.PS
# `AlogixMan.m4'
log_init
# 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__))
move left 10bp__ from A.InCk
"\sl Out1" at A.Out1 ljust
"\sl Out2" at A.Out2 ljust
Loopover_(`v_', `"$v_$" at A.In`'v_ above ', A,B,C,Ck)
`"\shortstack[l]{
\tt Autologix( \\ \tt \quad
Nand(And(Or(A,C),Or(B,\~{}C),Or(\~{}A,B,C)),Ck);\\ \tt \quad
Nand(\~{}A,B))@with .n at last [].s+(0,-2bp\_\_))}"'\
wid 288bp__ ht 32bp__ with .nw at A.sw+(0,-0.10)
# 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+(0.4,0.25)
"{\sl Out}" at B.Out above ljust
`"\shortstack[l]{\tt B: Autologix( \\ \tt \
Or(And(B,Not(C)),And(Not(A),B,C)),N)}"' \
wid 242pt__ ht 20pt__ at B.s+(0,-0.2)
for_(1,4,1,`"{\sf\small\sl B.In`'m4x}" at B.In`'m4x rjust')
"{\sf\small\sl B.In5}" at B.In5+(0,-1.5bp__) rjust
ifelse(0,1,`
# Here is how to include an arbitrary circuit
# (an SR-flipflop, for example)
# that is not one of the standard gates.
# First, define the circuit with a name ending
# in _gate. Put its inputs named In1, In2, ...
# on the left and the output Out on the right.
define(`SR_gate',`[ v = 2*L_unit
S: NOR_gate
line right_ 4*L_unit from S.Out
Out: Here
R: NOR_gate at S+(0,-10*L_unit)
TS: S.In2-(v,0)
TR: (TS,R.In1)
dot(at S.Out+(v,0))
line down v*3/2 then to TR+(0,v) then to TR then to R.In1
line from R.Out right v then up v*3/2 then to TS+(0,-v) \
then to TS then to S.In2
In1: S.In1
In2: R.In2 ]')
# Now define the function by which the circuit
# will be invoked using the built-in _AutoGate:
define(`SRff',`_AutoGate(SR,$@)')
# You are done. Here is an example:
G: [
F: Autologix(SRff(And(x,y),Nand(x,y)),LRV)
"$x$" at F.Inx rjust
"$y$" at F.Iny rjust
"\sl Out" at F.Out ljust
] with .sw at A.n+(0.0,-0.25)
`"{\tt Autologix(SRff(And(x,y),Nand(x,y)),LRV)}"' wid 253pt__ ht 7pt__ \
with .w at last [].sw+(0,-10pt__)
')
.PE