author | wenzelm |
Fri, 10 Oct 1997 19:02:28 +0200 | |
changeset 3842 | b55686a7b22c |
parent 3323 | 194ae2e0c193 |
child 4008 | 2444085532c6 |
permissions | -rw-r--r-- |
2276 | 1 |
(* Title: HOLCF/domain/theorems.ML |
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removed Holcfb.thy and Holcfb.ML, moving classical3 to HOL.ML as classical2
oheimb
parents:
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diff
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|
2 |
ID: $Id$ |
2276 | 3 |
Author : David von Oheimb |
4 |
Copyright 1995, 1996 TU Muenchen |
|
2445
51993fea433f
removed Holcfb.thy and Holcfb.ML, moving classical3 to HOL.ML as classical2
oheimb
parents:
2276
diff
changeset
|
5 |
|
51993fea433f
removed Holcfb.thy and Holcfb.ML, moving classical3 to HOL.ML as classical2
oheimb
parents:
2276
diff
changeset
|
6 |
proof generator for domain section |
1274 | 7 |
*) |
8 |
||
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The previous log message was wrong. The correct one is:
oheimb
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1274 | 10 |
structure Domain_Theorems = struct |
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12 |
local |
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14 |
open Domain_Library; |
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15 |
infixr 0 ===>;infixr 0 ==>;infix 0 == ; |
|
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infix 1 ===; infix 1 ~= ; infix 1 <<; infix 1 ~<<; |
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17 |
infix 9 ` ; infix 9 `% ; infix 9 `%%; infixr 9 oo; |
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18 |
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Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
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19 |
(* ----- general proof facilities ------------------------------------------- *) |
1274 | 20 |
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21 |
fun inferT sg pre_tm = #2 (Sign.infer_types sg (K None) (K None) [] true |
2033 | 22 |
([pre_tm],propT)); |
1274 | 23 |
|
24 |
fun pg'' thy defs t = let val sg = sign_of thy; |
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2033 | 25 |
val ct = Thm.cterm_of sg (inferT sg t); |
26 |
in prove_goalw_cterm defs ct end; |
|
1274 | 27 |
fun pg' thy defs t tacsf=pg'' thy defs t (fn [] => tacsf |
2033 | 28 |
| prems=> (cut_facts_tac prems 1)::tacsf); |
1274 | 29 |
|
30 |
fun REPEAT_DETERM_UNTIL p tac = |
|
31 |
let fun drep st = if p st then Sequence.single st |
|
2033 | 32 |
else (case Sequence.pull(tac st) of |
33 |
None => Sequence.null |
|
34 |
| Some(st',_) => drep st') |
|
1638 | 35 |
in drep end; |
1274 | 36 |
val UNTIL_SOLVED = REPEAT_DETERM_UNTIL (has_fewer_prems 1); |
37 |
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1674 | 38 |
local val trueI2 = prove_goal HOL.thy"f~=x ==> True"(fn _ => [rtac TrueI 1]) in |
1274 | 39 |
val kill_neq_tac = dtac trueI2 end; |
2033 | 40 |
fun case_UU_tac rews i v = case_tac (v^"=UU") i THEN |
41 |
asm_simp_tac (HOLCF_ss addsimps rews) i; |
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1274 | 42 |
|
43 |
val chain_tac = REPEAT_DETERM o resolve_tac |
|
2033 | 44 |
[is_chain_iterate, ch2ch_fappR, ch2ch_fappL]; |
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Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
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b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
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parents:
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changeset
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(* ----- general proofs ----------------------------------------------------- *) |
1274 | 47 |
|
1644 | 48 |
val all2E = prove_goal HOL.thy "[| !x y . P x y; P x y ==> R |] ==> R" |
49 |
(fn prems =>[ |
|
2033 | 50 |
resolve_tac prems 1, |
51 |
cut_facts_tac prems 1, |
|
52 |
fast_tac HOL_cs 1]); |
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1274 | 53 |
|
3323
194ae2e0c193
eliminated the constant less by the introduction of the axclass sq_ord
slotosch
parents:
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diff
changeset
|
54 |
val dist_eqI = prove_goal Porder.thy "~(x::'a::po) << y ==> x ~= y" (fn prems => [ |
2445
51993fea433f
