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Clone (Powder Game element)

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Clone
Solid
Color
907010
No.
No.
Unreactive.
Special properties
Clones elements other than fan or clone.
Yes.
2.2
No.


Not to be confused with Create, a similar object that clones other objects.

Clone is a solid element in Powder Game. Its main purpose is to clone elements.

Properties

  • Clones elements other than fan or clone, but stops cloning when the number of dots left is 999 or lower.
  • Clones elements into all eight spots around it, even in between a crack of two squares of block.
  • Clone can be infected by Virus which gives an interesting reaction. Alternating the virus gets reproduced by the clone or the clone turns into virus for some time, which is affected by gravity and wind.

Effects with other elements

When clone makes contact with an element, it will start to copy it. The exception to this is fan, which isn't copied at all. Most elements do not affect clone, except virus which infects clone.

Behaviour

A single pixel of clone starts off in a neutral state, no matter how it is created - be it due to the user placing some clone in the simulation, virus turning back into clone, or loading a saved game. Neutral clone pixels do not clone anything, but constantly try to pick some element to clone. There are two mechanisms by which a clone pixel will do so:

  • The Clone pixel chooses a random element within an odd area of itself.[1]
  • The Clone will pick a neighbouring Clone pixel in the following 5x5 area and begin cloning whatever element that pixel is currently cloning. The 5x5 area is not centered around the clone pixel, instead it ranges 1 pixel to the top and to the left, and 3 pixels to the bottom and to right.

Once a neutral clone pixel has chosen an element to produce, it will not switch elements.

If two elements are placed on either end of a horizontal line of clone, the line of clone will generally begin producing much more of the element on the right. This is probably due to the strange 5x5 region, from which the clone pixel chooses pixels of elements or elements from other clones for reproduction.

