diff -r 6c12f5e24e34 -r 0437dbc127b3 src/HOL/HOLCF/Tutorial/Domain_ex.thy --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/src/HOL/HOLCF/Tutorial/Domain_ex.thy Sat Nov 27 16:08:10 2010 -0800 @@ -0,0 +1,201 @@ +(* Title: HOLCF/ex/Domain_ex.thy + Author: Brian Huffman +*) + +header {* Domain package examples *} + +theory Domain_ex +imports HOLCF +begin + +text {* Domain constructors are strict by default. *} + +domain d1 = d1a | d1b "d1" "d1" + +lemma "d1b\\\y = \" by simp + +text {* Constructors can be made lazy using the @{text "lazy"} keyword. *} + +domain d2 = d2a | d2b (lazy "d2") + +lemma "d2b\x \ \" by simp + +text {* Strict and lazy arguments may be mixed arbitrarily. *} + +domain d3 = d3a | d3b (lazy "d2") "d2" + +lemma "P (d3b\x\y = \) \ P (y = \)" by simp + +text {* Selectors can be used with strict or lazy constructor arguments. *} + +domain d4 = d4a | d4b (lazy d4b_left :: "d2") (d4b_right :: "d2") + +lemma "y \ \ \ d4b_left\(d4b\x\y) = x" by simp + +text {* Mixfix declarations can be given for data constructors. *} + +domain d5 = d5a | d5b (lazy "d5") "d5" (infixl ":#:" 70) + +lemma "d5a \ x :#: y :#: z" by simp + +text {* Mixfix declarations can also be given for type constructors. *} + +domain ('a, 'b) lazypair (infixl ":*:" 25) = + lpair (lazy lfst :: 'a) (lazy lsnd :: 'b) (infixl ":*:" 75) + +lemma "\p::('a :*: 'b). p \ lfst\p :*: lsnd\p" +by (rule allI, case_tac p, simp_all) + +text {* Non-recursive constructor arguments can have arbitrary types. *} + +domain ('a, 'b) d6 = d6 "int lift" "'a \ 'b u" (lazy "('a :*: 'b) \ ('b \ 'a)") + +text {* + Indirect recusion is allowed for sums, products, lifting, and the + continuous function space. However, the domain package does not + generate an induction rule in terms of the constructors. +*} + +domain 'a d7 = d7a "'a d7 \ int lift" | d7b "'a \ 'a d7" | d7c (lazy "'a d7 \ 'a") + -- "Indirect recursion detected, skipping proofs of (co)induction rules" + +text {* Note that @{text d7.induct} is absent. *} + +text {* + Indirect recursion is also allowed using previously-defined datatypes. +*} + +domain 'a slist = SNil | SCons 'a "'a slist" + +domain 'a stree = STip | SBranch "'a stree slist" + +text {* Mutually-recursive datatypes can be defined using the @{text "and"} keyword. *} + +domain d8 = d8a | d8b "d9" and d9 = d9a | d9b (lazy "d8") + +text {* Non-regular recursion is not allowed. *} +(* +domain ('a, 'b) altlist = ANil | ACons 'a "('b, 'a) altlist" + -- "illegal direct recursion with different arguments" +domain 'a nest = Nest1 'a | Nest2 "'a nest nest" + -- "illegal direct recursion with different arguments" +*) + +text {* + Mutually-recursive datatypes must have all the same type arguments, + not necessarily in the same order. +*} + +domain ('a, 'b) list1 = Nil1 | Cons1 'a "('b, 'a) list2" + and ('b, 'a) list2 = Nil2 | Cons2 'b "('a, 'b) list1" + +text {* Induction rules for flat datatypes have no admissibility side-condition. *} + +domain 'a flattree = Tip | Branch "'a flattree" "'a flattree" + +lemma "\P \; P Tip; \x y. \x \ \; y \ \; P x; P y\ \ P (Branch\x\y)\ \ P x" +by (rule flattree.induct) -- "no admissibility requirement" + +text {* Trivial datatypes will produce a warning message. *} + +domain triv = Triv triv triv + -- "domain @{text Domain_ex.triv} is empty!" + +lemma "(x::triv) = \" by (induct x, simp_all) + +text {* Lazy constructor arguments may have unpointed types. *} + +domain natlist = nnil | ncons (lazy "nat discr") natlist + +text {* Class constraints may be given for type parameters on the LHS. *} + +domain ('a::predomain) box = Box (lazy 'a) + +domain ('a::countable) stream = snil | scons (lazy "'a discr") "'a stream" + + +subsection {* Generated constants and theorems *} + +domain 'a tree = Leaf (lazy 'a) | Node (left :: "'a tree") (right :: "'a tree") + +lemmas tree_abs_bottom_iff = + iso.abs_bottom_iff [OF iso.intro [OF tree.abs_iso tree.rep_iso]] + +text {* Rules about ismorphism *} +term tree_rep +term tree_abs +thm tree.rep_iso +thm tree.abs_iso +thm tree.iso_rews + +text {* Rules about constructors *} +term Leaf +term Node +thm Leaf_def Node_def +thm tree.nchotomy +thm tree.exhaust +thm tree.compacts +thm tree.con_rews +thm tree.dist_les +thm tree.dist_eqs +thm tree.inverts +thm tree.injects + +text {* Rules about case combinator *} +term tree_case +thm tree.tree_case_def +thm tree.case_rews + +text {* Rules about selectors *} +term left +term right +thm tree.sel_rews + +text {* Rules about discriminators *} +term is_Leaf +term is_Node +thm tree.dis_rews + +text {* Rules about monadic pattern match combinators *} +term match_Leaf +term match_Node +thm tree.match_rews + +text {* Rules about take function *} +term tree_take +thm tree.take_def +thm tree.take_0 +thm tree.take_Suc +thm tree.take_rews +thm tree.chain_take +thm tree.take_take +thm tree.deflation_take +thm tree.take_below +thm tree.take_lemma +thm tree.lub_take +thm tree.reach +thm tree.finite_induct + +text {* Rules about finiteness predicate *} +term tree_finite +thm tree.finite_def +thm tree.finite (* only generated for flat datatypes *) + +text {* Rules about bisimulation predicate *} +term tree_bisim +thm tree.bisim_def +thm tree.coinduct + +text {* Induction rule *} +thm tree.induct + + +subsection {* Known bugs *} + +text {* Declaring a mixfix with spaces causes some strange parse errors. *} +(* +domain xx = xx ("x y") + -- "Inner syntax error: unexpected end of input" +*) + +end