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.PS
# `AlogixSVG.m4'
log_init(svg_font(sans-serif,10.5bp__))

#                             A modest expression in default form
A: Autologix(
    Nand(And(Or(A,C),Or(B,~C),Or(~A,B,C)),Ck);
    Nand(~A,B)@with .n at last [].s+(0,-2bp__))
    "svg_it(Out1)" at A.Out1 ljust
    "svg_it(Out2)" at A.Out2 ljust
    Loopover_(`v_', `"svg_it(v_)" at A.In`'v_ above ', A,B,C,Ck)
    move left 0.2 from A.w
  "svg_tt(`Autologix(')" wid 68bp__ with .w at A.sw+(0,-0.15)
  "svg_tt(`Nand(And(Or(A,C),Or(B,~C),Or(~A,B,C)),Ck);')" \
      wid 305bp__ with .w at last "".w+(0.2,-0.18)
  "svg_tt(`Nand(~A,B)@with .n at last [].s+(0,-2bp__))')"\
    wid 313bp__ with .w at last "".w+(0,-0.18)

#                             Draw a tree of gates only.  The ~ has been
#                             replaced by NOT gates.
B: Autologix(Or(And(B,Not(C)),And(Not(A),B,C)),N) \
  with .sw at A.e+(1.3,-0.5)
  "svg_it(Out)" at B.Out above ljust
  "svg_tt(`Autologix(Or(And(B,Not(C)),')" wid 165bp__ \
     with .w at B.sw+(-0.6,-0.15)
  "svg_tt(`And(Not(A),B,C)),N)')" wid 122bp__ with .w at last "".w+(1.1,-0.18)
  for_(1,4,1,`"svg_it(B.In`'m4x)" at B.In`'m4x rjust')
  "svg_it(B.In5)" at B.In5+(0,-1.5bp__) rjust

#                             Here is how to include an arbitrary circuit
#                             that is not one of the standard gates.
#                             First, define the circuit with a name ending
#                             in _gate.  Make sure its inputs are on the left
#                             and named In1, In2, ... and the output Out
#                             is on the right.
define(`SR_gate',`[
  S: NOR_gate
  R: NOR_gate at S+(0,-L_unit*(AND_ht+4))
     w = (S.Out.x-R.In1.x)/3
     v = 2*L_unit
     line right_ dimen_/2 from S.Out
  Out: Here
     TR: R.In1-(v,0)
     line from S.Out+(v,0) down w*3/2 then left S.Out.x-TR.x+v down w \
        then to TR then to R.In1
     TS: S.In2-(v,0);
     line from R.Out right v then up w*3/2 then left R.Out.x-TS.x+v up w \
        then to TS then to S.In2
  In1: S.In1
  In2: R.In2 ]')
#                             Now define the function by which the circuit
#                             will be invoked:
define(`SRff',`_AutoGate(SR,$@)')

#                             You are done.  Here is an example:
G: [ 
  F: Autologix(SRff(And(x,y),Nand(x,y)),LRV)

  "svg_it(x)" at F.Inx rjust
  "svg_it(y)" at F.Iny rjust
  "svg_it(Out)" at F.Out ljust
  ] with .sw at A.n+(0.5,-0.25)
  "svg_tt(`Autologix(SRff(And(x,y),Nand(x,y)),LRV)')" wid 285pt__  \
    with .w at last [].sw+(0,-10pt__)

undefine(`extras')
define(`extras')

ifdef(`extras',`
  Q1: Autologix(Nor(Nor(A,And(B,C)),Nand(Not(B),D))) \
        with .nw at A.sw+(0,-61bp__)
  Loopover_(`x',`"x" wid 7bp__ at last [].In`'x above',A,B,C,D)

   "svg_tt(`Q1: Autologix(Nor(Nor(A,And(B,C)),Nand(Not(B),D)),options)')" \
     wid 363bp__ with .nw at Q1.sw+(0,-10bp__)
   "svg_tt(`Loopover_(`x',`\"svg_it(x)\" at last [].In`'x above',A,B,C,D)')" \
     wid 431bp__ with .nw at last "".sw+(0,-5bp__)

  Q2: Autologix(Nor(Nor(A,And(B,~C)),Nand(Not(B),D)),V) \
   with .nw at last "".sw+(0,-16bp__)
  Loopover_(`x',`"x" at last [].In`'x above',A,B,C,D)
  "V" at last [].se above rjust

  Q3: Autologix(Nor(Nor(A,And(B,C)),Nand(Not(B),D)),R) \
   with .nw at last [].sw+(0,-0.2)
  Loopover_(`x',`"x" at last [].In`'x above',A,B,C,D)
  "R" at last [].se above rjust

  Q4: Autologix(Nor(Nor(A,And(B,C)),Nand(Not(B),D)),RV) \
   with .nw at last [].sw+(0,-0.2)
  Loopover_(`x',`"x" at last [].In`'x above',A,B,C,D)
  "RV" at last [].se above rjust

  Autologix(Nor(Nor(A,And(B,C)),Nand(Not(B),D)),LRV) \
   with .Out at Q4.Out+(3.5,0)
  Loopover_(`x',`"x" at last [].In`'x rjust',A,B,C,D)
  "LRV" at last [].se above rjust

  Autologix(Nor(Nor(A,And(B,C)),Nand(Not(B),D)),LR;offset=-L_unit*1.5) \
   with .Out at Q3.Out+(3.5,0)
  Loopover_(`x',`"x" at last [].In`'x rjust',A,B,C,D)
  "LR" at last [].se above rjust

  Autologix(Nor(Nor(A,And(B,~C)),Nand(Not(B),D)),LV;offset=L_unit*2) \
   with .Out at Q2.Out+(3.5,0)
  Loopover_(`x',`"x" at last [].In`'x rjust',A,B,C,D)
  "LV" at last [].se above rjust

  Autologix(Nor(Nor(A,And(B,C)),Nand(Not(B),D)),L) \
   with .Out at Q1.Out+(3.5,0)
  Loopover_(`x',`"x" at last [].In`'x rjust',A,B,C,D)
  "L" at last [].se above rjust
')

 command "</g>" # end font
.PE