Usage


Experiments

  1. 0020000000000*02002*01*03*06*05*08004002w00P01r0C000r00n0Ey0GP01o0Ep00p0Co01.0Es0Eu0Em0LP00o01y0KP01p0EP0JP0X000u0Cq0Ym0R000.0Qo0Ew0a00c*0Er0gr0I00FP0Dn0Hn0ip0Qn0E*0qo0W000y0U00cq0Eo0Et0OP01m0cw0um0SP01w0uo0qP01v0Eq0kr0Up0VP01P0S010p1800Rp01t0Cp01u1F00wP18p01q0go0Wo0Xp1CP1Ao0M00ZP0L01B00l00cp0sP1Ap1701001Q.1Zz1W01I01Zo0y000t1Yp1M000q1Hs0up1Ip1Oo1900cr1Ho1ip1io1Hp1lP1j01ZP1At12P1J01jP1So0ur15n0iP0Yp1Io1Cp22000v0us0Uo0Yo1y00co1Qp1yo0Xo0Ys2Bs1u01Qo1do22o0Yz1bP1oP1oo2KP01s0xP23P2F01eP1Cr2IP1Co2DP0Yt2902Vo25P2T01Zp2401Zs2Bo2Br1dr0in0Ct2eo15P2WP01z1fq1ds1dp1du2tP1Cs2Bt1cP2nP0Yr0uz2N01co2Q000s2S02fP2z00cs2y03501Zq0su2Io2o02CP2YP3F037P1vp2v01Zr0sr0On26o0Cr0Yq3O033P1Au0gs3Do0Uq36r1LP2d03R03E01gP2O03Jo2kP1Cz30P3co32s34o2Bp1Ir2RP3cP36q1Hu3CP1KP3Gp3dP2wP3Go2jP1Sq0xn3NP3m01.00tP3.p2rP2AP3sP3PP4403H03at38o2iP0DP3fo0Ez49P4303Zt3t03aw4E03aq1dt3q03*p4Hp3Js4A03ar3Jt16P2GP3r04003Zp1fp2JP36o4Z04NP2ep4YP0Yu2Ip32r2*o0E.4Mo34s4OP0Yx4gP45047p2Bq4Ao43o2es4Qp3e00.n26p3X00lq4Bp1GP0F03Rp2PP18r2UP2.P51P3Yt1tP5001VP44p2ex10r0Yv4kP50q2Tp3Yp0gt0uq5903*q1fo3wp3ro1op1QP4uP3IP1zq1qP4VP01n3Z*03o0Ev1Rq0N*0g*0700A*5ft5bP41o15o32y4Dp0010ty0Vo4Yo0xo1dy5m15o000x1iq5Mp4zP1XP19p3rp1n01Tt5W01D00cP1Aq1kP3YP4Ft62P65P3xP6Bp1zp0Ex0G15ux4bo4vP2Uo2gp3to1Cv3z03Eo4Fp4yP1O02V03Zr6HP46o6Q00dn5ny0t05vP6VP36p1dq4Hq5i01Uo3kP5T031P4Fs6Wo6h03KP2W*1yr6PP3oP3WP1xP4B039o6p03ZP3hP6kP6up4m00Ro5400F*2HP6cP4po2xP3.r6*o0fP3n06So1fr6mo20P5F*7302c06vP5z07I03b06TP7401Zx5G07M03ap3Jr1dv02P2dq2To5303aP6C00vP1Su62p5xP18q1EP3Yo4LP1*P2dp5*063q4z*03u0q*0Tu5e*09*5f*7s*7r*7u05g*7v*7t07w00An0Iu51*03v0L10Zr09v82u80*14p5nu86027p88r84p00E8307z*7y*8G*7x*84q5nq89z82q8Lp8Kr09z8Mr8Pp8KP0t11.y8Sy8K08Tq0T11v*03z8MP8XP8cy8Wy8e18Z*2qp8V18U18jq8Yq8l00Az8by8iq0Cy8fq8mm0S15um0F18kP8d11vy8r000m8ty6Zm8vq8q18wy8zy8Wm8*y0zr8pP8xq8my95o6Yy9719318k08X09G*8ap98y8p09Gy8W*9I19Eq92q9A18g000z8o19O09L11vn6n08.o3Cp1Qu5kP5U07U00St9J19Fy8zn10o4Vm39p0En0.P1Ko2B*7901gs8O00Go0sp1hP5.01.p0TP7Ap3pP1Sp5MP3SP9.P7ip6DP1or3Dp9up7f07RP7Zo7Ep1zm3311jr5Yo9tP2zo46x4Jp7CP3Fo4U01Up3Jp1dP6uq3w04qP6q09Xo34p0u*91rAEP4Fo4rP5DP7Ao28P14P6ivANPASrAQp0yq6b01UP5ApAVr9rn39P6r05E06a06jr3.s4zp2So3rq2TrAgP2do71s6I06npAlP1C*91P8XE99P9909sP6RoAZ01Z*4Jw6lP6MP7Ns0uP41P6uo9pp32p4woAUPB2r8pEB5y9Kn3AP1PPAK03am0kp0uwBC00cv6*sBF03Zo1Qr