src/HOL/Datatype.thy
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(*  Title:      HOL/Datatype.thy
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    ID:         $Id$
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    Author:     Lawrence C Paulson, Cambridge University Computer Laboratory
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    Author:     Stefan Berghofer and Markus Wenzel, TU Muenchen
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Could <*> be generalized to a general summation (Sigma)?
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*)
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header {* Analogues of the Cartesian Product and Disjoint Sum for Datatypes *}
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theory Datatype
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imports Nat Sum_Type
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begin
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typedef (Node)
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  ('a,'b) node = "{p. EX f x k. p = (f::nat=>'b+nat, x::'a+nat) & f k = Inr 0}"
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    --{*it is a subtype of @{text "(nat=>'b+nat) * ('a+nat)"}*}
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  by auto
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text{*Datatypes will be represented by sets of type @{text node}*}
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types 'a item        = "('a, unit) node set"
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      ('a, 'b) dtree = "('a, 'b) node set"
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consts
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  apfst     :: "['a=>'c, 'a*'b] => 'c*'b"
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  Push      :: "[('b + nat), nat => ('b + nat)] => (nat => ('b + nat))"
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  Push_Node :: "[('b + nat), ('a, 'b) node] => ('a, 'b) node"
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  ndepth    :: "('a, 'b) node => nat"
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  Atom      :: "('a + nat) => ('a, 'b) dtree"
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  Leaf      :: "'a => ('a, 'b) dtree"
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  Numb      :: "nat => ('a, 'b) dtree"
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  Scons     :: "[('a, 'b) dtree, ('a, 'b) dtree] => ('a, 'b) dtree"
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  In0       :: "('a, 'b) dtree => ('a, 'b) dtree"
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  In1       :: "('a, 'b) dtree => ('a, 'b) dtree"
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  Lim       :: "('b => ('a, 'b) dtree) => ('a, 'b) dtree"
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  ntrunc    :: "[nat, ('a, 'b) dtree] => ('a, 'b) dtree"
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  uprod     :: "[('a, 'b) dtree set, ('a, 'b) dtree set]=> ('a, 'b) dtree set"
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  usum      :: "[('a, 'b) dtree set, ('a, 'b) dtree set]=> ('a, 'b) dtree set"
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  Split     :: "[[('a, 'b) dtree, ('a, 'b) dtree]=>'c, ('a, 'b) dtree] => 'c"
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  Case      :: "[[('a, 'b) dtree]=>'c, [('a, 'b) dtree]=>'c, ('a, 'b) dtree] => 'c"
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  dprod     :: "[(('a, 'b) dtree * ('a, 'b) dtree)set, (('a, 'b) dtree * ('a, 'b) dtree)set]
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                => (('a, 'b) dtree * ('a, 'b) dtree)set"
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  dsum      :: "[(('a, 'b) dtree * ('a, 'b) dtree)set, (('a, 'b) dtree * ('a, 'b) dtree)set]
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                => (('a, 'b) dtree * ('a, 'b) dtree)set"
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defs
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  Push_Node_def:  "Push_Node == (%n x. Abs_Node (apfst (Push n) (Rep_Node x)))"
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  (*crude "lists" of nats -- needed for the constructions*)
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  apfst_def:  "apfst == (%f (x,y). (f(x),y))"
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  Push_def:   "Push == (%b h. nat_case b h)"
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  (** operations on S-expressions -- sets of nodes **)
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  (*S-expression constructors*)
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  Atom_def:   "Atom == (%x. {Abs_Node((%k. Inr 0, x))})"
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  Scons_def:  "Scons M N == (Push_Node (Inr 1) ` M) Un (Push_Node (Inr (Suc 1)) ` N)"
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  (*Leaf nodes, with arbitrary or nat labels*)
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  Leaf_def:   "Leaf == Atom o Inl"
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  Numb_def:   "Numb == Atom o Inr"
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  (*Injections of the "disjoint sum"*)
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  In0_def:    "In0(M) == Scons (Numb 0) M"
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  In1_def:    "In1(M) == Scons (Numb 1) M"
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  (*Function spaces*)
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  Lim_def: "Lim f == Union {z. ? x. z = Push_Node (Inl x) ` (f x)}"
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  (*the set of nodes with depth less than k*)
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  ndepth_def: "ndepth(n) == (%(f,x). LEAST k. f k = Inr 0) (Rep_Node n)"
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  ntrunc_def: "ntrunc k N == {n. n:N & ndepth(n)<k}"
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  (*products and sums for the "universe"*)
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  uprod_def:  "uprod A B == UN x:A. UN y:B. { Scons x y }"
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  usum_def:   "usum A B == In0`A Un In1`B"
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  (*the corresponding eliminators*)
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  Split_def:  "Split c M == THE u. EX x y. M = Scons x y & u = c x y"
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  Case_def:   "Case c d M == THE u.  (EX x . M = In0(x) & u = c(x))
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                                  | (EX y . M = In1(y) & u = d(y))"
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  (** equality for the "universe" **)
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  dprod_def:  "dprod r s == UN (x,x'):r. UN (y,y'):s. {(Scons x y, Scons x' y')}"
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  dsum_def:   "dsum r s == (UN (x,x'):r. {(In0(x),In0(x'))}) Un
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                          (UN (y,y'):s. {(In1(y),In1(y'))})"
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(** apfst -- can be used in similar type definitions **)
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lemma apfst_conv [simp, code func]: "apfst f (a, b) = (f a, b)"
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by (simp add: apfst_def)
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lemma apfst_convE: 
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    "[| q = apfst f p;  !!x y. [| p = (x,y);  q = (f(x),y) |] ==> R  
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     |] ==> R"
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by (force simp add: apfst_def)
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(** Push -- an injection, analogous to Cons on lists **)
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lemma Push_inject1: "Push i f = Push j g  ==> i=j"
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apply (simp add: Push_def expand_fun_eq) 
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apply (drule_tac x=0 in spec, simp) 
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done
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lemma Push_inject2: "Push i f = Push j g  ==> f=g"
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apply (auto simp add: Push_def expand_fun_eq) 
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apply (drule_tac x="Suc x" in spec, simp) 
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done
