Nuprl Lemma : test5-cform-normalize

∀[a,B:Top].
(if a is an atom then <B[if a is an atom then 1 otherwise 2]

                        , B[if a = Ax then 3 otherwise if a is a pair then 3 otherwise if a is lambda then 3

                                                                                       otherwise if a is an integer

                                                                                                 else 4]

                        > otherwise B[if a is an atom then 1 otherwise 2] ~ if a is an atom then <B[1], B[4]> otherwise \000CB[2])

Proof

Definitions occuring in Statement : uall: ∀[x:A]. B[x], top: Top, so_apply: x[s], isatom: if z is an atom then a otherwise b, ispair: if z is a pair then a otherwise b, isaxiom: if z = Ax then a otherwise b, islambda: if z is lambda then a otherwise b, isint: isint def, pair: <a, b>, natural_number: $n, sqequal: s ~ t
Definitions unfolded in proof : has-value: (a)↓, all: ∀x:A. B[x], member: t ∈ T, implies: P ⇒ Q, or: P ∨ Q, not: ¬A, false: False, top: Top, uall: ∀[x:A]. B[x]
Lemmas referenced : not-atom-member-int, has-value-implies-dec-isint-2, has-value-implies-dec-islambda-2, atom-implies-ispair-right, has-value-implies-dec-ispair-2, is-exception_wf, has-value_wf_base, top_wf, not-btrue-sqeq-bfalse, has-value-implies-dec-isaxiom-2, has-value-implies-dec-isatom-2
Rules used in proof : sqequalSubstitution, sqequalRule, sqequalReflexivity, cut, sqequalSqle, divergentSqle, callbyvalueIsatom, sqequalHypSubstitution, sqequalTransitivity, computationStep, hypothesis, lemma_by_obid, dependent_functionElimination, thin, hypothesisEquality, independent_functionElimination, unionElimination, isatomReduceTrue, equalityTransitivity, equalitySymmetry, sqleRule, sqleReflexivity, because_Cache, voidElimination, lambdaFormation, isect_memberEquality, voidEquality, isectElimination, baseApply, closedConclusion, baseClosed, introduction, isatomExceptionCases, axiomSqleEquality, exceptionSqequal, isintReduceTrue, isect_memberFormation, sqequalAxiom

Latex:
\mforall{}[a,B:Top]. (if a is an atom then <B[if a is an atom then 1 otherwise 2] , B[if a = Ax then 3 otherwise if a is a pair then 3 otherwise if a is lambda then 3 otherwise if a is an integer then 3 else 4] > otherwise B[if a is an atom then 1 otherwise 2] \msim{} if a is an atom then <B[\000C1], B[4]> otherwise B[2]) Date html generated: 2016_05_13-PM-04_08_15 Last ObjectModification: 2016_01_14-PM-07_46_37 Theory : fun_1 Home Index