let P be Instruction-Sequence of SCMPDS; :: thesis: for s being State of SCMPDS

for I being Program of

for a, b being Int_position

for i being Integer

for n being Nat st s . (DataLoc ((s . a),i)) >= 0 holds

(IExec ((for-up (a,i,n,I)),P,(Initialize s))) . b = s . b

let s be State of SCMPDS; :: thesis: for I being Program of

for a, b being Int_position

for i being Integer

for n being Nat st s . (DataLoc ((s . a),i)) >= 0 holds

(IExec ((for-up (a,i,n,I)),P,(Initialize s))) . b = s . b

let I be Program of ; :: thesis: for a, b being Int_position

for i being Integer

for n being Nat st s . (DataLoc ((s . a),i)) >= 0 holds

(IExec ((for-up (a,i,n,I)),P,(Initialize s))) . b = s . b

let a, b be Int_position; :: thesis: for i being Integer

for n being Nat st s . (DataLoc ((s . a),i)) >= 0 holds

(IExec ((for-up (a,i,n,I)),P,(Initialize s))) . b = s . b

let i be Integer; :: thesis: for n being Nat st s . (DataLoc ((s . a),i)) >= 0 holds

(IExec ((for-up (a,i,n,I)),P,(Initialize s))) . b = s . b

let n be Nat; :: thesis: ( s . (DataLoc ((s . a),i)) >= 0 implies (IExec ((for-up (a,i,n,I)),P,(Initialize s))) . b = s . b )

assume s . (DataLoc ((s . a),i)) >= 0 ; :: thesis: (IExec ((for-up (a,i,n,I)),P,(Initialize s))) . b = s . b

then A1: IExec ((for-up (a,i,n,I)),P,(Initialize s)) = s +* (Start-At (((card I) + 3),SCMPDS)) by Th34;

not b in dom (Start-At (((card I) + 3),SCMPDS)) by SCMPDS_4:18;

hence (IExec ((for-up (a,i,n,I)),P,(Initialize s))) . b = s . b by A1, FUNCT_4:11; :: thesis: verum

for I being Program of

for a, b being Int_position

for i being Integer

for n being Nat st s . (DataLoc ((s . a),i)) >= 0 holds

(IExec ((for-up (a,i,n,I)),P,(Initialize s))) . b = s . b

let s be State of SCMPDS; :: thesis: for I being Program of

for a, b being Int_position

for i being Integer

for n being Nat st s . (DataLoc ((s . a),i)) >= 0 holds

(IExec ((for-up (a,i,n,I)),P,(Initialize s))) . b = s . b

let I be Program of ; :: thesis: for a, b being Int_position

for i being Integer

for n being Nat st s . (DataLoc ((s . a),i)) >= 0 holds

(IExec ((for-up (a,i,n,I)),P,(Initialize s))) . b = s . b

let a, b be Int_position; :: thesis: for i being Integer

for n being Nat st s . (DataLoc ((s . a),i)) >= 0 holds

(IExec ((for-up (a,i,n,I)),P,(Initialize s))) . b = s . b

let i be Integer; :: thesis: for n being Nat st s . (DataLoc ((s . a),i)) >= 0 holds

(IExec ((for-up (a,i,n,I)),P,(Initialize s))) . b = s . b

let n be Nat; :: thesis: ( s . (DataLoc ((s . a),i)) >= 0 implies (IExec ((for-up (a,i,n,I)),P,(Initialize s))) . b = s . b )

assume s . (DataLoc ((s . a),i)) >= 0 ; :: thesis: (IExec ((for-up (a,i,n,I)),P,(Initialize s))) . b = s . b

then A1: IExec ((for-up (a,i,n,I)),P,(Initialize s)) = s +* (Start-At (((card I) + 3),SCMPDS)) by Th34;

not b in dom (Start-At (((card I) + 3),SCMPDS)) by SCMPDS_4:18;

hence (IExec ((for-up (a,i,n,I)),P,(Initialize s))) . b = s . b by A1, FUNCT_4:11; :: thesis: verum