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lemma Push_inject:
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    "[| Push i f =Push j g;  [| i=j;  f=g |] ==> P |] ==> P"
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by (blast dest: Push_inject1 Push_inject2) 
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lemma Push_neq_K0: "Push (Inr (Suc k)) f = (%z. Inr 0) ==> P"
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by (auto simp add: Push_def expand_fun_eq split: nat.split_asm)
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lemmas Abs_Node_inj = Abs_Node_inject [THEN [2] rev_iffD1, standard]
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(*** Introduction rules for Node ***)
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lemma Node_K0_I: "(%k. Inr 0, a) : Node"
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by (simp add: Node_def)
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lemma Node_Push_I: "p: Node ==> apfst (Push i) p : Node"
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apply (simp add: Node_def Push_def) 
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apply (fast intro!: apfst_conv nat_case_Suc [THEN trans])
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done
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subsection{*Freeness: Distinctness of Constructors*}
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(** Scons vs Atom **)
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lemma Scons_not_Atom [iff]: "Scons M N \<noteq> Atom(a)"
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apply (simp add: Atom_def Scons_def Push_Node_def One_nat_def)
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apply (blast intro: Node_K0_I Rep_Node [THEN Node_Push_I] 
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         dest!: Abs_Node_inj 
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         elim!: apfst_convE sym [THEN Push_neq_K0])  
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done
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lemmas Atom_not_Scons [iff] = Scons_not_Atom [THEN not_sym, standard]
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(*** Injectiveness ***)
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(** Atomic nodes **)
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lemma inj_Atom: "inj(Atom)"
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apply (simp add: Atom_def)
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apply (blast intro!: inj_onI Node_K0_I dest!: Abs_Node_inj)
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done
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lemmas Atom_inject = inj_Atom [THEN injD, standard]
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lemma Atom_Atom_eq [iff]: "(Atom(a)=Atom(b)) = (a=b)"
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by (blast dest!: Atom_inject)
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lemma inj_Leaf: "inj(Leaf)"
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apply (simp add: Leaf_def o_def)
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apply (rule inj_onI)
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apply (erule Atom_inject [THEN Inl_inject])
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done
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lemmas Leaf_inject [dest!] = inj_Leaf [THEN injD, standard]
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lemma inj_Numb: "inj(Numb)"
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apply (simp add: Numb_def o_def)
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apply (rule inj_onI)
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apply (erule Atom_inject [THEN Inr_inject])
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done
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lemmas Numb_inject [dest!] = inj_Numb [THEN injD, standard]
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(** Injectiveness of Push_Node **)
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lemma Push_Node_inject:
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    "[| Push_Node i m =Push_Node j n;  [| i=j;  m=n |] ==> P  
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     |] ==> P"
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apply (simp add: Push_Node_def)
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apply (erule Abs_Node_inj [THEN apfst_convE])
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apply (rule Rep_Node [THEN Node_Push_I])+
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apply (erule sym [THEN apfst_convE]) 
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apply (blast intro: Rep_Node_inject [THEN iffD1] trans sym elim!: Push_inject)
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done
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(** Injectiveness of Scons **)
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lemma Scons_inject_lemma1: "Scons M N <= Scons M' N' ==> M<=M'"
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apply (simp add: Scons_def One_nat_def)
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apply (blast dest!: Push_Node_inject)
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done
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lemma Scons_inject_lemma2: "Scons M N <= Scons M' N' ==> N<=N'"
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apply (simp add: Scons_def One_nat_def)
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apply (blast dest!: Push_Node_inject)
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done
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lemma Scons_inject1: "Scons M N = Scons M' N' ==> M=M'"
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apply (erule equalityE)
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apply (iprover intro: equalityI Scons_inject_lemma1)
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done
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lemma Scons_inject2: "Scons M N = Scons M' N' ==> N=N'"
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apply (erule equalityE)
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apply (iprover intro: equalityI Scons_inject_lemma2)
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done
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lemma Scons_inject:
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    "[| Scons M N = Scons M' N';  [| M=M';  N=N' |] ==> P |] ==> P"
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by (iprover dest: Scons_inject1 Scons_inject2)
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lemma Scons_Scons_eq [iff]: "(Scons M N = Scons M' N') = (M=M' & N=N')"
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by (blast elim!: Scons_inject)
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(*** Distinctness involving Leaf and Numb ***)
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(** Scons vs Leaf **)
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lemma Scons_not_Leaf [iff]: "Scons M N \<noteq> Leaf(a)"
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by (simp add: Leaf_def o_def Scons_not_Atom)
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lemmas Leaf_not_Scons  [iff] = Scons_not_Leaf [THEN not_sym, standard]
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(** Scons vs Numb **)
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lemma Scons_not_Numb [iff]: "Scons M N \<noteq> Numb(k)"
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by (simp add: Numb_def o_def Scons_not_Atom)
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lemmas Numb_not_Scons [iff] = Scons_not_Numb [THEN not_sym, standard]
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(** Leaf vs Numb **)
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lemma Leaf_not_Numb [iff]: "Leaf(a) \<noteq> Numb(k)"
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by (simp add: Leaf_def Numb_def)
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lemmas Numb_not_Leaf [iff] = Leaf_not_Numb [THEN not_sym, standard]
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(*** ndepth -- the depth of a node ***)
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lemma ndepth_K0: "ndepth (Abs_Node(%k. Inr 0, x)) = 0"
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by (simp add: ndepth_def  Node_K0_I [THEN Abs_Node_inverse] Least_equality)
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lemma ndepth_Push_Node_aux:
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     "nat_case (Inr (Suc i)) f k = Inr 0 --> Suc(LEAST x. f x = Inr 0) <= k"
