.PS # relaycoil.m4 cct_init spc = dimen_/3 { relaycoil; S: "svg_tt(`relaycoil')" at last [].s+(0,-20bp__) { "svg_it(V1)" wid 15bp__ at last [].V1 rjust "svg_it(V2)" at last [].V2 ljust } K: relaycoil(NX) with .nw at last [].ne+(spc*4,0); "svg_tt((NX))" \ at (last [],S) { thinlines_ spline <- from K.A1 left 7bp__ then up 4bp__ left 4bp__ "svg_it(A1)" rjust arrow <- from K.A2 left 10bp__; "svg_it(A2)" rjust spline <- from K.A3 left 7bp__ then down 4bp__ left 4bp__ "svg_it(A3)" rjust spline <- from K.B1 right 7bp__ then up 4bp__ right 4bp__ "svg_it(B1)" ljust arrow <- from K.B2 right 10bp__; "svg_it(B2)" ljust spline <- from K.B3 right 7bp__ then down 4bp__ right 4bp__ "svg_it(B3)" ljust thicklines_ } relaycoil(AXSR) with .nw at last [].ne+(spc*5,0); "svg_tt((AXSR))" \ at (last [],S) { "svg_it(V1)" at last [].V1 rjust; "svg_it(V2)" at last [].V2 rjust } relaycoil(BXSR) with .nw at last [].ne+(spc*2,0); "svg_tt((BXSR))" \ at (last [],S) { "svg_it(V1)" at last [].V1 ljust; "svg_it(V2)" at last [].V2 ljust } relaycoil(SR) with .nw at last [].ne+(spc*4,0); "svg_tt((SR))" at (last [],S) relaycoil(SO) with .nw at last [].ne+(spc,0); "svg_tt((SO))" at (last [],S) relaycoil(SOR) with .nw at last [].ne+(spc,0); "svg_tt((SOR))" at (last [],S) } { move down_ 3/4; right_ relaycoil(HS); S: "svg_tt((HS))" at last [].s+(0,-12bp__) relaycoil(NAC) with .nw at last [].ne+(spc,0); "svg_tt((NAC))" at (last [],S) relaycoil(AC) with .nw at last [].ne+(spc,0); "svg_tt((AC))" at (last [],S) relaycoil(ML) with .nw at last [].ne+(spc,0); "svg_tt((ML))" at (last [],S) relaycoil(PO) with .nw at last [].ne+(spc,0); "svg_tt((PO))" at (last [],S) relaycoil(RM) with .nw at last [].ne+(spc,0); "svg_tt((RM))" at (last [],S) relaycoil(RH) with .nw at last [].ne+(spc,0); "svg_tt((RH))" at (last [],S) relaycoil(TH) with .nw at last [].ne+(spc,0); "svg_tt((TH))" at (last [],S) relaycoil(EL) with .nw at last [].ne+(spc,0); "svg_tt((EL))" at (last [],S) } .PE