1dwA*o6Ws2I*B3y8KEBO19Fn9Xp9*pAw01Zv5LP1vt59r5RP3mp3rr1oq4zq0PP1AP1N01.q3mq7j09w0BQ04XP1SmACq9PEBiq9P00Gp0Qs5bwBNy9fqC7n0hr0fwCB19OP9H*8h18kEC6PCI09SpCGq9PPB6*9NqC5yCCP9Gm1R01jn0OwCOPC600dq6En0OoCF1CKyCTy8Ws1wp60o62r0WpCiP1St59pClpA304Zo3GP6ApByo9u01Qv271Ce1CHyCgo2Z09i05B0Ao06O06StBCoASp2go6U0C*o78PBSo0Pv9rsC1oA5P2ePAjtBWp7h09kPASsD900cuCwq51sDDPBt0640Aqo760AMP6rq4dPD5P1vo7DP1CuDNr2Ro3UP4Vt0so4e01ZtDHPDW0DJ06SpDLp3JuDb033oC.o3DtDfPBG0DhP6.P7NpAf0DlP7No6muDNPCZy8zsCh01pP1vq2oqDjtCn0D0p0UrBr03ao1ur6qp7gP0DvCf18y1EHqDcP09s6FqCPy9KyE1o7o033nEGq9Qq8R1Cy1EI0CMz9TqEM1EVy9M*CJqEYqC7y8z*CRPE01EV*EfyCC09VqETqEcPEk09Gp1Zw4Dn0pP2Mn1fv2m0CWP2qn0fn2krER0Eno7OPEwP0zn0Ko0uy3yP0mPA7sBUP1CqBg19Uy8zo1w0D0P19o7kp1iu1HP5VPA106SP6AqDv0DRP7i0CvPBs064oCtPFE040pBys1Yq1HqFHp2eqAW0B70DkPBR07IoALp4bp4HoD6P2er2X035o4fPFMoC.r4bwDToDZ0DU04NrAnoBZP7XpBYP4VoAc07BP46s4Jo2IuBWq6W.DIoFzo6Wq0KrFuP6RPFwP0Xr6iq3l00RqAYPF*PAbPDjuG2PFMx4ztGDp0gpC.pA5rG80FN04HsFzq2sP3vPBEPGH0DkuGJ0FswFqPDtr3JqG71EIPEkPEnnC1p4MsFzp4bs4Qo4s07Lp6mpBw0Fso3DrBVP3GtGU0E301ZuGeq8lPGgyFBo4o05Bq2etFH0GE00Rr7Xo1uo1otH0o0uu0yp2pp36u3Qo4eq71P6B039q910B6yEN1DYo6Eq0wq0oP1Kr8rPG.1EVp2hq1LqHP00FrHRyHY1Eh*Eb0HK19g19Rz8M0HcqEd1HepHZqGzyEe*HbyHLqHhqEl0HgPEn*CR0HqyHl0CN1GfyHj0CUo88yHQ1AD09Y10ZyH.q51m8tu6ZqFamI4yI2rHpyHn0CQ*Hm1HdqHk1Hi1Hw1EZ19F*HsyIAy9KmI70AD1IGqESPHy1I10INqIEqIPy9B1IRqHJyIK19FmIMqIX1ID0IB0HvqIT0HSqI91Icy9K*IJ1Ii1II*ICqHo0Idz8Q08np9r*CRrElr8I08F*Iv*5fy0Iq9xq2Rn2lPF1P0Np1QtBv*9pw0kz21P3fpGqs15*9pt660FD01Qq5WpBGp4*01wo7kt1sPFJPFL063uJF04GPCpPCs08..6EPFMr2XoASo3jPAd0700Dy03RoEEoJWP3u048PA7o2E0Ja.9SP2qP7Jp1fP6y047oJX027PEE047uDmPDto34tJt09SzEr039sAIP7e0Du0JZt3qr77PDYP6brJuPA7tD9r0Tz9ln4PPGXp4Ht26s4MwDE07KpBcPGuPJgPAj*Jj00Sn4SP5JP36tKEPJrwKGoGnoBIPFm0BaPKLz3QpAi0C0uH0pHEP3.o9z0DJqK3rEAp5S0H4t5MvAuPFJp3V00As1U*03y5c0Iw07zqKMz0km0koEqP77n4jnJyt5K.Ky08.nF2P1CnF7002oJT00tzFkPJRpFGP1SPFIpGV0JEP1vrL9p0YPA0pFS0LFp60rCk0A8063p1Yr0HzJV0JaoGlP18oDzP4t0JarFko2boDgoLaPAG03bo46PJro34.KMPJnpFx03*oG5PJd047PJno2IsGpPHDPFyP6Rp4Qs0qzJ.0DSPJeqGMPK40LTPJePLpP3YsLr0Ly0CVq6dPDQo2bp0Q.LxoDgsDd0C20F.0LOsG0PM3P46pGvuMDpAF07Qo9l.H9PDtsLc0MEoBJPLXt4MpGkPDjo1fuDqPLuPK301j.KcPL*p2SpBrqHG0JapKjtMP00ctFXPDWqKWPFJo1uq43pB2*11o0KqEPuBz01jqEP*5fo3Rq2.n4DrL1x0f.7CnN0PF00Arv0dPA7pMmp60PA4P5APBRoFFPFTo1HtJKpNEpNE04ZpLIo50