let R be good Ring; :: thesis: for T being InsType of (SCM R) st T = 2 holds
JumpParts T = {{} }
let T be InsType of (SCM R); :: thesis: ( T = 2 implies JumpParts T = {{} } )
assume A1: T = 2 ; :: thesis: JumpParts T = {{} }
hereby :: according to TARSKI:def 3,XBOOLE_0:def 10 :: thesis: {{} } c= JumpParts T
let x be set ; :: thesis: ( x in JumpParts T implies x in {{} } )
assume x in JumpParts T ; :: thesis: x in {{} }
then consider I being Instruction of (SCM R) such that
W1: x = JumpPart I and
W2: InsCode I = T ;
consider a, b being Data-Location of R such that
W3: I = AddTo a,b by A1, W2, Th18;
x = {} by W1, W3, RECDEF_2:def 2;
hence x in {{} } by TARSKI:def 1; :: thesis: verum
end;
set a = the Data-Location of R;
let x be set ; :: according to TARSKI:def 3 :: thesis: ( not x in {{} } or x in JumpParts T )
assume x in {{} } ; :: thesis: x in JumpParts T
then x = {} by TARSKI:def 1;
then X: x = JumpPart (AddTo the Data-Location of R,the Data-Location of R) by RECDEF_2:def 2;
InsCode (AddTo the Data-Location of R,the Data-Location of R) = 2 by RECDEF_2:def 1;
hence x in JumpParts T by X, A1; :: thesis: verum