set C = F7() leq F8();
set S = Funcs F2(),INT ;
reconsider s1 = F6() . F9(),(F7() := F10()) as Element of Funcs F2(),INT ;
reconsider s2 = F6() . s1,(F7() leq F8()) as Element of Funcs F2(),INT ;
A6:
P1[s2]
by A2, A3;
defpred S1[ Element of Funcs F2(),INT ] means ( P1[$1] & ( F10() . F9() <= F9() . F8() implies ($1 . F7()) - 1 <= F9() . F8() ) & $1 . F8() = F9() . F8() );
A7:
s1 . F7() = F10() . F9()
by Th26;
then A8:
s2 . F7() = F10() . F9()
by A5, Th35;
defpred S2[ Element of Funcs F2(),INT ] means $1 . F7() <= $1 . F8();
set T = (Funcs F2(),INT ) \ F3(),0 ;
A9:
F6() complies_with_while_wrt (Funcs F2(),INT ) \ F3(),0
by AOFA_000:def 32;
set II = F4() \; (F7() += 1);
A10:
F6() . F9(),F5() = F6() . s1,(while (F7() leq F8()),(F4() \; (F7() += 1)))
by A1, AOFA_000:def 29;
(F10() . F9()) - 1 < F10() . F9()
by XREAL_1:46;
then A11:
S1[s1]
by A2, A5, A7, Th26, XXREAL_0:2;
A12:
s1 . F8() = F9() . F8()
by A5, Th26;
then A13:
s2 . F8() = F9() . F8()
by A5, Th35;
per cases
( F10() . F9() <= F9() . F8() or F10() . F9() > F9() . F8() )
;
suppose A14:
F10()
. F9()
<= F9()
. F8()
;
( P1[F6() . F9(),F5()] & ( F10() . F9() <= F9() . F8() implies (F6() . F9(),F5()) . F7() = (F9() . F8()) + 1 ) & ( F10() . F9() > F9() . F8() implies (F6() . F9(),F5()) . F7() = F10() . F9() ) & (F6() . F9(),F5()) . F8() = F9() . F8() )deffunc H1(
Element of
Funcs F2(),
INT )
-> Element of
NAT =
In ((($1 . F8()) + 1) - ($1 . F7())),
NAT ;
defpred S3[
Element of
Funcs F2(),
INT ]
means (
P1[$1] &
S2[$1] );
A15:
for
s being
Element of
Funcs F2(),
INT st
S1[
s] &
s in (Funcs F2(),INT ) \ F3(),
0 &
S2[
s] holds
S1[
F6()
. s,
(F4() \; (F7() += 1))]
proof
let s be
Element of
Funcs F2(),
INT ;
( S1[s] & s in (Funcs F2(),INT ) \ F3(),0 & S2[s] implies S1[F6() . s,(F4() \; (F7() += 1))] )
assume that A16:
S1[
s]
and
s in (Funcs F2(),INT ) \ F3(),
0
and A17:
S2[
s]
;
S1[F6() . s,(F4() \; (F7() += 1))]
thus
P1[
F6()
. s,
(F4() \; (F7() += 1))]
by A3, A16;
( ( F10() . F9() <= F9() . F8() implies ((F6() . s,(F4() \; (F7() += 1))) . F7()) - 1 <= F9() . F8() ) & (F6() . s,(F4() \; (F7() += 1))) . F8() = F9() . F8() )
reconsider s9 =
F6()
. s,
F4() as
Element of
Funcs F2(),
INT ;
reconsider s99 =
F6()
. s9,
(F7() += 1) as
Element of
Funcs F2(),
INT ;
A18:
s99 = F6()
. s,
(F4() \; (F7() += 1))
by AOFA_000:def 29;
A19:
s99 . F7()
= (s9 . F7()) + 1
by Th28;
s9 . F8()
= s . F8()
by A4, A16;
hence
( (
F10()
. F9()
<= F9()
. F8() implies
((F6() . s,(F4() \; (F7() += 1))) . F7()) - 1
<= F9()
. F8() ) &
(F6() . s,(F4() \; (F7() += 1))) . F8()
= F9()
. F8() )
by A4, A5, A16, A17, A19, A18, Th28;
verum
end; A20:
for
s being
Element of
Funcs F2(),
INT st
S3[
s] holds
( (
S3[
F6()
. s,
((F4() \; (F7() += 1)) \; (F7() leq F8()))] implies
F6()
. s,
((F4() \; (F7() += 1)) \; (F7() leq F8())) in (Funcs F2(),INT ) \ F3(),
0 ) & (
F6()
. s,
((F4() \; (F7() += 1)) \; (F7() leq F8())) in (Funcs F2(),INT ) \ F3(),
0 implies
S3[
F6()
. s,