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apply (induct_tac "k", auto)
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apply (erule Least_le)
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done
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lemma ndepth_Push_Node: 
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    "ndepth (Push_Node (Inr (Suc i)) n) = Suc(ndepth(n))"
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apply (insert Rep_Node [of n, unfolded Node_def])
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apply (auto simp add: ndepth_def Push_Node_def
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                 Rep_Node [THEN Node_Push_I, THEN Abs_Node_inverse])
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apply (rule Least_equality)
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apply (auto simp add: Push_def ndepth_Push_Node_aux)
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apply (erule LeastI)
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done
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(*** ntrunc applied to the various node sets ***)
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lemma ntrunc_0 [simp]: "ntrunc 0 M = {}"
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by (simp add: ntrunc_def)
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lemma ntrunc_Atom [simp]: "ntrunc (Suc k) (Atom a) = Atom(a)"
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by (auto simp add: Atom_def ntrunc_def ndepth_K0)
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lemma ntrunc_Leaf [simp]: "ntrunc (Suc k) (Leaf a) = Leaf(a)"
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by (simp add: Leaf_def o_def ntrunc_Atom)
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lemma ntrunc_Numb [simp]: "ntrunc (Suc k) (Numb i) = Numb(i)"
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by (simp add: Numb_def o_def ntrunc_Atom)
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lemma ntrunc_Scons [simp]: 
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    "ntrunc (Suc k) (Scons M N) = Scons (ntrunc k M) (ntrunc k N)"
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by (auto simp add: Scons_def ntrunc_def One_nat_def ndepth_Push_Node) 
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(** Injection nodes **)
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lemma ntrunc_one_In0 [simp]: "ntrunc (Suc 0) (In0 M) = {}"
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apply (simp add: In0_def)
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apply (simp add: Scons_def)
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done
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lemma ntrunc_In0 [simp]: "ntrunc (Suc(Suc k)) (In0 M) = In0 (ntrunc (Suc k) M)"
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by (simp add: In0_def)
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lemma ntrunc_one_In1 [simp]: "ntrunc (Suc 0) (In1 M) = {}"
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apply (simp add: In1_def)
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apply (simp add: Scons_def)
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done
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lemma ntrunc_In1 [simp]: "ntrunc (Suc(Suc k)) (In1 M) = In1 (ntrunc (Suc k) M)"
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by (simp add: In1_def)
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subsection{*Set Constructions*}
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   321
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(*** Cartesian Product ***)
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   323
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   324
lemma uprodI [intro!]: "[| M:A;  N:B |] ==> Scons M N : uprod A B"
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   325
by (simp add: uprod_def)
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   326
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   327
(*The general elimination rule*)
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   328
lemma uprodE [elim!]:
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   329
    "[| c : uprod A B;   
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   330
        !!x y. [| x:A;  y:B;  c = Scons x y |] ==> P  
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   331
     |] ==> P"
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   332
by (auto simp add: uprod_def) 
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   333
cb6ae81dd0be merged with theory Datatype_Universe;
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   334
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   335
(*Elimination of a pair -- introduces no eigenvariables*)
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   336
lemma uprodE2: "[| Scons M N : uprod A B;  [| M:A;  N:B |] ==> P |] ==> P"
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   337
by (auto simp add: uprod_def)
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   338
cb6ae81dd0be merged with theory Datatype_Universe;
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   339
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   340
(*** Disjoint Sum ***)
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   341
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   342
lemma usum_In0I [intro]: "M:A ==> In0(M) : usum A B"
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   343
by (simp add: usum_def)
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   344
cb6ae81dd0be merged with theory Datatype_Universe;
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   345
lemma usum_In1I [intro]: "N:B ==> In1(N) : usum A B"
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   346
by (simp add: usum_def)
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   347
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   348
lemma usumE [elim!]: 
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   349
    "[| u : usum A B;   
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   350
        !!x. [| x:A;  u=In0(x) |] ==> P;  
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   351
        !!y. [| y:B;  u=In1(y) |] ==> P  
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   352
     |] ==> P"
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   353
by (auto simp add: usum_def)
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   354
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   355
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   356
(** Injection **)
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   357
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   358
lemma In0_not_In1 [iff]: "In0(M) \<noteq> In1(N)"
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   359
by (auto simp add: In0_def In1_def One_nat_def)
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diff changeset
   360
21407
af60523da908 reduced verbosity
haftmann
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   361
lemmas In1_not_In0 [iff] = In0_not_In1 [THEN not_sym, standard]
20819
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diff changeset
   362
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   363
lemma In0_inject: "In0(M) = In0(N) ==>  M=N"
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   364
by (simp add: In0_def)
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diff changeset
   365
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   366
lemma In1_inject: "In1(M) = In1(N) ==>  M=N"
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   367
by (simp add: In1_def)
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diff changeset
   368
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   369
lemma In0_eq [iff]: "(In0 M = In0 N) = (M=N)"
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   370
by (blast dest!: In0_inject)
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diff changeset
   371
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   372
lemma In1_eq [iff]: "(In1 M = In1 N) = (M=N)"
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   373
by (blast dest!: In1_inject)
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diff changeset
   374
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   375
lemma inj_In0: "inj In0"
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   376
by (blast intro!: inj_onI)
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diff changeset
   377
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diff changeset
   378