p60qH3tH3pN9039rKMtD9o6RrBwo6JPLdpAcoJrrDZo2poFfPNW0Fl0C2o6s01pzJpp5OPLt0BXPJrpM7047qAhPKeP4VrGt07Kq4207Kr20zJXrJ*oMLPJYpFrq3Qs2orLV0H50H4oGsP1CtKm0C1sDdrO2pNwPKK0MSP4Vp0swMVP4pw3DvGvpNnrMW0NtP3.q7TP2ev8Ku14qNj0OD04c0KV0LOo3DwOIPNc0C1rOLo6hoBGo5FPLXvOQ000wMwoKop3QP4Vq0ut4op2pqK3qByqGNP5700lpH2POsp1YP7fpMg01TqKjvOgxMEyDNu11s2*v941IHqES0Hr*2q1P50EnyP4q8m*8a1P9yPB0PA1He1P9q1HrPFyPF*PDq7kr8WqPJ1E4P8DP0D1LGP3x1PQpPSq8ms1t1EVv7L.0KuPOPPR0HJq0CE0i1PV0HJrPfP1K1PQEPgqPN11vsPj0HfrFX11vvPaP0VuPcpPW0C0r8zrPrqPnq3rEPm0520PqPPdq8WvC0pNH07LPJRqNQPLD0Pb1PE1PIP1SrPyPPUq1GqJhpNY0M00A8o74oPu1QCqP6yPKqNnpLbPAjq6ePQNqQP1QO0EnvOiPDQs6woKd0LlP51oA5uPK1QXy8zuOUoOXP3GsNuoNup0Z1Qh1QpqQHP3GqOVo1fsMRsM9uOgv1.rNBqDtpOrq1zPJ*pH3o0QuOg*PMu8P11juR6qQWqR90P709S1Qq0PGqPC*P8qRAyQgqRF0RCqP6r0O1RDyEa0RK0Px1P9rPz07LqPFq0x1PHqP*PPwp0EE2R1LGERaq4BE2D1EVqPPqP6*PM0RQqRLPQG00FERc01.EQ0yCgEPw*RirRMqRH1Phr8Wr8D0C40EW1RN1BpPPkqRh*RG0RE0S3p0P1Ha0RPyRI0S3yROzS8ySB1RWuR8uSE08n1R70SGqRuqSJ0SI0S91RD*RiySCqRA*SO1P9sRp1L*v8Wu0K1S6zSP0SMqR80Rj09GqRg09GrRxsRUPQE1RW0RoP5R19coRxrPcEQ0sSm1EVrSf1Rb0RyqPprSA1Rv1RfPShqSKqSd*SRqRAo5b1QX*S*0SePRnyS8uSWqSaySYyPL*S2yT91P9*R50SIuSF*TE*T3yTCqRJzPFrRt0SZ0RzqSKv0w1SU1TD*TB1R.qS10S71TU0RBzRwERno0KEPwrSrq2RE1C1SN*TTqRArTd033ETcERnsSpqT81TXyHuzTJ0S3*RsPT51Tp1SiyTrP1111vw0E1Tw1TvqTK1SH*TH*RGuTG*Ix*U60Kt*8H002x0foJysEuo0QpBboMYP01xKMv0nP1Kn6fr0rP1Eo1305vzAOoByp9*oOqPLCp4FPJMoULPFTq9zpCo0C0s69oURPNFP1AsL9oB*oFGzFi0DkoGOP560D2o4Hv2L0JasQIPGG0JZpJho4brLSo4hPFdtKMoM4oKTPFnPAjvDi0OhP4ppQuPF8PMJP3.PLjP4FrOmz4mr45rOAPAjpOO0GrP51tBvP51p3TPV60LOpJm0Ds0EBPFMtUzPUsq6foFrpVGr2BwB9sOLqM4sMBPUmp0xzLkqVUPAjo1QyBWwVYPJepU*0D0tMko6WtVS0E8PL*r3XpNkoH70VWP7V03brQz0O3rAA0Vq0GoPNmPFOpEPn0k*Kru7q0U8*U7n3*m16nJy.1Qx9b06S.Gqo3*z0kt0QwCcPJk0NSo4Ln0iqExPA7*3bpNM0FKoBmo1YtLNpAfpO6PA20WQ035pNNP1SsLZPALPKnPW2POx07lPJLo2UqNGPLC07KPA1pWRqNPPWm.W00MNPFdoA*sMZ0DRp7GpDIr6L0LYP6706SsWwo6NtV2oCq06SvMRpMT0AR0NeoLauAJ0KHPDKPNkpMMpOJP2aPBHPVFPV80VPoGvqUx0GqrVVP3GvNz0MiPK60Qd03**3bq7foXK02VrONP4pqQcsDTrK806x0XMPALqUxpAdo71oQcpVutXSo2vrXUqNn.WsvX8o4QwXSPJesXePLW0V306j0X1PVtPXJ0XzoV50D0rQmPLEpQtPNkq4jt0uvXtPNdo79oLf047sXx0XD0E*0D0oGUoLErYAPALs2Ir4eoLXo3JwOc0Ne*Vx0Ot0VNPBx035qV8pV7qXIpDaPWgpKPqN8PLEsWVP1zoO5pBmpO7p1m01RpBroGA0KkP7ZPR00EpvUCs5bq5by0gn0ks3ZvXW*U7*U9*Z0*Y**Z200LpdM2


