let T be TuringStr ; :: thesis: for s being All-State of T
for p, h, t being set st s = [p,h,t] & p <> the AcceptS of T holds
Following s = [((TRAN s) `1 ),((Head s) + (offset (TRAN s))),(Tape-Chg (s `3 ),(Head s),((TRAN s) `2 ))]
let s be All-State of T; :: thesis: for p, h, t being set st s = [p,h,t] & p <> the AcceptS of T holds
Following s = [((TRAN s) `1 ),((Head s) + (offset (TRAN s))),(Tape-Chg (s `3 ),(Head s),((TRAN s) `2 ))]
let p, h, t be set ; :: thesis: ( s = [p,h,t] & p <> the AcceptS of T implies Following s = [((TRAN s) `1 ),((Head s) + (offset (TRAN s))),(Tape-Chg (s `3 ),(Head s),((TRAN s) `2 ))] )
assume that
A1: s = [p,h,t] and
A2: p <> the AcceptS of T ; :: thesis: Following s = [((TRAN s) `1 ),((Head s) + (offset (TRAN s))),(Tape-Chg (s `3 ),(Head s),((TRAN s) `2 ))]
s `1 = p by A1, MCART_1:68;
hence Following s = [((TRAN s) `1 ),((Head s) + (offset (TRAN s))),(Tape-Chg (s `3 ),(Head s),((TRAN s) `2 ))] by A2, Def7; :: thesis: verum