lemma inj_In1: "inj In1"
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   379
by (blast intro!: inj_onI)
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parents: 20798
diff changeset
   380
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diff changeset
   381
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diff changeset
   382
(*** Function spaces ***)
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diff changeset
   383
cb6ae81dd0be merged with theory Datatype_Universe;
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diff changeset
   384
lemma Lim_inject: "Lim f = Lim g ==> f = g"
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diff changeset
   385
apply (simp add: Lim_def)
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diff changeset
   386
apply (rule ext)
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diff changeset
   387
apply (blast elim!: Push_Node_inject)
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diff changeset
   388
done
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diff changeset
   389
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diff changeset
   390
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diff changeset
   391
(*** proving equality of sets and functions using ntrunc ***)
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diff changeset
   392
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diff changeset
   393
lemma ntrunc_subsetI: "ntrunc k M <= M"
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wenzelm
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diff changeset
   394
by (auto simp add: ntrunc_def)
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wenzelm
parents: 20798
diff changeset
   395
cb6ae81dd0be merged with theory Datatype_Universe;
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diff changeset
   396
lemma ntrunc_subsetD: "(!!k. ntrunc k M <= N) ==> M<=N"
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wenzelm
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diff changeset
   397
by (auto simp add: ntrunc_def)
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   398
cb6ae81dd0be merged with theory Datatype_Universe;
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diff changeset
   399
(*A generalized form of the take-lemma*)
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diff changeset
   400
lemma ntrunc_equality: "(!!k. ntrunc k M = ntrunc k N) ==> M=N"
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wenzelm
parents: 20798
diff changeset
   401
apply (rule equalityI)
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wenzelm
parents: 20798
diff changeset
   402
apply (rule_tac [!] ntrunc_subsetD)
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wenzelm
parents: 20798
diff changeset
   403
apply (rule_tac [!] ntrunc_subsetI [THEN [2] subset_trans], auto) 
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wenzelm
parents: 20798
diff changeset
   404
done
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   405
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
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diff changeset
   406
lemma ntrunc_o_equality: 
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wenzelm
parents: 20798
diff changeset
   407
    "[| !!k. (ntrunc(k) o h1) = (ntrunc(k) o h2) |] ==> h1=h2"
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
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diff changeset
   408
apply (rule ntrunc_equality [THEN ext])
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wenzelm
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diff changeset
   409
apply (simp add: expand_fun_eq) 
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wenzelm
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diff changeset
   410
done
cb6ae81dd0be merged with theory Datatype_Universe;
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diff changeset
   411
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
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diff changeset
   412
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diff changeset
   413
(*** Monotonicity ***)
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diff changeset
   414
cb6ae81dd0be merged with theory Datatype_Universe;
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diff changeset
   415
lemma uprod_mono: "[| A<=A';  B<=B' |] ==> uprod A B <= uprod A' B'"
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wenzelm
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diff changeset
   416
by (simp add: uprod_def, blast)
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wenzelm
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diff changeset
   417
cb6ae81dd0be merged with theory Datatype_Universe;
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diff changeset
   418
lemma usum_mono: "[| A<=A';  B<=B' |] ==> usum A B <= usum A' B'"
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wenzelm
parents: 20798
diff changeset
   419
by (simp add: usum_def, blast)
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   420
cb6ae81dd0be merged with theory Datatype_Universe;
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diff changeset
   421
lemma Scons_mono: "[| M<=M';  N<=N' |] ==> Scons M N <= Scons M' N'"
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wenzelm
parents: 20798
diff changeset
   422
by (simp add: Scons_def, blast)
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parents: 20798
diff changeset
   423
cb6ae81dd0be merged with theory Datatype_Universe;
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   424
lemma In0_mono: "M<=N ==> In0(M) <= In0(N)"
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wenzelm
parents: 20798
diff changeset
   425
by (simp add: In0_def subset_refl Scons_mono)
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
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diff changeset
   426
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   427
lemma In1_mono: "M<=N ==> In1(M) <= In1(N)"
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   428
by (simp add: In1_def subset_refl Scons_mono)
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   429
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   430
cb6ae81dd0be merged with theory Datatype_Universe;
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diff changeset
   431
(*** Split and Case ***)
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wenzelm
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diff changeset
   432
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
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diff changeset
   433
lemma Split [simp]: "Split c (Scons M N) = c M N"
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wenzelm
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diff changeset
   434
by (simp add: Split_def)
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wenzelm
parents: 20798
diff changeset
   435
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   436
lemma Case_In0 [simp]: "Case c d (In0 M) = c(M)"
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   437
by (simp add: Case_def)
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
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diff changeset
   438
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   439
lemma Case_In1 [simp]: "Case c d (In1 N) = d(N)"
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   440
by (simp add: Case_def)
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wenzelm
parents: 20798
diff changeset
   441
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   442
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   443
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   444
(**** UN x. B(x) rules ****)
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   445
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   446
lemma ntrunc_UN1: "ntrunc k (UN x. f(x)) = (UN x. ntrunc k (f x))"
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   447
by (simp add: ntrunc_def, blast)
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   448
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   449
lemma Scons_UN1_x: "Scons (UN x. f x) M = (UN x. Scons (f x) M)"
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   450
by (simp add: Scons_def, blast)
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   451
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   452
lemma Scons_UN1_y: "Scons M (UN x. f x) = (UN x. Scons M (f x))"
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   453
