{ 
[Info:Type]
es:EO+(Info). X:EClass(Top).
[P:E(X) 
]
e:E. ((e'
(X)(e).P[e']) 
e':E(X). (e' loc e P[e'])) }
{ Proof }
Definitions occuring in Statement :
es-interface-predecessors: (X)(e),
es-E-interface: E(X),
eclass: EClass(A[eo; e]),
event-ordering+: EO+(Info),
es-le: e loc e' ,
es-E: E,
uall: [x:A]. B[x],
top: Top,
prop: ,
so_apply: x[s],
all: x:A. B[x],
iff: P Q,
implies: P Q,
function: x:A B[x],
universe: Type,
l_all: (xL.P[x])
Definitions :
uall: [x:A]. B[x],
all: x:A. B[x],
prop: ,
iff: P Q,
l_all: (xL.P[x]),
so_apply: x[s],
implies: P Q,
and: P 
Q,
rev_implies: P Q,
member: t T,
subtype: S 
T,
so_lambda: 
x y.t[x; y],
es-E-interface: E(X),
so_apply: x[s1;s2]
Lemmas :
es-le_wf,
es-E-interface_wf,
l_member_wf,
es-interface-predecessors_wf,
Id_wf,
es-loc_wf,
member-interface-predecessors2,
es-E_wf,
event-ordering+_inc,
eclass_wf,
top_wf,
event-ordering+_wf,
member-interface-predecessors
\mforall{}[Info:Type]
\mforall{}es:EO+(Info). \mforall{}X:EClass(Top).
\mforall{}[P:E(X) {}\mrightarrow{} \mBbbP{}]. \mforall{}e:E. ((\mforall{}e'\mmember{}\mleq{}(X)(e).P[e']) \mLeftarrow{}{}\mRightarrow{} \mforall{}e':E(X). (e' \mleq{}loc e {}\mRightarrow{} P[e']))
Date html generated:
2011_08_16-PM-05_19_42
Last ObjectModification:
2011_06_20-AM-01_20_55
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