((F4() \; (F7() += 1)) \; (F7() leq F8()))] ) &
H1(
F6()
. s,
((F4() \; (F7() += 1)) \; (F7() leq F8())))
< H1(
s) )
proof
let s be
Element of
Funcs F2(),
INT ;
( S3[s] implies ( ( S3[F6() . s,((F4() \; (F7() += 1)) \; (F7() leq F8()))] implies F6() . s,((F4() \; (F7() += 1)) \; (F7() leq F8())) in (Funcs F2(),INT ) \ F3(),0 ) & ( F6() . s,((F4() \; (F7() += 1)) \; (F7() leq F8())) in (Funcs F2(),INT ) \ F3(),0 implies S3[F6() . s,((F4() \; (F7() += 1)) \; (F7() leq F8()))] ) & H1(F6() . s,((F4() \; (F7() += 1)) \; (F7() leq F8()))) < H1(s) ) )
reconsider s9 =
F6()
. s,
F4() as
Element of
Funcs F2(),
INT ;
reconsider s99 =
F6()
. s9,
(F7() += 1) as
Element of
Funcs F2(),
INT ;
reconsider s999 =
F6()
. s99,
(F7() leq F8()) as
Element of
Funcs F2(),
INT ;
A21:
F6()
. s,
((F4() \; (F7() += 1)) \; (F7() leq F8())) = F6()
. (F6() . s,(F4() \; (F7() += 1))),
(F7() leq F8())
by AOFA_000:def 29;
A22:
s99 . F8()
= s9 . F8()
by A5, Th28;
A23:
(
s99 . F7()
<= s99 . F8() implies
s999 . F3()
= 1 )
by Th35;
A24:
(
s99 . F7()
> s99 . F8() implies
s999 . F3()
= 0 )
by Th35;
assume A25:
S3[
s]
;
( ( S3[F6() . s,((F4() \; (F7() += 1)) \; (F7() leq F8()))] implies F6() . s,((F4() \; (F7() += 1)) \; (F7() leq F8())) in (Funcs F2(),INT ) \ F3(),0 ) & ( F6() . s,((F4() \; (F7() += 1)) \; (F7() leq F8())) in (Funcs F2(),INT ) \ F3(),0 implies S3[F6() . s,((F4() \; (F7() += 1)) \; (F7() leq F8()))] ) & H1(F6() . s,((F4() \; (F7() += 1)) \; (F7() leq F8()))) < H1(s) )
then reconsider j =
(s . F8()) - (s . F7()) as
Element of
NAT by INT_1:18;
A26:
s999 . F7()
= s99 . F7()
by A5, Th35;
A27:
s99 = F6()
. s,
(F4() \; (F7() += 1))
by AOFA_000:def 29;
then
P1[
s99]
by A3, A25;
hence
(
S3[
F6()
. s,
((F4() \; (F7() += 1)) \; (F7() leq F8()))] iff
F6()
. s,
((F4() \; (F7() += 1)) \; (F7() leq F8())) in (Funcs F2(),INT ) \ F3(),
0 )
by A3, A5, A21, A27, A26, A24, A23, Th2, Th35;
H1(F6() . s,((F4() \; (F7() += 1)) \; (F7() leq F8()))) < H1(s)
A28:
s99 . F7()
= (s9 . F7()) + 1
by Th28;
A29:
s9 . F8()
= s . F8()
by A4, A25;
A30:
s9 . F7()
= s . F7()
by A4, A25;
s999 . F8()
= s99 . F8()
by A5, Th35;
then
H1(
s999)
= j
by A26, A30, A29, A28, A22, FUNCT_7:def 1;
then
H1(
s999)
+ 1
= H1(
s)
by FUNCT_7:def 1;
hence
H1(
F6()
. s,
((F4() \; (F7() += 1)) \; (F7() leq F8())))
< H1(
s)
by A21, A27, NAT_1:13;
verum
end; A31:
for
s being
Element of
Funcs F2(),
INT st
S1[
s] holds
(
S1[
F6()
. s,
(F7() leq F8())] & (
F6()
. s,
(F7() leq F8()) in (Funcs F2(),INT ) \ F3(),
0 implies
S2[
F6()
. s,
(F7() leq F8())] ) & (
S2[
F6()
. s,
(F7() leq F8())] implies
F6()
. s,
(F7() leq F8()) in (Funcs F2(),INT ) \ F3(),
0 ) )
proof
let s be
Element of
Funcs F2(),
INT ;
( S1[s] implies ( S1[F6() . s,(F7() leq F8())] & ( F6() . s,(F7() leq F8()) in (Funcs F2(),INT ) \ F3(),0 implies S2[F6() . s,(F7() leq F8())] ) & ( S2[F6() . s,(F7() leq F8())] implies F6() . s,(F7() leq F8()) in (Funcs F2(),INT ) \ F3(),0 ) ) )
A32:
(
s . F7()