by (simp add: Scons_def, blast)
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   454
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   455
lemma In0_UN1: "In0(UN x. f(x)) = (UN x. In0(f(x)))"
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   456
by (simp add: In0_def Scons_UN1_y)
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   457
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   458
lemma In1_UN1: "In1(UN x. f(x)) = (UN x. In1(f(x)))"
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   459
by (simp add: In1_def Scons_UN1_y)
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   460
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   461
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   462
(*** Equality for Cartesian Product ***)
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   463
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   464
lemma dprodI [intro!]: 
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   465
    "[| (M,M'):r;  (N,N'):s |] ==> (Scons M N, Scons M' N') : dprod r s"
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   466
by (auto simp add: dprod_def)
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   467
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   468
(*The general elimination rule*)
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   469
lemma dprodE [elim!]: 
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   470
    "[| c : dprod r s;   
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   471
        !!x y x' y'. [| (x,x') : r;  (y,y') : s;  
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   472
                        c = (Scons x y, Scons x' y') |] ==> P  
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   473
     |] ==> P"
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   474
by (auto simp add: dprod_def)
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   475
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   476
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   477
(*** Equality for Disjoint Sum ***)
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   478
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   479
lemma dsum_In0I [intro]: "(M,M'):r ==> (In0(M), In0(M')) : dsum r s"
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   480
by (auto simp add: dsum_def)
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   481
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   482
lemma dsum_In1I [intro]: "(N,N'):s ==> (In1(N), In1(N')) : dsum r s"
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   483
by (auto simp add: dsum_def)
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   484
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   485
lemma dsumE [elim!]: 
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   486
    "[| w : dsum r s;   
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   487
        !!x x'. [| (x,x') : r;  w = (In0(x), In0(x')) |] ==> P;  
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   488
        !!y y'. [| (y,y') : s;  w = (In1(y), In1(y')) |] ==> P  
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   489
     |] ==> P"
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   490
by (auto simp add: dsum_def)
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   491
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   492
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   493
(*** Monotonicity ***)
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   494
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   495
lemma dprod_mono: "[| r<=r';  s<=s' |] ==> dprod r s <= dprod r' s'"
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   496
by blast
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   497
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   498
lemma dsum_mono: "[| r<=r';  s<=s' |] ==> dsum r s <= dsum r' s'"
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   499
by blast
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   500
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   501
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   502
(*** Bounding theorems ***)
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   503
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   504
lemma dprod_Sigma: "(dprod (A <*> B) (C <*> D)) <= (uprod A C) <*> (uprod B D)"
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   505
by blast
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   506
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   507
lemmas dprod_subset_Sigma = subset_trans [OF dprod_mono dprod_Sigma, standard]
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   508
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   509
(*Dependent version*)
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   510
lemma dprod_subset_Sigma2:
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   511
     "(dprod (Sigma A B) (Sigma C D)) <= 
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   512
      Sigma (uprod A C) (Split (%x y. uprod (B x) (D y)))"
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   513
by auto
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   514
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   515
lemma dsum_Sigma: "(dsum (A <*> B) (C <*> D)) <= (usum A C) <*> (usum B D)"
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   516
by blast
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   517
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   518
lemmas dsum_subset_Sigma = subset_trans [OF dsum_mono dsum_Sigma, standard]
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   519
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   520
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   521
(*** Domain ***)
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   522
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   523
lemma Domain_dprod [simp]: "Domain (dprod r s) = uprod (Domain r) (Domain s)"
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   524
by auto
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   525
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   526
lemma Domain_dsum [simp]: "Domain (dsum r s) = usum (Domain r) (Domain s)"
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   527
by auto
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   528
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   529
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   530
subsection {* Finishing the datatype package setup *}
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   531
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   532
text {* Belongs to theory @{text Datatype_Universe}; hides popular names. *}
20847
7e8c724339e0 clarified setup name
haftmann
parents: 20819
diff changeset
   533
setup "DatatypeCodegen.setup_hooks"
20819
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   534
hide (open) const Push Node Atom Leaf Numb Lim Split Case
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   535
hide (open) type node item
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   536
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   537
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   538
section {* Datatypes *}
cb6ae81dd0be merged with theory Datatype_Universe;
wenzelm
parents: 20798
diff changeset
   539
11954
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   540
subsection {* Representing primitive types *}
5181
4ba3787d9709 New theory Datatype. Needed as an ancestor when defining datatypes.
berghofe
parents:
diff changeset
   541
5759
bf5d9e5b8cdf unit and bool are now represented as datatypes.
berghofe
parents: 5714
diff changeset
   542
rep_datatype bool
11954
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   543
  distinct True_not_False False_not_True
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   544
  induction bool_induct
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   545
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   546
declare case_split [cases type: bool]
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   547
  -- "prefer plain propositional version"
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   548
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   549
rep_datatype unit
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   550
  induction unit_induct
5181
4ba3787d9709 New theory Datatype. Needed as an ancestor when defining datatypes.
berghofe
parents:
diff changeset
   551
4ba3787d9709 New theory Datatype. Needed as an ancestor when defining datatypes.