2.Another experiment
0032000000100*02102*01*03*06*05*01w00q00004000v00u01u0B*0200Du0F00Cv0E10E00Ku0J*0Hv0Lu0G*0Bv0Q00N10M*0Pu0O*0Su0X00I10V*0Y10b00au0R00e00Uu0fv0T*0W10dv0j*0cu0iu0Zv0m00g*0ku0o10lu0pu0v10u10xu0tu0z00h00**0s010*0n01200r*13*11*17*13q00n00K00t0BK0Bs1B000p1AK0Bm00o1F*1H000.1JK0Bq1Lq1Fy1Fo1Fs1F.1GK0By1Lr1PK0Bu1G10Mt1X000w1Lm1N002n1To1Fp1WK1VK0Bo1Fr0AK1Vn1ln1lK0Bt1Zu1qn1Fq1FK1J01U01Up1qK1G01wK1vq1Bp1kK0Bp1hK21p1EK1Do1OK1zo2301wr1Bo22K2Cp2C02B01mp0Br29p1RK1zp1u029o2001cK2HK2102Fr2NK2601wp2Nt2Fq2Nq2XK1zw2Ns1uo2Ep2No2MK2KK1D01m01x01ep2Jp2Er1Ft1r01Cn1tK1vo2J02jK2P01wo2Fo2rp2Lp29K2lK2qK2Qp2xK2Eq2ro2wK21o2Qo29q2IK2gp2Jo35K2*K1YK2501No2Qr3901eo33000r32K2Eo2e01wu29r2vK3A01.03Rp3Gr3IK2EK3LK3Ds2nt1bp3K00DK3Dp3Io2LK2go1Fv3Mp2rK2gK2tr3dK3W02AK3j03l03SK1j000s3Ir3po3gK0SK2Qs29y1p02uK3Do2Lo3Ms3pK3B01es1Sp0Jt3ZK3Bp1yp2cK43o3e023p3cK4BK3oK3kK4F03.r2tK3oo3hK1zq2Nv1SK43r3pp2aK25q2D01Ur3wq2tp33q2QK21r3xK4a01eK4co4P03sp46n2p03.03sK3w02s04mo4CK3Dr4M04d02Lr3zo4qo3v04Co4uK3Du4fo3OK4Is3zr29s2ry4.04jo3MK4b04k044K3fK3XK1Ep4hK27054K2z04jp3Ip3703n05GK4A057o3ap4RK4E02UK4Io29u4zK5Fo3Mo53o3Ko4Ip1Fu3TK2.03HK3405Q04js5HK5Lo4fs3Yn4ip33p4905ep2Y01wq4S05Qp5Dp2mK1vp4D05nK1zt36K2f05eo2Np4fr3tK1vK3mp2VK1*K6202iq5*K25o2gr2b05Qo38K27p2Es5vq2pp5Ft2nx00x1tq1KK0Bn1Lz1et2ny6KK22q6M000m6Oo5Zp0wu0.*1801506av0qv6cu6X014v6d10y06fu6e*6Zv6gu6Y*16*6n06bu6j*6ov6l06i16h*6ku6q06p16u*6ru6wv6s*6v16y06xu6m07206tu73v6**6z171v77074*70u76u0Jp3JK1C04fy1wz2Fv1ey4jr3gs0Js7F02hp2hy1Fx1e*1w*3s10Ms7Oq6Bp5vr5Io2Yp3DK2.o6E01mo6Dp2Pp2403Rq6Bq2dK5hK66p6801po7f01.o5dq2Nr5IK43K0Ss7Nr2po3Qo5y05eK63K2Po5do3uK5bp4tK3Wo8005c03q03Ro3P03.o2to8Ap3Go8Ao7zp2y087o7M17Vr5kK3Qv4o05MK4lp51K5YK8CK3ms4x04wK7*05801ws5g04mr8No3i01wv7Uu1Er8L02