src/HOL/Sum.ML
author paulson
Wed, 15 Jul 1998 10:15:13 +0200
changeset 5143 b94cd208f073
parent 5069 3ea049f7979d
child 5148 74919e8f221c
permissions -rw-r--r--
Removal of leading "\!\!..." from most Goal commands

(*  Title:      HOL/Sum.ML
    ID:         $Id$
    Author:     Lawrence C Paulson, Cambridge University Computer Laboratory
    Copyright   1991  University of Cambridge

For Sum.thy.  The disjoint sum of two types
*)

open Sum;

(** Inl_Rep and Inr_Rep: Representations of the constructors **)

(*This counts as a non-emptiness result for admitting 'a+'b as a type*)
Goalw [Sum_def] "Inl_Rep(a) : Sum";
by (EVERY1 [rtac CollectI, rtac disjI1, rtac exI, rtac refl]);
qed "Inl_RepI";

Goalw [Sum_def] "Inr_Rep(b) : Sum";
by (EVERY1 [rtac CollectI, rtac disjI2, rtac exI, rtac refl]);
qed "Inr_RepI";

Goal "inj_on Abs_Sum Sum";
by (rtac inj_on_inverseI 1);
by (etac Abs_Sum_inverse 1);
qed "inj_on_Abs_Sum";

(** Distinctness of Inl and Inr **)

Goalw [Inl_Rep_def, Inr_Rep_def] "Inl_Rep(a) ~= Inr_Rep(b)";
by (EVERY1 [rtac notI,
            etac (fun_cong RS fun_cong RS fun_cong RS iffE), 
            rtac (notE RS ccontr),  etac (mp RS conjunct2), 
            REPEAT o (ares_tac [refl,conjI]) ]);
qed "Inl_Rep_not_Inr_Rep";

Goalw [Inl_def,Inr_def] "Inl(a) ~= Inr(b)";
by (rtac (inj_on_Abs_Sum RS inj_on_contraD) 1);
by (rtac Inl_Rep_not_Inr_Rep 1);
by (rtac Inl_RepI 1);
by (rtac Inr_RepI 1);
qed "Inl_not_Inr";

bind_thm ("Inr_not_Inl", Inl_not_Inr RS not_sym);

AddIffs [Inl_not_Inr, Inr_not_Inl];

bind_thm ("Inl_neq_Inr", Inl_not_Inr RS notE);

val Inr_neq_Inl = sym RS Inl_neq_Inr;


(** Injectiveness of Inl and Inr **)

val [major] = goalw Sum.thy [Inl_Rep_def] "Inl_Rep(a) = Inl_Rep(c) ==> a=c";
by (rtac (major RS fun_cong RS fun_cong RS fun_cong RS iffE) 1);
by (Blast_tac 1);
qed "Inl_Rep_inject";

val [major] = goalw Sum.thy [Inr_Rep_def] "Inr_Rep(b) = Inr_Rep(d) ==> b=d";
by (rtac (major RS fun_cong RS fun_cong RS fun_cong RS iffE) 1);
by (Blast_tac 1);
qed "Inr_Rep_inject";

Goalw [Inl_def] "inj(Inl)";
by (rtac injI 1);
by (etac (inj_on_Abs_Sum RS inj_onD RS Inl_Rep_inject) 1);
by (rtac Inl_RepI 1);
by (rtac Inl_RepI 1);
qed "inj_Inl";
val Inl_inject = inj_Inl RS injD;

Goalw [Inr_def] "inj(Inr)";
by (rtac injI 1);
by (etac (inj_on_Abs_Sum RS inj_onD RS Inr_Rep_inject) 1);
by (rtac Inr_RepI 1);
by (rtac Inr_RepI 1);
qed "inj_Inr";
val Inr_inject = inj_Inr RS injD;

Goal "(Inl(x)=Inl(y)) = (x=y)";
by (blast_tac (claset() addSDs [Inl_inject]) 1);
qed "Inl_eq";

Goal "(Inr(x)=Inr(y)) = (x=y)";
by (blast_tac (claset() addSDs [Inr_inject]) 1);
qed "Inr_eq";

AddIffs [Inl_eq, Inr_eq];

(*** Rules for the disjoint sum of two SETS ***)

(** Introduction rules for the injections **)

Goalw [sum_def] "a : A ==> Inl(a) : A Plus B";
by (Blast_tac 1);
qed "InlI";