berghofe
parents:
diff changeset
   552
rep_datatype prod
11954
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   553
  inject Pair_eq
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   554
  induction prod_induct
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   555
12918
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   556
rep_datatype sum
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   557
  distinct Inl_not_Inr Inr_not_Inl
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   558
  inject Inl_eq Inr_eq
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   559
  induction sum_induct
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   560
22230
bdec4a82f385 a few additions and deletions
nipkow
parents: 21905
diff changeset
   561
lemma sum_case_KK[simp]: "sum_case (%x. a) (%x. a) = (%x. a)"
bdec4a82f385 a few additions and deletions
nipkow
parents: 21905
diff changeset
   562
  by (rule ext) (simp split: sum.split)
bdec4a82f385 a few additions and deletions
nipkow
parents: 21905
diff changeset
   563
12918
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   564
lemma surjective_sum: "sum_case (%x::'a. f (Inl x)) (%y::'b. f (Inr y)) s = f(s)"
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   565
  apply (rule_tac s = s in sumE)
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   566
   apply (erule ssubst)
20798
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   567
   apply (rule sum.cases(1))
12918
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   568
  apply (erule ssubst)
20798
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   569
  apply (rule sum.cases(2))
12918
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   570
  done
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   571
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   572
lemma sum_case_weak_cong: "s = t ==> sum_case f g s = sum_case f g t"
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   573
  -- {* Prevents simplification of @{text f} and @{text g}: much faster. *}
20798
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   574
  by simp
12918
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   575
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   576
lemma sum_case_inject:
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   577
  "sum_case f1 f2 = sum_case g1 g2 ==> (f1 = g1 ==> f2 = g2 ==> P) ==> P"
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   578
proof -
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   579
  assume a: "sum_case f1 f2 = sum_case g1 g2"
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   580
  assume r: "f1 = g1 ==> f2 = g2 ==> P"
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   581
  show P
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   582
    apply (rule r)
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   583
     apply (rule ext)
14208
144f45277d5a misc tidying
paulson
parents: 14187
diff changeset
   584
     apply (cut_tac x = "Inl x" in a [THEN fun_cong], simp)
12918
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   585
    apply (rule ext)
14208
144f45277d5a misc tidying
paulson
parents: 14187
diff changeset
   586
    apply (cut_tac x = "Inr x" in a [THEN fun_cong], simp)
12918
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   587
    done
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   588
qed
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   589
13635
c41e88151b54 Added functions Suml and Sumr which are useful for constructing
berghofe
parents: 12918
diff changeset
   590
constdefs
c41e88151b54 Added functions Suml and Sumr which are useful for constructing
berghofe
parents: 12918
diff changeset
   591
  Suml :: "('a => 'c) => 'a + 'b => 'c"
c41e88151b54 Added functions Suml and Sumr which are useful for constructing
berghofe
parents: 12918
diff changeset
   592
  "Suml == (%f. sum_case f arbitrary)"
c41e88151b54 Added functions Suml and Sumr which are useful for constructing
berghofe
parents: 12918
diff changeset
   593
c41e88151b54 Added functions Suml and Sumr which are useful for constructing
berghofe
parents: 12918
diff changeset
   594
  Sumr :: "('b => 'c) => 'a + 'b => 'c"
c41e88151b54 Added functions Suml and Sumr which are useful for constructing
berghofe
parents: 12918
diff changeset
   595
  "Sumr == sum_case arbitrary"
c41e88151b54 Added functions Suml and Sumr which are useful for constructing
berghofe
parents: 12918
diff changeset
   596
c41e88151b54 Added functions Suml and Sumr which are useful for constructing
berghofe
parents: 12918
diff changeset
   597
lemma Suml_inject: "Suml f = Suml g ==> f = g"
c41e88151b54 Added functions Suml and Sumr which are useful for constructing
berghofe
parents: 12918
diff changeset
   598
  by (unfold Suml_def) (erule sum_case_inject)
c41e88151b54 Added functions Suml and Sumr which are useful for constructing
berghofe
parents: 12918
diff changeset
   599
c41e88151b54 Added functions Suml and Sumr which are useful for constructing
berghofe
parents: 12918
diff changeset
   600
lemma Sumr_inject: "Sumr f = Sumr g ==> f = g"
c41e88151b54 Added functions Suml and Sumr which are useful for constructing
berghofe
parents: 12918
diff changeset
   601
  by (unfold Sumr_def) (erule sum_case_inject)
c41e88151b54 Added functions Suml and Sumr which are useful for constructing
berghofe
parents: 12918
diff changeset
   602
20798
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   603
hide (open) const Suml Sumr
13635
c41e88151b54 Added functions Suml and Sumr which are useful for constructing
berghofe
parents: 12918
diff changeset
   604
12918
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   605
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   606
subsection {* Further cases/induct rules for tuples *}
11954
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   607
20798
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   608
lemma prod_cases3 [cases type]:
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   609
  obtains (fields) a b c where "y = (a, b, c)"
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   610
  by (cases y, case_tac b) blast
11954
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   611
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   612
lemma prod_induct3 [case_names fields, induct type]:
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   613
    "(!!a b c. P (a, b, c)) ==> P x"
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   614
  by (cases x) blast
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   615
20798
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   616
lemma prod_cases4 [cases type]:
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   617
  obtains (fields) a b c d where "y = (a, b, c, d)"
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   618
  by (cases y, case_tac c) blast
11954
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   619
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   620
lemma prod_induct4 [case_names fields, induct type]:
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   621
    "(!!a b c d. P (a, b, c, d)) ==> P x"
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   622
  by (cases x) blast
5181
4ba3787d9709 New theory Datatype. Needed as an ancestor when defining datatypes.
berghofe
parents:
diff changeset
   623
20798
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   624
lemma prod_cases5 [cases type]:
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   625
  obtains (fields) a b c d e where "y = (a, b, c, d, e)"
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   626
  by (cases y, case_tac d) blast
11954
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   627
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   628
lemma prod_induct5 [case_names fields, induct type]:
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   629
    "(!!a b c d e. P (a, b, c, d, e)) ==> P x"
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   630
  by (cases x) blast
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   631
20798
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   632
lemma prod_cases6 [cases type]:
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   633
  obtains (fields) a b c d e f where "y = (a, b, c, d, e, f)"
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   634
  by (cases y, case_tac e) blast
11954
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   635
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   636
lemma prod_induct6 [case_names fields, induct type]:
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   637
    "(!!a b c d e f. P (a, b, c, d, e, f)) ==> P x"
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   638
  by (cases x) blast
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   639
20798
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   640
lemma prod_cases7 [cases type]:
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   641
  obtains (fields) a b c d e f g where "y = (a, b, c, d, e, f, g)"
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   642
  by (cases y, case_tac f) blast
11954
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   643
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   644
lemma prod_induct7 [case_names fields, induct type]:
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   645
    "(!!a b c d e f g. P (a, b, c, d, e, f, g)) ==> P x"
3d1780208bf3 made new-style theory;
wenzelm
parents: 10212
diff changeset
   646
  by (cases x) blast
5759
bf5d9e5b8cdf unit and bool are now represented as datatypes.