> s . F8() implies
(F6() . s,(F7() leq F8())) . F3()
= 0 )
by Th35;
assume A33:
S1[
s]
;
( S1[F6() . s,(F7() leq F8())] & ( F6() . s,(F7() leq F8()) in (Funcs F2(),INT ) \ F3(),0 implies S2[F6() . s,(F7() leq F8())] ) & ( S2[F6() . s,(F7() leq F8())] implies F6() . s,(F7() leq F8()) in (Funcs F2(),INT ) \ F3(),0 ) )
hence
P1[
F6()
. s,
(F7() leq F8())]
by A3;
( ( F10() . F9() <= F9() . F8() implies ((F6() . s,(F7() leq F8())) . F7()) - 1 <= F9() . F8() ) & (F6() . s,(F7() leq F8())) . F8() = F9() . F8() & ( F6() . s,(F7() leq F8()) in (Funcs F2(),INT ) \ F3(),0 implies S2[F6() . s,(F7() leq F8())] ) & ( S2[F6() . s,(F7() leq F8())] implies F6() . s,(F7() leq F8()) in (Funcs F2(),INT ) \ F3(),0 ) )
A34:
(
s . F7()
<= s . F8() implies
(F6() . s,(F7() leq F8())) . F3()
= 1 )
by Th35;
(F6() . s,(F7() leq F8())) . F7()
= s . F7()
by A5, Th35;
hence
( (
F10()
. F9()
<= F9()
. F8() implies
((F6() . s,(F7() leq F8())) . F7()) - 1
<= F9()
. F8() ) &
(F6() . s,(F7() leq F8())) . F8()
= F9()
. F8() & (
F6()
. s,
(F7() leq F8()) in (Funcs F2(),INT ) \ F3(),
0 implies
S2[
F6()
. s,
(F7() leq F8())] ) & (
S2[
F6()
. s,
(F7() leq F8())] implies
F6()
. s,
(F7() leq F8()) in (Funcs F2(),INT ) \ F3(),
0 ) )
by A5, A33, A32, A34, Th2, Th35;
verum
end;
s2 . F3()
= 1
by A7, A12, A14, Th35;
then A35:
(
F6()
. s1,
(F7() leq F8()) in (Funcs F2(),INT ) \ F3(),
0 iff
S3[
F6()
. s1,
(F7() leq F8())] )
by A2, A3, A5, A12, A8, A14, Th35;
A36:
F6()
iteration_terminates_for (F4() \; (F7() += 1)) \; (F7() leq F8()),
F6()
. s1,
(F7() leq F8())
from AOFA_000:sch 3(A35, A20);
A37:
(
S1[
F6()
. s1,
(while (F7() leq F8()),(F4() \; (F7() += 1)))] & not
S2[
F6()
. s1,
(while (F7() leq F8()),(F4() \; (F7() += 1)))] )
from AOFA_000:sch 5(A11, A36, A15, A31);
then
(F6() . F9(),F5()) . F7()
>= (F9() . F8()) + 1
by A10, INT_1:20;
then
((F6() . F9(),F5()) . F7()) - 1
>= ((F9() . F8()) + 1) - 1
by XREAL_1:15;
then
((F6() . F9(),F5()) . F7()) - 1
= F9()
. F8()
by A10, A14, A37, XXREAL_0:1;
hence
(
P1[
F6()
. F9(),
F5()] & (
F10()
. F9()
<= F9()
. F8() implies
(F6() . F9(),F5()) . F7()
= (F9() . F8()) + 1 ) & (
F10()
. F9()
> F9()
. F8() implies
(F6() . F9(),F5()) . F7()
= F10()
. F9() ) &
(F6() . F9(),F5()) . F8()
= F9()
. F8() )
by A1, A14, A37, AOFA_000:def 29;
verum end; suppose A38:
F10()
. F9()
> F9()
. F8()
;
( P1[F6() . F9(),F5()] & ( F10() . F9() <= F9() . F8() implies (F6() . F9(),F5()) . F7() = (F9() . F8()) + 1 ) & ( F10() . F9() > F9() . F8() implies (F6() . F9(),F5()) . F7() = F10() . F9() ) & (F6() . F9(),F5()) . F8() = F9() . F8() )then
s2 . F3()
= 0
by A7, A12, Th35;
then
s2 nin (Funcs F2(),INT ) \ F3(),
0
by Th2;
hence
(
P1[
F6()
. F9(),
F5()] & (
F10()
. F9()
<= F9()
. F8() implies
(F6() . F9(),F5()) . F7()
= (F9() . F8()) + 1 ) & (
F10()
. F9()
> F9()
. F8() implies
(F6() . F9(),F5()) . F7()
= F10()
. F9() ) &
(F6() . F9(),F5()) . F8()
= F9()
. F8() )
by A9, A8, A13, A10, A6, A38, AOFA_000:def 31;
verum end;