set d = <%3,4,1%>;
set e = <%(3 * (10 |^ 0)),(4 * (10 |^ 1)),(1 * (10 |^ 2))%>;
A1: Sum <%(3 * (10 |^ 0)),(4 * (10 |^ 1)),(1 * (10 |^ 2))%> = (Sum <%(3 * (10 |^ 0)),(4 * (10 |^ 1))%>) + (Sum <%(1 * (10 |^ 2))%>) by AFINSQ_2:55
.= ((3 * (10 |^ 0)) + (4 * (10 |^ 1))) + (Sum <%(1 * (10 |^ 2))%>) by AFINSQ_2:54
.= ((3 * (10 |^ 0)) + (4 * (10 |^ 1))) + (1 * (10 |^ 2)) by AFINSQ_2:53
.= ((3 * 1) + (4 * (10 |^ 1))) + (1 * (10 |^ 2)) by NEWTON:4
.= (3 + (4 * 10)) + (1 * (10 |^ 2)) by NEWTON:5
.= 43 + (1 * (10 * 10)) by POLYEQ_5:1
.= 143 ;
A2: dom <%3,4,1%> = 3 by AFINSQ_1:39
.= dom <%(3 * (10 |^ 0)),(4 * (10 |^ 1)),(1 * (10 |^ 2))%> by AFINSQ_1:39 ;
now :: thesis: for i being Nat st i in dom <%3,4,1%> holds
<%(3 * (10 |^ 0)),(4 * (10 |^ 1)),(1 * (10 |^ 2))%> . i = (<%3,4,1%> . i) * (10 |^ i)
let i be Nat; :: thesis: ( i in dom <%3,4,1%> implies <%(3 * (10 |^ 0)),(4 * (10 |^ 1)),(1 * (10 |^ 2))%> . i = (<%3,4,1%> . i) * (10 |^ i) )
assume i in dom <%3,4,1%> ; :: thesis: <%(3 * (10 |^ 0)),(4 * (10 |^ 1)),(1 * (10 |^ 2))%> . i = (<%3,4,1%> . i) * (10 |^ i)
then i in 3 by AFINSQ_1:39;
then i in {0,1,2} by CARD_1:51;
then ( i = 0 or i = 1 or i = 2 ) by ENUMSET1:def 1;
hence <%(3 * (10 |^ 0)),(4 * (10 |^ 1)),(1 * (10 |^ 2))%> . i = (<%3,4,1%> . i) * (10 |^ i) ; :: thesis: verum
end;
then A3: value (<%3,4,1%>,10) = 143 by A1, A2, NUMERAL1:def 1;
(len <%3,4,1%>) - 1 = 3 - 1 by AFINSQ_1:39;
then A4: <%3,4,1%> . ((len <%3,4,1%>) - 1) <> 0 ;
now :: thesis: for i being Nat st i in dom <%3,4,1%> holds
( 0 <= <%3,4,1%> . i & <%3,4,1%> . i < 10 )
let i be Nat; :: thesis: ( i in dom <%3,4,1%> implies ( 0 <= <%3,4,1%> . i & <%3,4,1%> . i < 10 ) )
assume i in dom <%3,4,1%> ; :: thesis: ( 0 <= <%3,4,1%> . i & <%3,4,1%> . i < 10 )
then i in 3 by AFINSQ_1:39;
then i in {0,1,2} by CARD_1:51;
then ( i = 0 or i = 1 or i = 2 ) by ENUMSET1:def 1;
hence ( 0 <= <%3,4,1%> . i & <%3,4,1%> . i < 10 ) ; :: thesis: verum
end;
hence digits (143,10) = <%3,4,1%> by A3, A4, NUMERAL1:def 2; :: thesis: verum