berghofe
parents: 5714
diff changeset
   647
12918
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   648
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   649
subsection {* The option type *}
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   650
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   651
datatype 'a option = None | Some 'a
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   652
20798
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   653
lemma not_None_eq [iff]: "(x ~= None) = (EX y. x = Some y)"
18576
8d98b7711e47 Reversed Larry's option/iff change.
nipkow
parents: 18447
diff changeset
   654
  by (induct x) auto
8d98b7711e47 Reversed Larry's option/iff change.
nipkow
parents: 18447
diff changeset
   655
20798
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   656
lemma not_Some_eq [iff]: "(ALL y. x ~= Some y) = (x = None)"
18447
da548623916a removed or modified some instances of [iff]
paulson
parents: 18230
diff changeset
   657
  by (induct x) auto
da548623916a removed or modified some instances of [iff]
paulson
parents: 18230
diff changeset
   658
18576
8d98b7711e47 Reversed Larry's option/iff change.
nipkow
parents: 18447
diff changeset
   659
text{*Although it may appear that both of these equalities are helpful
8d98b7711e47 Reversed Larry's option/iff change.
nipkow
parents: 18447
diff changeset
   660
only when applied to assumptions, in practice it seems better to give
8d98b7711e47 Reversed Larry's option/iff change.
nipkow
parents: 18447
diff changeset
   661
them the uniform iff attribute. *}
12918
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   662
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   663
lemma option_caseE:
20798
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   664
  assumes c: "(case x of None => P | Some y => Q y)"
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   665
  obtains
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   666
    (None) "x = None" and P
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   667
  | (Some) y where "x = Some y" and "Q y"
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   668
  using c by (cases x) simp_all
12918
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   669
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   670
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   671
subsubsection {* Operations *}
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   672
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   673
consts
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   674
  the :: "'a option => 'a"
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   675
primrec
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   676
  "the (Some x) = x"
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   677
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   678
consts
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   679
  o2s :: "'a option => 'a set"
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   680
primrec
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   681
  "o2s None = {}"
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   682
  "o2s (Some x) = {x}"
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   683
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   684
lemma ospec [dest]: "(ALL x:o2s A. P x) ==> A = Some x ==> P x"
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   685
  by simp
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   686
17876
b9c92f384109 change_claset/simpset;
wenzelm
parents: 17458
diff changeset
   687
ML_setup {* change_claset (fn cs => cs addSD2 ("ospec", thm "ospec")) *}
12918
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   688
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   689
lemma elem_o2s [iff]: "(x : o2s xo) = (xo = Some x)"
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   690
  by (cases xo) auto
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   691
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   692
lemma o2s_empty_eq [simp]: "(o2s xo = {}) = (xo = None)"
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   693
  by (cases xo) auto
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   694
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   695
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   696
constdefs
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   697
  option_map :: "('a => 'b) => ('a option => 'b option)"
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   698
  "option_map == %f y. case y of None => None | Some x => Some (f x)"
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   699
22744
5cbe966d67a2 Isar definitions are now added explicitly to code theorem table
haftmann
parents: 22632
diff changeset
   700
lemma option_map_None [simp, code func]: "option_map f None = None"
12918
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   701
  by (simp add: option_map_def)
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   702
22744
5cbe966d67a2 Isar definitions are now added explicitly to code theorem table
haftmann
parents: 22632
diff changeset
   703
lemma option_map_Some [simp, code func]: "option_map f (Some x) = Some (f x)"
12918
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   704
  by (simp add: option_map_def)
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   705
20798
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   706
lemma option_map_is_None [iff]:
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   707
    "(option_map f opt = None) = (opt = None)"
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   708
  by (simp add: option_map_def split add: option.split)
14187
26dfcd0ac436 Added new theorems
nipkow
parents: 13635
diff changeset
   709
12918
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   710
lemma option_map_eq_Some [iff]:
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   711
    "(option_map f xo = Some y) = (EX z. xo = Some z & f z = y)"
20798
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   712
  by (simp add: option_map_def split add: option.split)
14187
26dfcd0ac436 Added new theorems
nipkow
parents: 13635
diff changeset
   713
