6y6,œGagAyb)hDß_mü gG;evݝnQ C-*oyaMI><]obD":GA-\%LT8c)+y76oQ#*{(F⽕y=rW\p۩cA^e6KʐcVf5$'->ՉN"F"UQ@fGb~#&M=8טJNu9D[̤so~ G9TtW^g5y$bY'سǴ=U-2 #MCt(i lj@Q 5̣i*OsxKf}\M{EV{υƇ);HIfeLȣr2>WIȂ6ik 5YOxȺ>Yf5'|H+98pjn.OyjY~iw'l;s2Y:'lgꥴ)o#'SaaKZ m}`169n"xI *+ }FP"l45'ZgE8?[X7(.Q-*ތL@̲v.5[=t\+CNܛ,gSQnH}*FG16&:t4ُ"Ạ$b |#rsaT ]ӽDP7ո0y)e$ٕvIh'QEAm*HRI=: 4牢) %_iNݧl] NtGHL ɱg<1V,J~ٹ"KQ 9HS9?@kr;we݁]I!{ @G["`J:n]{cAEVʆ#U96j#Ym\qe4hB7Cdv\MNgmAyQL4uLjj9#44tl^}LnR!t±]rh6ٍ>yҏNfU  Fm@8}/ujb9he:AyծwGpΧh5l}3p468)Udc;Us/֔YX1O2uqs`hwgr~{ RmhN؎*q 42*th>#E#HvOq}6e\,Wk#Xb>p}դ3T5†6[@Py*n|'f֧>lư΂̺SU'*qp_SM 'c6m ySʨ;MrƋmKxo,GmPAG:iw9}M(^V$ǒѽ9| aJSQarB;}ٻ֢2%Uc#gNaݕ'v[OY'3L3;,p]@S{lsX'cjwk'a.}}& dP*bK=ɍ!;3ngΊUߴmt'*{,=SzfD Ako~Gaoq_mi}#mPXhύmxǍ΂巿zfQc|kc?WY$_Lvl߶c`?ljݲˏ!V6UЂ(A4y)HpZ_x>eR$/`^'3qˏ-&Q=?CFVR DfV9{8gnh(P"6[D< E~0<@`G6Hгcc cK.5DdB`?XQ2ٿyqo&+1^ DW0ꊩG#QnL3c/x 11[yxპCWCcUĨ80me4.{muI=f0QRls9f9~fǨa"@8ȁQ#cicG$Gr/$W(WV"m7[mAmboD j۳ l^kh׽ # iXnveTka^Y4BNĕ0 !01@Q"2AaPq3BR?@4QT3,㺠W[=JKϞ2r^7vc:9 EߴwS#dIxu:Hp9E! V 2;73|F9Y*ʬFDu&y؟^EAA(ɩ^GV:ݜDy`Jr29ܾ㝉[E;FzxYGUeYC v-txIsםĘqEb+P\ :>iC';k|zرny]#ǿbQw(r|ӹs[D2v-%@;8<a[\o[ϧwI!*0krs)[J9^ʜp1) "/_>o<1AEy^C`x1'ܣnps`lfQ):lb>MejH^?kl3(z:1ŠK&?Q~{ٺhy/[V|6}KbXmn[-75q94dmc^h X5G-}دBޟ |rtMV+]c?-#ڛ^ǂ}LkrOu>-Dry D?:ޞUǜ7V?瓮"#rչģVR;n/_ ؉vݶe5db9/O009G5nWJpA*r9>1.[tsFnQ V 77R]ɫ8_0<՜IFu(v4Fk3E)N:yڮeP`1}$WSJSQNjٺ޵#lј(5=5lǏmoWv-1v,Wmn߀$x_DȬ0¤#QR[Vkzmw"9ZG7'[=Qj8R?zf\a=OU*oBA|G254 p.w7  &ξxGHp B%$gtЏ򤵍zHNuЯ-'40;_3 !01"@AQa2Pq#3BR?ʩcaen^8F<7;EA{EÖ1U/#d1an.1ě0ʾRh|RAo3m3 % 28Q yφHTo7lW>#i`qca m,B-j݋'mR1Ήt>Vps0IbIC.1Rea]H64B>o]($Bma!=?B KǾ+Ծ"nK*+[T#{EJSQs5:U\wĐf3܆&)IԆwE TlrTf6Q|Rh:[K zc֧GC%\_a84HcObiؖV7H )*ģK~Xhչ04?0 E<}3#u? |gS6ꊤ|I#Hڛ աwX97Ŀ%SLy6č|Fa 8b$sקhb9RAu7˨pČ_\*w묦F 4D~f|("mNKiS>$d7SlA/²SL|6N}S˯g]6; #. 403WebShell
403Webshell
Server IP : 43.205.77.33  /  Your IP : 216.73.216.140
Web Server : Apache
System : Linux 43-205-77-33.cprapid.com 3.10.0-1160.119.1.el7.tuxcare.els13.x86_64 #1 SMP Fri Nov 22 06:29:45 UTC 2024 x86_64
User : ksclnmuac ( 1023)
PHP Version : 8.0.30
Disable Function : NONE
MySQL : OFF  |  cURL : ON  |  WGET : ON  |  Perl : ON  |  Python : ON  |  Sudo : ON  |  Pkexec : ON
Directory :  /lib64/python2.7/Demo/classes/

