Nuprl Lemma : firstn_decomp
∀[T:Type]. ∀[j:ℕ]. ∀[l:T List].  (firstn(j - 1;l) @ [l[j - 1]] ~ firstn(j;l)) supposing (j - 1 < ||l|| and 0 < j)
Proof
Definitions occuring in Statement : 
firstn: firstn(n;as)
, 
select: L[n]
, 
length: ||as||
, 
append: as @ bs
, 
cons: [a / b]
, 
nil: []
, 
list: T List
, 
nat: ℕ
, 
less_than: a < b
, 
uimplies: b supposing a
, 
uall: ∀[x:A]. B[x]
, 
subtract: n - m
, 
natural_number: $n
, 
universe: Type
, 
sqequal: s ~ t
Definitions unfolded in proof : 
uall: ∀[x:A]. B[x]
, 
member: t ∈ T
, 
nat: ℕ
, 
implies: P 
⇒ Q
, 
false: False
, 
ge: i ≥ j 
, 
guard: {T}
, 
uimplies: b supposing a
, 
prop: ℙ
, 
less_than: a < b
, 
squash: ↓T
, 
less_than': less_than'(a;b)
, 
and: P ∧ Q
, 
all: ∀x:A. B[x]
, 
decidable: Dec(P)
, 
or: P ∨ Q
, 
iff: P 
⇐⇒ Q
, 
not: ¬A
, 
rev_implies: P 
⇐ Q
, 
uiff: uiff(P;Q)
, 
subtract: n - m
, 
subtype_rel: A ⊆r B
, 
top: Top
, 
le: A ≤ B
, 
true: True
, 
sq_type: SQType(T)
, 
firstn: firstn(n;as)
, 
so_lambda: so_lambda(x,y,z.t[x; y; z])
, 
so_apply: x[s1;s2;s3]
, 
lt_int: i <z j
, 
select: L[n]
, 
cons: [a / b]
, 
ifthenelse: if b then t else f fi 
, 
bfalse: ff
, 
btrue: tt
, 
append: as @ bs
, 
bool: 𝔹
, 
unit: Unit
, 
it: ⋅
, 
exists: ∃x:A. B[x]
, 
bnot: ¬bb
, 
assert: ↑b
Lemmas referenced : 
nat_properties, 
less_than_transitivity1, 
less_than_irreflexivity, 
ge_wf, 
less_than_wf, 
subtract_wf, 
length_wf, 
list_wf, 
decidable__le, 
false_wf, 
not-ge-2, 
less-iff-le, 
condition-implies-le, 
minus-one-mul, 
zero-add, 
minus-one-mul-top, 
minus-add, 
minus-minus, 
add-associates, 
add-swap, 
add-commutes, 
add_functionality_wrt_le, 
add-zero, 
le-add-cancel, 
nat_wf, 
decidable__equal_int, 
subtype_base_sq, 
int_subtype_base, 
list_decomp, 
decidable__lt, 
not-lt-2, 
le_antisymmetry_iff, 
list_ind_cons_lemma, 
list_ind_nil_lemma, 
first0, 
tl_wf, 
subtype_rel_list, 
top_wf, 
not-equal-2, 
le-add-cancel2, 
squash_wf, 
true_wf, 
length_tl, 
iff_weakening_equal, 
lt_int_wf, 
bool_wf, 
equal-wf-base, 
assert_wf, 
eqtt_to_assert, 
assert_of_lt_int, 
select-cons-tl, 
eqff_to_assert, 
equal_wf, 
bool_cases_sqequal, 
bool_subtype_base, 
assert-bnot, 
le_int_wf, 
le_wf, 
bnot_wf, 
uiff_transitivity, 
assert_functionality_wrt_uiff, 
bnot_of_lt_int, 
assert_of_le_int
Rules used in proof : 
sqequalSubstitution, 
sqequalTransitivity, 
computationStep, 
sqequalReflexivity, 
isect_memberFormation, 
introduction, 
cut, 
extract_by_obid, 
sqequalHypSubstitution, 
isectElimination, 
thin, 
hypothesisEquality, 
hypothesis, 
setElimination, 
rename, 
intWeakElimination, 
lambdaFormation, 
natural_numberEquality, 
independent_isectElimination, 
independent_functionElimination, 
voidElimination, 
sqequalRule, 
lambdaEquality, 
dependent_functionElimination, 
isect_memberEquality, 
sqequalAxiom, 
cumulativity, 
equalityTransitivity, 
equalitySymmetry, 
imageElimination, 
productElimination, 
because_Cache, 
unionElimination, 
independent_pairFormation, 
addEquality, 
applyEquality, 
voidEquality, 
intEquality, 
minusEquality, 
universeEquality, 
instantiate, 
imageMemberEquality, 
baseClosed, 
baseApply, 
closedConclusion, 
equalityElimination, 
dependent_pairFormation, 
promote_hyp
Latex:
\mforall{}[T:Type].  \mforall{}[j:\mBbbN{}].  \mforall{}[l:T  List].
    (firstn(j  -  1;l)  @  [l[j  -  1]]  \msim{}  firstn(j;l))  supposing  (j  -  1  <  ||l||  and  0  <  j)
Date html generated:
2017_04_14-AM-08_48_03
Last ObjectModification:
2017_02_27-PM-03_35_09
Theory : list_0
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