sp7b030q4Us5Ip1Bq4Fr8S05fK8Wo8bK3Wr56p23q43p2Jr4K040K7hp8Ju8fK5sK56r8r08YK4XK8qK3mv3ps8UK4LK8TK5Po4qp2rv92o3av8e03sr8go3Is7ZK83K9405Eo3Ao4QK4*K5bo8lK8504nK3*K9RK9L05K057p5VK2Qv9Gs7WK7*p1y05pK7mK1zs9So6Do7ps5vp4fK65p9007e09mK1yo9k08Zp6405.K3V044s0Jz6R002o1Fw0D10Mz9.x1Nq0BxA1u7D179u6.uA91A81ABuA7uAD0750AF*7C0AG*78uAE*AH*11qA1m1*z0JqANo1OzAPv01mAO10MqAQ00AzAS10A00En0Fp1IwAYq1YnAb06UwAd0Aa10EpAc1AVv01qAe1Aj0Ag1Al1AZu1A1AZq50oAm0Apu1OvAvuAsq27o2Co2HoAvm1c1AqqAnqA.01Uo4Uq2FK4Zo7rK9i1AZmB2uAx1ArnAvq92p5X03E0BJo3t1BCwAhuAz02hK3os5O09303J1BM1B30Aiq5DK3op8m09U05wq2H1BUuBEqB40BP08y09Yo9K02A1Bd00AvAynBGK7yK81KBq09w0BJrB1wBNnBo087pB80B609uK66rBu1BVuBOu1LtBOmBD0Bm1BF1AtnBZuC4wBv1BCpC0uBe0Aiu1zmC5qA1q1BuAsuCGwAdKCFpAkuBeKCN0Aw0C6qCJnBGzCMuBOq00zCVnCU1B3KBW0AX1AqmAUuBEmCe0C6mCgqAWqCX1AC0AI07B*AJ0Cmv7Av6sq1Br0Bw50K5BK2Qn6Pn1QK0Bz3gzAPK5Dv7o0Bzs4jnCxK3rz1Qo8402oK2Qq1L.1Fz2XpD7sCK02hq3UpB5p2Fp2Yo5903Po7dt7nK1vr2S02WK9iK59pB5o7kp3VoB5K48057K9o05r04mp7RnD7t1Lo1tn1TK3ro1tpDDnC*02ho3MrBHK9O0BKK9W05Jp8EK8So3QpD1o9a0BxKBroDs08aKDqp5NK6D05JK7hqDJ06H07jK5xK28K1zK2TqDN02io7k01Uq7g01Ns8zKE1p2k05er7XK3Vp4UKEAK1zyC*r7l07OKBQK8R0BSr4qrBRrBjr5T0BiK9P0Ea0BaKEToEUo5a0Dp0D.09N0Dx0BtK4IK3FK3mo3lo9pK8Wr8FK3mrDzo29xDktDmK4G0EE0Bap37q9Mo5WK8s07OpCs01er8u0E.K3ArF0K3J0Eko8Ns5Is610F70F3KDuK9Q0Ed01ev3ao41KDKpFEp3prBRxEwKEtKEyo8UpEWKErK4Iv8Q07OoFUK8MK9A0FJK2gs23r2CqEbo2erF909Ur56oF4p8QqBpr56KEUr8Ur3lrA51AVK9fo8ArFLKDyK9XpBIrFV0FFrBjoFxo5RKD*K86o8205w01CK6FKFW0BavDwp2rsEZsDIKFjoGDK8ioF*pFPK4I*DkuByoDQ0Dxo9tK8vKA*04Pp5LrByp5vsE5qGFo5dKGRoFNKDR0DQp4Ap9ptG1K9Wo8opFOKFH0Bas420F5KFy0BatGgoG5KDooD7p3Ix9zo1Rs1Fn4jqE4KGSK86KGe0G8pG.0Dap4Po7ho2yoG*05coEH0G802G09qK4KoDW0BJqGVK4Uy0JvA4002rBZo2uuDfKCzo0Jo00yGxu1oKHO1Cl*