Upload File :
current_dir [ Writeable ] document_root [ Writeable ]

 

Command :

[ Back ]     

Current File : /lib64/python2.7/Demo/classes/Complex.py
# Complex numbers
# ---------------

# [Now that Python has a complex data type built-in, this is not very
# useful, but it's still a nice example class]

# This module represents complex numbers as instances of the class Complex.
# A Complex instance z has two data attribues, z.re (the real part) and z.im
# (the imaginary part).  In fact, z.re and z.im can have any value -- all
# arithmetic operators work regardless of the type of z.re and z.im (as long
# as they support numerical operations).
#
# The following functions exist (Complex is actually a class):
# Complex([re [,im]) -> creates a complex number from a real and an imaginary part
# IsComplex(z) -> true iff z is a complex number (== has .re and .im attributes)
# ToComplex(z) -> a complex number equal to z; z itself if IsComplex(z) is true
#                 if z is a tuple(re, im) it will also be converted
# PolarToComplex([r [,phi [,fullcircle]]]) ->
#       the complex number z for which r == z.radius() and phi == z.angle(fullcircle)
#       (r and phi default to 0)
# exp(z) -> returns the complex exponential of z. Equivalent to pow(math.e,z).
#
# Complex numbers have the following methods:
# z.abs() -> absolute value of z
# z.radius() == z.abs()
# z.angle([fullcircle]) -> angle from positive X axis; fullcircle gives units
# z.phi([fullcircle]) == z.angle(fullcircle)
#
# These standard functions and unary operators accept complex arguments:
# abs(z)
# -z
# +z
# not z
# repr(z) == `z`
# str(z)
# hash(z) -> a combination of hash(z.re) and hash(z.im) such that if z.im is zero
#            the result equals hash(z.re)
# Note that hex(z) and oct(z) are not defined.
#
# These conversions accept complex arguments only if their imaginary part is zero:
# int(z)
# long(z)
# float(z)
#
# The following operators accept two complex numbers, or one complex number
# and one real number (int, long or float):
# z1 + z2
# z1 - z2
# z1 * z2
# z1 / z2
# pow(z1, z2)
# cmp(z1, z2)
# Note that z1 % z2 and divmod(z1, z2) are not defined,
# nor are shift and mask operations.
#
# The standard module math does not support complex numbers.
# The cmath modules should be used instead.
#
# Idea:
# add a class Polar(r, phi) and mixed-mode arithmetic which
# chooses the most appropriate type for the result:
# Complex for +,-,cmp
# Polar   for *,/,pow

