let x, y, z be set ; InnerVertices (GFA3CarryIStr x,y,z) = {[<*x,y*>,and2b ],[<*y,z*>,and2b ],[<*z,x*>,and2b ]}
set f1 = and2b ;
set f2 = and2b ;
set f3 = and2b ;
set xy = [<*x,y*>,and2b ];
set yz = [<*y,z*>,and2b ];
set zx = [<*z,x*>,and2b ];
set Cxy = 1GateCircStr <*x,y*>,and2b ;
set Cyz = 1GateCircStr <*y,z*>,and2b ;
set Czx = 1GateCircStr <*z,x*>,and2b ;
A1:
1GateCircStr <*x,y*>,and2b tolerates 1GateCircStr <*y,z*>,and2b
by CIRCCOMB:55;
(1GateCircStr <*x,y*>,and2b ) +* (1GateCircStr <*y,z*>,and2b ) tolerates 1GateCircStr <*z,x*>,and2b
by CIRCCOMB:55;
then InnerVertices (GFA3CarryIStr x,y,z) =
(InnerVertices ((1GateCircStr <*x,y*>,and2b ) +* (1GateCircStr <*y,z*>,and2b ))) \/ (InnerVertices (1GateCircStr <*z,x*>,and2b ))
by CIRCCOMB:15
.=
((InnerVertices (1GateCircStr <*x,y*>,and2b )) \/ (InnerVertices (1GateCircStr <*y,z*>,and2b ))) \/ (InnerVertices (1GateCircStr <*z,x*>,and2b ))
by A1, CIRCCOMB:15
.=
({[<*x,y*>,and2b ]} \/ (InnerVertices (1GateCircStr <*y,z*>,and2b ))) \/ (InnerVertices (1GateCircStr <*z,x*>,and2b ))
by CIRCCOMB:49
.=
({[<*x,y*>,and2b ]} \/ {[<*y,z*>,and2b ]}) \/ (InnerVertices (1GateCircStr <*z,x*>,and2b ))
by CIRCCOMB:49
.=
({[<*x,y*>,and2b ]} \/ {[<*y,z*>,and2b ]}) \/ {[<*z,x*>,and2b ]}
by CIRCCOMB:49
.=
{[<*x,y*>,and2b ],[<*y,z*>,and2b ]} \/ {[<*z,x*>,and2b ]}
by ENUMSET1:41
.=
{[<*x,y*>,and2b ],[<*y,z*>,and2b ],[<*z,x*>,and2b ]}
by ENUMSET1:43
;
hence
InnerVertices (GFA3CarryIStr x,y,z) = {[<*x,y*>,and2b ],[<*y,z*>,and2b ],[<*z,x*>,and2b ]}
; verum