Nuprl Lemma : CLK_main-opt2
∀[MsgType,locs,reply,f:Top].
(CLK_main-program(MsgType;locs;reply;f)
~ λi.case i ∈b locs
of inl() =>
fix((λmk-hdf,clock. (inl (λv.let x,y = v
in let x@0,y@0 = y
in case name_eq(x@0;``CLK msg``)
of inl(x5) =>
let z,timestamp = y@0
in let x1 ⟵ eval a = timestamp in
eval b = clock in
if (b) < (a) then a + 1 else (b + 1)
in let v3 ⟵ (CLK_mk_reply(MsgType;reply;f) i <z, timestamp> x1) @ []
in <mk-hdf x1, v3>
| inr(x5) =>
let x2 ⟵ clock
in <mk-hdf x2, []>))))
0
| inr() =>
inr ⋅ )
Proof
Definitions occuring in Statement :
CLK_main-program: CLK_main-program(MsgType;locs;reply;f),
CLK_mk_reply: CLK_mk_reply(MsgType;reply;f),
name_eq: name_eq(x;y),
deq-member: x ∈b L,
append: as @ bs,
cons: [a / b],
nil: [],
callbyvalueall: callbyvalueall,
callbyvalue: callbyvalue,
atom_eq: atomeqn def,
it: ⋅,
uall: ∀[x:A]. B[x],
top: Top,
less: if (a) < (b) then c else d,
apply: f a,
fix: fix(F),
lambda: λx.A[x],
spread: spread def,
pair: <a, b>,
decide: case b of inl(x) => s[x] | inr(y) => t[y],
inr: inr x ,
inl: inl x,
add: n + m,
natural_number: $n,
token: "$token",
sqequal: s ~ t
Definitions unfolded in proof :
uall: ∀[x:A]. B[x],
member: t ∈ T,
CLK_main-program: CLK_main-program(MsgType;locs;reply;f),
CLK_Reply-program: CLK_Reply-program(MsgType;reply;f),
class-at-program: (pr)@locs,
id-deq: IdDeq,
bag-deq-member: bag-deq-member(eq;x;b),
CLK_msg'base-program: CLK_msg'base-program(MsgType;f),
eclass1-program: eclass1-program(f;pr),
CLK_Clock-program: CLK_Clock-program(MsgType;f),
eclass2-program: Xpr o Ypr,
hdf-halt: hdf-halt(),
atom2-deq: Atom2Deq,
base-class-program: base-class-program(hdr),
state-class1-program: state-class1-program(init;tr;pr),
eq_atom: eq_atom$n(x;y),
single-bag: {x},
loop-class-state-program: loop-class-state-program(pr;init),
btrue: tt,
bfalse: ff,
cond-msg-body: cond-msg-body(hdr;msg),
empty-bag: {},
msg-header: msg-header(m),
CLK_upd_clock: CLK_upd_clock(MsgType),
so_lambda: λ2x y.t[x; y],
top: Top,
so_apply: x[s1;s2],
so_lambda: λ2x.t[x],
so_apply: x[s],
nat: ℕ,
le: A ≤ B,
and: P ∧ Q,
less_than': less_than'(a;b),
false: False,
not: ¬A,
implies: P ⇒ Q,
prop: ℙ,
lt_int: i <z j,
eq_int: (i =z j),
msg-msg: msg-msg(m),
pi1: fst(t),
msg-body: msg-body(msg),
bag-map: bag-map(f;bs),
bottom: ⊥,
imax: imax(a;b),
subtract: n - m,
pi2: snd(t),
le_int: i ≤z j,
bnot: ¬bb,
so_lambda: so_lambda(x,y,z,w.t[x; y; z; w]),
so_apply: x[s1;s2;s3;s4],
uimplies: b supposing a,
strict4: strict4(F),
all: ∀x:A. B[x],
has-value: (a)↓,
ifthenelse: if b then t else f fi ,
guard: {T},
or: P ∨ Q,
squash: ↓T,
cbva_seq: cbva_seq(L; F; m),
select_fun_last: select_fun_last(g;m),
select_fun_ap: select_fun_ap(g;n;m),
partial_ap_gen: partial_ap_gen(g;n;s;m),
callbyvalueall_seq: callbyvalueall_seq(L;G;F;n;m),
bag-append: as + bs,
callbyvalueall: callbyvalueall,
evalall: evalall(t),
cons: [a / b],
CLK_mk_reply: CLK_mk_reply(MsgType;reply;f),
map: map(f;as),
list_ind: list_ind,
nil: [],
it: ⋅,
bag-combine: ⋃x∈bs.f[x],
bag-union: bag-union(bbs),
concat: concat(ll),
reduce: reduce(f;k;as)
Latex:
\mforall{}[MsgType,locs,reply,f:Top].
(CLK\_main-program(MsgType;locs;reply;f)
\msim{} \mlambda{}i.case i \mmember{}\msubb{} locs
of inl() =>
fix((\mlambda{}mk-hdf,clock. (inl (\mlambda{}v.let x,y = v
in let x@0,y@0 = y
in case name\_eq(x@0;``CLK msg``)
of inl(x5) =>
let z,timestamp = y@0
in let x1 \mleftarrow{}{} eval a = timestamp in
eval b = clock in
if (b) < (a) then a + 1 else (b + 1)
in let v3 \mleftarrow{}{} (CLK\_mk\_reply(MsgType;reply;f) i
<z, timestamp>
x1)
@ []
in <mk-hdf x1, v3>
| inr(x5) =>
let x2 \mleftarrow{}{} clock
in <mk-hdf x2, []>))))
0
| inr() =>
inr \mcdot{} )
Date html generated:
2016_05_17-PM-02_46_00
Last ObjectModification:
2016_01_18-AM-09_50_28
Theory : lamport!s!clocks
Home
Index