Proof of Nuprl Lemma : quotient-valueall-type

Step * of Lemma quotient-valueall-type

∀[A:Type]. ∀[E:A ⟶ A ⟶ ℙ].  (valueall-type(a,b:A//E[a;b])) supposing (valueall-type(A) and EquivRel(A;a,b.E[a;b]))

{ ((ValueTypeAuto THEN (Assert a,b:A//E[a;b] ⋂ Base ⊆r A BY (RWO "quotient-isect-base" 0⋅ THEN Auto)))

   THEN PointwiseFunctionality (-2)
   THEN RW (HigherC CallByValue2C) 0
   THEN Auto

   THEN ((Assert ⌜a ∈ A⌝⋅ THEN Auto THEN SubsumeC ⌜a,b:A//E[a;b] ⋂ Base⌝⋅ THEN Auto THEN Isect2CD THEN Auto)⋅

   ORELSE (Assert ⌜b ∈ A⌝⋅ THEN Auto THEN SubsumeC ⌜a,b:A//E[a;b] ⋂ Base⌝⋅ THEN Auto THEN Isect2CD THEN Auto)⋅

)) }

Latex:

Latex:
\mforall{}[A:Type]. \mforall{}[E:A {}\mrightarrow{} A {}\mrightarrow{} \mBbbP{}]. (valueall-type(a,b:A//E[a;b])) supposing (valueall-type(A) and EquivRel(A;a,b.E[a;b])) By Latex: ((ValueTypeAuto THEN (Assert a,b:A//E[a;b] \mcap{} Base \msubseteq{}r A BY (RWO "quotient-isect-base" 0\mcdot{} THEN Auto))) THEN PointwiseFunctionality (-2) THEN RW (HigherC CallByValue2C) 0 THEN Auto THEN ((Assert \mkleeneopen{}a \mmember{} A\mkleeneclose{}\mcdot{} THEN Auto THEN SubsumeC \mkleeneopen{}a,b:A//E[a;b] \mcap{} Base\mkleeneclose{}\mcdot{} THEN Auto THEN Isect2CD THEN Auto)\mcdot{} ORELSE (Assert \mkleeneopen{}b \mmember{} A\mkleeneclose{}\mcdot{} THEN Auto THEN SubsumeC \mkleeneopen{}a,b:A//E[a;b] \mcap{} Base\mkleeneclose{}\mcdot{} THEN Auto THEN Isect2CD THEN Auto)\mcdot{} )) Home Index