26dfcd0ac436 Added new theorems
nipkow
parents: 13635
diff changeset
   714
lemma option_map_comp:
20798
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   715
    "option_map f (option_map g opt) = option_map (f o g) opt"
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   716
  by (simp add: option_map_def split add: option.split)
12918
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   717
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   718
lemma option_map_o_sum_case [simp]:
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   719
    "option_map f o sum_case g h = sum_case (option_map f o g) (option_map f o h)"
20798
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   720
  by (rule ext) (simp split: sum.split)
12918
bca45be2d25b theory Option has been assimilated by Datatype;
wenzelm
parents: 12029
diff changeset
   721
19787
b949911ecff5 improved code lemmas
haftmann
parents: 19770
diff changeset
   722
21111
624ed9c7c4fe cleaned up
haftmann
parents: 21079
diff changeset
   723
subsubsection {* Code generator setup *}
19817
bb16bf9ae3fd slight code generator cleanup
haftmann
parents: 19787
diff changeset
   724
21905
500f91bf992c removed code generation stuff belonging to other theories
haftmann
parents: 21669
diff changeset
   725
lemmas [code] = fst_conv snd_conv imp_conv_disj
500f91bf992c removed code generation stuff belonging to other theories
haftmann
parents: 21669
diff changeset
   726
21111
624ed9c7c4fe cleaned up
haftmann
parents: 21079
diff changeset
   727
definition
21404
eb85850d3eb7 more robust syntax for definition/abbreviation/notation;
wenzelm
parents: 21243
diff changeset
   728
  is_none :: "'a option \<Rightarrow> bool" where
22424
8a5412121687 *** empty log message ***
haftmann
parents: 22230
diff changeset
   729
  is_none_none [normal post, symmetric]: "is_none x \<longleftrightarrow> x = None"
8a5412121687 *** empty log message ***
haftmann
parents: 22230
diff changeset
   730
8a5412121687 *** empty log message ***
haftmann
parents: 22230
diff changeset
   731
lemmas [code inline] = is_none_none
19787
b949911ecff5 improved code lemmas
haftmann
parents: 19770
diff changeset
   732
21111
624ed9c7c4fe cleaned up
haftmann
parents: 21079
diff changeset
   733
lemma is_none_code [code]:
624ed9c7c4fe cleaned up
haftmann
parents: 21079
diff changeset
   734
  shows "is_none None \<longleftrightarrow> True"
624ed9c7c4fe cleaned up
haftmann
parents: 21079
diff changeset
   735
    and "is_none (Some x) \<longleftrightarrow> False"
624ed9c7c4fe cleaned up
haftmann
parents: 21079
diff changeset
   736
  unfolding is_none_none [symmetric] by simp_all
624ed9c7c4fe cleaned up
haftmann
parents: 21079
diff changeset
   737
20105
454f4be984b7 adaptions in codegen
haftmann
parents: 19890
diff changeset
   738
lemma split_is_prod_case [code inline]:
21905
500f91bf992c removed code generation stuff belonging to other theories
haftmann
parents: 21669
diff changeset
   739
  "split = prod_case"
20798
3275b03e2fff removed obsolete sum_case_Inl/Inr;
wenzelm
parents: 20588
diff changeset
   740
  by (simp add: expand_fun_eq split_def prod.cases)
20105
454f4be984b7 adaptions in codegen
haftmann
parents: 19890
diff changeset
   741
21905
500f91bf992c removed code generation stuff belonging to other theories
haftmann
parents: 21669
diff changeset
   742
hide (open) const is_none
19150
1457d810b408 class package and codegen refinements
haftmann
parents: 19138
diff changeset
   743
20453
855f07fabd76 final syntax for some Isar code generator keywords
haftmann
parents: 20105
diff changeset
   744
code_type option
855f07fabd76 final syntax for some Isar code generator keywords
haftmann
parents: 20105
diff changeset
   745
  (SML "_ option")
21905
500f91bf992c removed code generation stuff belonging to other theories
haftmann
parents: 21669
diff changeset
   746
  (OCaml "_ option")
20453
855f07fabd76 final syntax for some Isar code generator keywords
haftmann
parents: 20105
diff changeset
   747
  (Haskell "Maybe _")
19150
1457d810b408 class package and codegen refinements
haftmann
parents: 19138
diff changeset
   748
20453
855f07fabd76 final syntax for some Isar code generator keywords
haftmann
parents: 20105
diff changeset
   749
code_const None and Some
21111
624ed9c7c4fe cleaned up
haftmann
parents: 21079
diff changeset
   750
  (SML "NONE" and "SOME")
21905
500f91bf992c removed code generation stuff belonging to other theories
haftmann
parents: 21669
diff changeset
   751
  (OCaml "None" and "Some _")
21111
624ed9c7c4fe cleaned up
haftmann
parents: 21079
diff changeset
   752
  (Haskell "Nothing" and "Just")
19150
1457d810b408 class package and codegen refinements
haftmann
parents: 19138
diff changeset
   753
20588
c847c56edf0c added operational equality
haftmann
parents: 20523
diff changeset
   754
code_instance option :: eq
c847c56edf0c added operational equality
haftmann
parents: 20523
diff changeset
   755
  (Haskell -)
c847c56edf0c added operational equality
haftmann
parents: 20523
diff changeset
   756
21454
a1937c51ed88 dropped eq const
haftmann
parents: 21407
diff changeset
   757
code_const "op = \<Colon> 'a\<Colon>eq option \<Rightarrow> 'a option \<Rightarrow> bool"
20588
c847c56edf0c added operational equality
haftmann
parents: 20523
diff changeset
   758
  (Haskell infixl 4 "==")
c847c56edf0c added operational equality
haftmann
parents: 20523
diff changeset
   759
21079
747d716e98d0 added reserved words for Haskell
haftmann
parents: 21060
diff changeset
   760
code_reserved SML
21905
500f91bf992c removed code generation stuff belonging to other theories
haftmann
parents: 21669
diff changeset
   761
  option NONE SOME
21079
747d716e98d0 added reserved words for Haskell
haftmann
parents: 21060
diff changeset
   762
21905
500f91bf992c removed code generation stuff belonging to other theories
haftmann
parents: 21669
diff changeset
   763
code_reserved OCaml
500f91bf992c removed code generation stuff belonging to other theories
haftmann
parents: 21669
diff changeset
   764
  option None Some
21079
747d716e98d0 added reserved words for Haskell
haftmann
parents: 21060
diff changeset
   765
5181
4ba3787d9709 New theory Datatype. Needed as an ancestor when defining datatypes.
berghofe
parents:
diff changeset
   766
end