import math
import sys

twopi = math.pi*2.0
halfpi = math.pi/2.0

def IsComplex(obj):
    return hasattr(obj, 're') and hasattr(obj, 'im')

def ToComplex(obj):
    if IsComplex(obj):
        return obj
    elif isinstance(obj, tuple):
        return Complex(*obj)
    else:
        return Complex(obj)

def PolarToComplex(r = 0, phi = 0, fullcircle = twopi):
    phi = phi * (twopi / fullcircle)
    return Complex(math.cos(phi)*r, math.sin(phi)*r)

def Re(obj):
    if IsComplex(obj):
        return obj.re
    return obj

def Im(obj):
    if IsComplex(obj):
        return obj.im
    return 0

class Complex:

    def __init__(self, re=0, im=0):
        _re = 0
        _im = 0
        if IsComplex(re):
            _re = re.re
            _im = re.im
        else:
            _re = re
        if IsComplex(im):
            _re = _re - im.im
            _im = _im + im.re
        else:
            _im = _im + im
        # this class is immutable, so setting self.re directly is
        # not possible.
        self.__dict__['re'] = _re
        self.__dict__['im'] = _im

    def __setattr__(self, name, value):
        raise TypeError, 'Complex numbers are immutable'

    def __hash__(self):
        if not self.im:
            return hash(self.re)
        return hash((self.re, self.im))

    def __repr__(self):
        if not self.im:
            return 'Complex(%r)' % (self.re,)
        else:
            return 'Complex(%r, %r)' % (self.re, self.im)

    def __str__(self):
        if not self.im:
            return repr(self.re)
        else:
            return 'Complex(%r, %r)' % (self.re, self.im)

    def __neg__(self):
        return Complex(-self.re, -self.im)

    def __pos__(self):
        return self

    def __abs__(self):
        return math.hypot(self.re, self.im)

    def __int__(self):
        if self.im:
            raise ValueError, "can't convert Complex with nonzero im to int"
        return int(self.re)

    def __long__(self):
        if self.im:
            raise ValueError, "can't convert Complex with nonzero im to long"
        return long(self.re)

    def __float__(self):
        if self.im:
            raise ValueError, "can't convert Complex with nonzero im to float"
        return float(self.re)

    def __cmp__(self, other):
        other = ToComplex(other)
        return cmp((self.re, self.im), (other.re, other.im))

    def __rcmp__(self, other):
        other = ToComplex(other)
        return cmp(other, self)

    def __nonzero__(self):
        return not (self.re == self.im == 0)

    abs = radius = __abs__

    def angle(self, fullcircle = twopi):
        return (fullcircle/twopi) * ((halfpi - math.atan2(self.re, self.im)) % twopi)

    phi = angle

    def __add__(self, other):
        other = ToComplex(other)
        return Complex(self.re + other.re, self.im + other.im)

    __radd__ = __add__

    def __sub__(self, other):
        other = ToComplex(other)
        return Complex(self.re - other.re, self.im - other.im)

    def __rsub__(self, other):
        other = ToComplex(other)
        return other - self

    def __mul__(self, other):
        other = ToComplex(other)
        return Complex(self.re*other.re - self.im*other.im,
                       self.re*other.im + self.im*other.re)

    __rmul__ = __mul__

    def __div__(self, other):
        other = ToComplex(other)
        d = float(other.re*other.re + other.im*other.im)
        if not d: raise ZeroDivisionError, 'Complex division'
        return Complex((self.re*other.re + self.im*other.im) / d,
                       (self.im*other.re - self.re*other.im) / d)

    def __rdiv__(self, other):
        other = ToComplex(other)
        return other / self

    def __pow__(self, n, z=None):
        if z is not None:
            raise TypeError, 'Complex does not support ternary pow()'
        if IsComplex(n):
            if n.im:
                if self.im: raise TypeError, 'Complex to the Complex power'
                else: return exp(math.log(self.re)*n)
            n = n.re
        r = pow(self.abs(), n)
        phi = n*self.angle()
        return Complex(math.cos(phi)*r, math.sin(phi)*r)