11s3b07OrF5y7NvGY06K.HZK5uKHdpHEo6BoGd08O02F*6K10My0A10Mr1wyDn0H80DpoGkrDz.Hku1Vq0JrHoKEysBRp60K43.Hu0HQqHwpCy04CpHLK8WpF6r3I.I0yHmu2HpI3K990EcpF*o29.I0uHmq00E0Lq6NpI3oG20HqoGq0FZK2E.IHqAmEIK01ApIMK3BoGQ0DbKH2r3pxIS10AEIUn1wm1ezCku1YqITuAvnHonBZ.Ih00AqITq0FEII0CXo1T*APqIp10EEIr*0Hz1J1AVqIvuIJqAv*IyoIu1IdqIqqJ1*HTu1IqAPEAV10lo0JmIA0Idu1O10Mv1ew4iq2LtDeK1In3zz1wtJK0D801Go2rzDEmJDqIJuJFu0SoA0K9xpJJn2rm1HoGSzJNn2rt1Lp87zJSqJ9uJV00DoJX089KB90HBp6BrDPKDZsHapGz04doBApGIK4NKJxoDV0HBq7sKE90HhsEL0ECK3Wp9xoJ*p3jo7do3y1HlpAP16UnJjr1ex8coEuK9To84oHsKFTKEoK7c0Eho4.oEfKGsKFqKGopDvKGkKJYKBrpKI0EkK2Ey0Jy2nqATnKDo7RKE1KKP05JoF*KET0FFpH.05es2rr8UvEXKFcoBhp3IvBRo2LzKapKBm1A0JDrKEKKf0Fk0EioFi0ES08j0KkKFg0FGrL5o3zp8w02isFs0FG02sq4Z01NrD9KGcoL1oKu1KA1JAmKxqHwoKe08HoFM0KhK96KKK0IEKGAp4fpKnK3mwGtK9bKKL04jK56tLZ08XKCz10MuKb1Lh1JAu6NoI3rBjpFEoIFKBpoKQ0Bso2RKERoEs0FFoF109YrLvo3GpLnK5UKI6K0B.0JuLiu1Y1Lk01AoLmK5Lp7npD1KH0sE0oIYo9j03zqJtpGF0Daq4SoEIKGcKHd0BzK31K5zq7noHG067KM21LhpKBuM5uJjuHAx7On1WnHN01M1MV1M6uMW00AtBZy7Om1LsJfn1K1MeqJjmDEqJ60M71Mn0JDmMp1AZ*0HnIzu1YpBG10MmMuq0fnMx0Aj1At1M.nKBqM2n4iy03uMy1N3qBfqAv.1bz2r*IW09Zn1QnHS0IQ06Kn1hqDf1MsqBn1NA01fK2Q.1Kn2rw1LyMbK8o*7WnM3pMzqNB1Mvn2rxGNK4Uv3ioEFK2TpGWKNhK4Uo2ep9xq5voNl09gpK70JoKDS09ZKMMo7dr9Kp9Pp5LK2KnNY1NPuCW1NbK2QwKG03NKBrrO3oKO08IKKV02eoGiKK.pLX0KNKKHKM003noGkq7t088q8UqAzo1n1N*nNZ0NQ0JHKLbp5ZKFhKLbvLQoKrKFlK3mK4IrKtKGUKLa0LyKHyKLErOLnAmoONqJFqNaq0GnNTKKLr3C0L0K9e0Nt0LD04roF4o5TrLEoOvKOB0LF02sr94p9BK5FKBYKAZo4sK9500AnOi0HQnOPuO0q1Io2FxDwyLoKFcrGCKOxK5A0Lf08Xr97K2EvKlpFEKIDp8crOh10AoOj0IruPB06UoPDKKSKOpoLxpE007FoBp0BJpBjsB.07LKKgpPbKFjpLWK9TpPm0IOK1OnM3nP8qNOqOk01MoNd02ipLerMSoNi0MIpMSq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