{ [A:']. [dfp:DataflowProgram(A)]. [B:Type].
    [G:bag(df-program-type(dfp))  bag(B)]
      (parallel-df-prog1(B;G;dfp)  DataflowProgram(A)) 
    supposing valueall-type(B) }

{ Proof }


Definitions occuring in Statement :  parallel-df-prog1: parallel-df-prog1(B;G;dfp) df-program-type: df-program-type(dfp) dataflow-program: DataflowProgram(A) uimplies: b supposing a uall: [x:A]. B[x] member: t  T function: x:A  B[x] universe: Type bag: bag(T) valueall-type: valueall-type(T)
Definitions :  bool: natural_number: $n atom: Atom$n int: atom: Atom rec: rec(x.A[x]) quotient: x,y:A//B[x; y] tunion: x:A.B[x] b-union: A  B list: type List so_apply: x[s] or: P  Q guard: {T} l_member: (x  l) true: True uni_sat: a = !x:T. Q[x] inv_funs: InvFuns(A;B;f;g) inject: Inj(A;B;f) eqfun_p: IsEqFun(T;eq) refl: Refl(T;x,y.E[x; y]) urefl: UniformlyRefl(T;x,y.E[x; y]) sym: Sym(T;x,y.E[x; y]) usym: UniformlySym(T;x,y.E[x; y]) trans: Trans(T;x,y.E[x; y]) utrans: UniformlyTrans(T;x,y.E[x; y]) anti_sym: AntiSym(T;x,y.R[x; y]) uanti_sym: UniformlyAntiSym(T;x,y.R[x; y]) connex: Connex(T;x,y.R[x; y]) uconnex: uconnex(T; x,y.R[x; y]) coprime: CoPrime(a,b) ident: Ident(T;op;id) assoc: Assoc(T;op) comm: Comm(T;op) inverse: Inverse(T;op;id;inv) bilinear: BiLinear(T;pl;tm) bilinear_p: IsBilinear(A;B;C;+a;+b;+c;f) action_p: IsAction(A;x;e;S;f) dist_1op_2op_lr: Dist1op2opLR(A;1op;2op) fun_thru_1op: fun_thru_1op(A;B;opa;opb;f) fun_thru_2op: FunThru2op(A;B;opa;opb;f) cancel: Cancel(T;S;op) monot: monot(T;x,y.R[x; y];f) monoid_p: IsMonoid(T;op;id) group_p: IsGroup(T;op;id;inv) monoid_hom_p: IsMonHom{M1,M2}(f) grp_leq: a  b integ_dom_p: IsIntegDom(r) prime_ideal_p: IsPrimeIdeal(R;P) no_repeats: no_repeats(T;l) value-type: value-type(T) assert: b is_list_splitting: is_list_splitting(T;L;LL;L2;f) is_accum_splitting: is_accum_splitting(T;A;L;LL;L2;f;g;x) bag-member: bag-member(T;x;bs) req: x = y rnonneg: rnonneg(r) rleq: x  y i-member: r  I partitions: partitions(I;p) modulus-of-ccontinuity: modulus-of-ccontinuity(omega;I;f) fpf-sub: f  g squash: T implies: P  Q sq_stable: SqStable(P) strong-subtype: strong-subtype(A;B) le: A  B ge: i  j  not: A less_than: a < b and: P  Q uiff: uiff(P;Q) subtype_rel: A r B apply: f a spread: spread def evalall: evalall(t) lambda: x.A[x] pair: <a, b> unit: Unit union: left + right set: {x:A| B[x]}  product: x:A  B[x] all: x:A. B[x] axiom: Ax parallel-df-prog1: parallel-df-prog1(B;G;dfp) equal: s = t uimplies: b supposing a isect: x:A. B[x] uall: [x:A]. B[x] so_lambda: x.t[x] member: t  T dataflow-program: DataflowProgram(A) prop: universe: Type function: x:A  B[x] bag: bag(T) df-program-type: df-program-type(dfp) valueall-type: valueall-type(T) MaAuto: Error :MaAuto,  RepUR: Error :RepUR,  CollapseTHEN: Error :CollapseTHEN,  D: Error :D,  RepeatFor: Error :RepeatFor,  Auto: Error :Auto,  CollapseTHENA: Error :CollapseTHENA
Lemmas :  bag_wf unit_wf valueall-type_wf evalall_wf dataflow-program_wf df-program-type_wf uall_wf member_wf sq_stable__uall squash_wf sq_stable__equal sq_stable__valueall-type product-valueall-type union-valueall-type equal-valueall-type bag-valueall-type
\mforall{}[A:\mBbbU{}'].  \mforall{}[dfp:DataflowProgram(A)].  \mforall{}[B:Type].
    \mforall{}[G:bag(df-program-type(dfp))  {}\mrightarrow{}  bag(B)].  (parallel-df-prog1(B;G;dfp)  \mmember{}  DataflowProgram(A)) 
    supposing  valueall-type(B)


Date html generated: 2011_08_16-AM-09_42_06
Last ObjectModification: 2011_06_18-AM-08_33_18

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