Goalw [sum_def] "b : B ==> Inr(b) : A Plus B";
by (Blast_tac 1);
qed "InrI";

(** Elimination rules **)

val major::prems = goalw Sum.thy [sum_def]
    "[| u: A Plus B;  \
\       !!x. [| x:A;  u=Inl(x) |] ==> P; \
\       !!y. [| y:B;  u=Inr(y) |] ==> P \
\    |] ==> P";
by (rtac (major RS UnE) 1);
by (REPEAT (rtac refl 1
     ORELSE eresolve_tac (prems@[imageE,ssubst]) 1));
qed "PlusE";


AddSIs [InlI, InrI]; 
AddSEs [PlusE];


(** sum_case -- the selection operator for sums **)

Goalw [sum_case_def] "sum_case f g (Inl x) = f(x)";
by (Blast_tac 1);
qed "sum_case_Inl";

Goalw [sum_case_def] "sum_case f g (Inr x) = g(x)";
by (Blast_tac 1);
qed "sum_case_Inr";

Addsimps [sum_case_Inl, sum_case_Inr];

(** Exhaustion rule for sums -- a degenerate form of induction **)

val prems = goalw Sum.thy [Inl_def,Inr_def]
    "[| !!x::'a. s = Inl(x) ==> P;  !!y::'b. s = Inr(y) ==> P \
\    |] ==> P";
by (rtac (rewrite_rule [Sum_def] Rep_Sum RS CollectE) 1);
by (REPEAT (eresolve_tac [disjE,exE] 1
     ORELSE EVERY1 [resolve_tac prems, 
                    etac subst,
                    rtac (Rep_Sum_inverse RS sym)]));
qed "sumE";

Goal "sum_case (%x::'a. f(Inl x)) (%y::'b. f(Inr y)) s = f(s)";
by (EVERY1 [res_inst_tac [("s","s")] sumE, 
            etac ssubst, rtac sum_case_Inl,
            etac ssubst, rtac sum_case_Inr]);
qed "surjective_sum";

Goal "R(sum_case f g s) = \
\             ((! x. s = Inl(x) --> R(f(x))) & (! y. s = Inr(y) --> R(g(y))))";
by (res_inst_tac [("s","s")] sumE 1);
by Auto_tac;
qed "split_sum_case";

qed_goal "split_sum_case_asm" Sum.thy "P (sum_case f g s) = \
\ (~((? x. s = Inl x & ~P (f x)) | (? y. s = Inr y & ~P (g y))))"
    (K [stac split_sum_case 1,
	Blast_tac 1]);

(*Prevents simplification of f and g: much faster*)
qed_goal "sum_case_weak_cong" Sum.thy
  "s=t ==> sum_case f g s = sum_case f g t"
  (fn [prem] => [rtac (prem RS arg_cong) 1]);



(** Rules for the Part primitive **)

Goalw [Part_def]
    "!!a b A h. [| a : A;  a=h(b) |] ==> a : Part A h";
by (Blast_tac 1);
qed "Part_eqI";

val PartI = refl RSN (2,Part_eqI);

val major::prems = goalw Sum.thy [Part_def]
    "[| a : Part A h;  !!z. [| a : A;  a=h(z) |] ==> P  \
\    |] ==> P";
by (rtac (major RS IntE) 1);
by (etac CollectE 1);
by (etac exE 1);
by (REPEAT (ares_tac prems 1));
qed "PartE";

AddIs  [Part_eqI];
AddSEs [PartE];

Goalw [Part_def] "Part A h <= A";
by (rtac Int_lower1 1);
qed "Part_subset";

Goal "A<=B ==> Part A h <= Part B h";
by (Blast_tac 1);
qed "Part_mono";

val basic_monos = basic_monos @ [Part_mono];

Goalw [Part_def] "a : Part A h ==> a : A";
by (etac IntD1 1);
qed "PartD1";

Goal "Part A (%x. x) = A";
by (Blast_tac 1);
qed "Part_id";

Goal "Part (A Int B) h = (Part A h) Int (Part B h)";
by (Blast_tac 1);
qed "Part_Int";

(*For inductive definitions*)
Goal "Part (A Int {x. P x}) h = (Part A h) Int {x. P x}";
by (Blast_tac 1);
qed "Part_Collect";