    def __rpow__(self, base):
        base = ToComplex(base)
        return pow(base, self)

def exp(z):
    r = math.exp(z.re)
    return Complex(math.cos(z.im)*r,math.sin(z.im)*r)


def checkop(expr, a, b, value, fuzz = 1e-6):
    print '       ', a, 'and', b,
    try:
        result = eval(expr)
    except:
        result = sys.exc_type
    print '->', result
    if isinstance(result, str) or isinstance(value, str):
        ok = (result == value)
    else:
        ok = abs(result - value) <= fuzz
    if not ok:
        print '!!\t!!\t!! should be', value, 'diff', abs(result - value)

def test():
    print 'test constructors'
    constructor_test = (
        # "expect" is an array [re,im] "got" the Complex.
            ( (0,0), Complex() ),
            ( (0,0), Complex() ),
            ( (1,0), Complex(1) ),
            ( (0,1), Complex(0,1) ),
            ( (1,2), Complex(Complex(1,2)) ),
            ( (1,3), Complex(Complex(1,2),1) ),
            ( (0,0), Complex(0,Complex(0,0)) ),
            ( (3,4), Complex(3,Complex(4)) ),
            ( (-1,3), Complex(1,Complex(3,2)) ),
            ( (-7,6), Complex(Complex(1,2),Complex(4,8)) ) )
    cnt = [0,0]
    for t in constructor_test:
        cnt[0] += 1
        if ((t[0][0]!=t[1].re)or(t[0][1]!=t[1].im)):
            print "        expected", t[0], "got", t[1]
            cnt[1] += 1
    print "  ", cnt[1], "of", cnt[0], "tests failed"
    # test operators
    testsuite = {
            'a+b': [
                    (1, 10, 11),
                    (1, Complex(0,10), Complex(1,10)),
                    (Complex(0,10), 1, Complex(1,10)),
                    (Complex(0,10), Complex(1), Complex(1,10)),
                    (Complex(1), Complex(0,10), Complex(1,10)),
            ],
            'a-b': [
                    (1, 10, -9),
                    (1, Complex(0,10), Complex(1,-10)),
                    (Complex(0,10), 1, Complex(-1,10)),
                    (Complex(0,10), Complex(1), Complex(-1,10)),
                    (Complex(1), Complex(0,10), Complex(1,-10)),
            ],
            'a*b': [
                    (1, 10, 10),
                    (1, Complex(0,10), Complex(0, 10)),
                    (Complex(0,10), 1, Complex(0,10)),
                    (Complex(0,10), Complex(1), Complex(0,10)),
                    (Complex(1), Complex(0,10), Complex(0,10)),
            ],
            'a/b': [
                    (1., 10, 0.1),
                    (1, Complex(0,10), Complex(0, -0.1)),
                    (Complex(0, 10), 1, Complex(0, 10)),
                    (Complex(0, 10), Complex(1), Complex(0, 10)),
                    (Complex(1), Complex(0,10), Complex(0, -0.1)),
            ],
            'pow(a,b)': [
                    (1, 10, 1),
                    (1, Complex(0,10), 1),
                    (Complex(0,10), 1, Complex(0,10)),
                    (Complex(0,10), Complex(1), Complex(0,10)),
                    (Complex(1), Complex(0,10), 1),
                    (2, Complex(4,0), 16),
            ],
            'cmp(a,b)': [
                    (1, 10, -1),
                    (1, Complex(0,10), 1),
                    (Complex(0,10), 1, -1),
                    (Complex(0,10), Complex(1), -1),
                    (Complex(1), Complex(0,10), 1),
            ],
    }
    for expr in sorted(testsuite):
        print expr + ':'
        t = (expr,)
        for item in testsuite[expr]:
            checkop(*(t+item))


if __name__ == '__main__':
    test()

Youez - 2016 - github.com/yon3zu
LinuXploit