let s be SCM+FSA-State; :: thesis: for t being Element of SCM+FSA-Data-Loc

for u being Integer holds (SCM+FSA-Chg (s,t,u)) . NAT = s . NAT

let t be Element of SCM+FSA-Data-Loc ; :: thesis: for u being Integer holds (SCM+FSA-Chg (s,t,u)) . NAT = s . NAT

let u be Integer; :: thesis: (SCM+FSA-Chg (s,t,u)) . NAT = s . NAT

( (SCM*-VAL * SCM+FSA-OK) . t = INT & {t} = dom (t .--> u) ) by Th5;

then not NAT in dom (t .--> u) by Th4, NUMBERS:7, TARSKI:def 1;

hence (SCM+FSA-Chg (s,t,u)) . NAT = s . NAT by FUNCT_4:11; :: thesis: verum

for u being Integer holds (SCM+FSA-Chg (s,t,u)) . NAT = s . NAT

let t be Element of SCM+FSA-Data-Loc ; :: thesis: for u being Integer holds (SCM+FSA-Chg (s,t,u)) . NAT = s . NAT

let u be Integer; :: thesis: (SCM+FSA-Chg (s,t,u)) . NAT = s . NAT

( (SCM*-VAL * SCM+FSA-OK) . t = INT & {t} = dom (t .--> u) ) by Th5;

then not NAT in dom (t .--> u) by Th4, NUMBERS:7, TARSKI:def 1;

hence (SCM+FSA-Chg (s,t,u)) . NAT = s . NAT by FUNCT_4:11; :: thesis: verum