ustfn

Description: The defined uniform structure as a function. (Contributed by Thierry Arnoux, 15-Nov-2017)

		Ref	Expression
	Assertion	ustfn	\|- UnifOn Fn _V

Step	Hyp	Ref	Expression
1		velpw	\|- ( u e. ~P ~P ( x X. x ) <-> u C_ ~P ( x X. x ) )
2	1	abbii	\|- { u \| u e. ~P ~P ( x X. x ) } = { u \| u C_ ~P ( x X. x ) }
3		abid2	\|- { u \| u e. ~P ~P ( x X. x ) } = ~P ~P ( x X. x )
4		vex	\|- x e. _V
5	4 4	xpex	\|- ( x X. x ) e. _V
6	5	pwex	\|- ~P ( x X. x ) e. _V
7	6	pwex	\|- ~P ~P ( x X. x ) e. _V
8	3 7	eqeltri	\|- { u \| u e. ~P ~P ( x X. x ) } e. _V
9	2 8	eqeltrri	\|- { u \| u C_ ~P ( x X. x ) } e. _V
10		simp1	\|- ( ( u C_ ~P ( x X. x ) /\ ( x X. x ) e. u /\ A. v e. u ( A. w e. ~P ( x X. x ) ( v C_ w -> w e. u ) /\ A. w e. u ( v i^i w ) e. u /\ ( ( _I \|` x ) C_ v /\ `' v e. u /\ E. w e. u ( w o. w ) C_ v ) ) ) -> u C_ ~P ( x X. x ) )
11	10	ss2abi	\|- { u \| ( u C_ ~P ( x X. x ) /\ ( x X. x ) e. u /\ A. v e. u ( A. w e. ~P ( x X. x ) ( v C_ w -> w e. u ) /\ A. w e. u ( v i^i w ) e. u /\ ( ( _I \|` x ) C_ v /\ `' v e. u /\ E. w e. u ( w o. w ) C_ v ) ) ) } C_ { u \| u C_ ~P ( x X. x ) }
12	9 11	ssexi	\|- { u \| ( u C_ ~P ( x X. x ) /\ ( x X. x ) e. u /\ A. v e. u ( A. w e. ~P ( x X. x ) ( v C_ w -> w e. u ) /\ A. w e. u ( v i^i w ) e. u /\ ( ( _I \|` x ) C_ v /\ `' v e. u /\ E. w e. u ( w o. w ) C_ v ) ) ) } e. _V
13		df-ust	\|- UnifOn = ( x e. _V \|-> { u \| ( u C_ ~P ( x X. x ) /\ ( x X. x ) e. u /\ A. v e. u ( A. w e. ~P ( x X. x ) ( v C_ w -> w e. u ) /\ A. w e. u ( v i^i w ) e. u /\ ( ( _I \|` x ) C_ v /\ `' v e. u /\ E. w e. u ( w o. w ) C_ v ) ) ) } )
14	12 13	fnmpti	\|- UnifOn Fn _V

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