removed Holcfb.thy and Holcfb.ML, moving classical3 to HOL.ML as classical2
oheimb
parents:
2276
diff
changeset
|
55 |
rtac rev_contrapos 1, |
2033 | 56 |
etac (antisym_less_inverse RS conjunct1) 1, |
57 |
resolve_tac prems 1]); |
|
1274 | 58 |
|
59 |
in |
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60 |
||
61 |
||
62 |
fun theorems thy (((dname,_),cons) : eq, eqs :eq list) = |
|
63 |
let |
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64 |
||
65 |
val dummy = writeln ("Proving isomorphism properties of domain "^dname^"..."); |
|
66 |
val pg = pg' thy; |
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67 |
(* |
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Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
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68 |
infixr 0 y; |
b8a8ae2e5de1
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|
69 |
val b = 0; |
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
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|
70 |
fun _ y t = by t; |
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
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|
71 |
fun g defs t = let val sg = sign_of thy; |
2033 | 72 |
val ct = Thm.cterm_of sg (inferT sg t); |
73 |
in goalw_cterm defs ct end; |
|
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Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
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changeset
|
74 |
*) |
1274 | 75 |
|
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Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
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parents:
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changeset
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Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
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parents:
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changeset
|
77 |
(* ----- getting the axioms and definitions --------------------------------- *) |
1274 | 78 |
|
79 |
local val ga = get_axiom thy in |
|
80 |
val ax_abs_iso = ga (dname^"_abs_iso" ); |
|
81 |
val ax_rep_iso = ga (dname^"_rep_iso" ); |
|
82 |
val ax_when_def = ga (dname^"_when_def" ); |
|
83 |
val axs_con_def = map (fn (con,_) => ga (extern_name con ^"_def")) cons; |
|
84 |
val axs_dis_def = map (fn (con,_) => ga ( dis_name con ^"_def")) cons; |
|
85 |
val axs_sel_def = flat(map (fn (_,args) => |
|
2033 | 86 |
map (fn arg => ga (sel_of arg ^"_def")) args)cons); |
1274 | 87 |
val ax_copy_def = ga (dname^"_copy_def" ); |
88 |
end; (* local *) |
|
89 |
||
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Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
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parents:
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changeset
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90 |
(* ----- theorems concerning the isomorphism -------------------------------- *) |
1274 | 91 |
|
92 |
val dc_abs = %%(dname^"_abs"); |
|
93 |
val dc_rep = %%(dname^"_rep"); |
|
94 |
val dc_copy = %%(dname^"_copy"); |
|
95 |
val x_name = "x"; |
|
96 |
||
97 |
val (rep_strict, abs_strict) = let |
|
2033 | 98 |
val r = ax_rep_iso RS (ax_abs_iso RS (allI RSN(2,allI RS iso_strict))) |
99 |
in (r RS conjunct1, r RS conjunct2) end; |
|
1274 | 100 |
val abs_defin' = pg [] ((dc_abs`%x_name === UU) ==> (%x_name === UU)) [ |
2033 | 101 |
res_inst_tac [("t",x_name)] (ax_abs_iso RS subst) 1, |
102 |
etac ssubst 1, rtac rep_strict 1]; |
|
1274 | 103 |
val rep_defin' = pg [] ((dc_rep`%x_name === UU) ==> (%x_name === UU)) [ |
2033 | 104 |
res_inst_tac [("t",x_name)] (ax_rep_iso RS subst) 1, |
105 |
etac ssubst 1, rtac abs_strict 1]; |
|
1274 | 106 |
val iso_rews = [ax_abs_iso,ax_rep_iso,abs_strict,rep_strict]; |
107 |
||
108 |
local |
|
109 |
val iso_swap = pg [] (dc_rep`%"x" === %"y" ==> %"x" === dc_abs`%"y") [ |
|
2033 | 110 |
dres_inst_tac [("f",dname^"_abs")] cfun_arg_cong 1, |
111 |
etac (ax_rep_iso RS subst) 1]; |
|
1274 | 112 |
fun exh foldr1 cn quant foldr2 var = let |
113 |
fun one_con (con,args) = let val vns = map vname args in |
|
114 |
foldr quant (vns, foldr2 ((%x_name === con_app2 con (var vns) vns):: |
|
2033 | 115 |
map (defined o (var vns)) (nonlazy args))) end |
1274 | 116 |
in foldr1 ((cn(%x_name===UU))::map one_con cons) end; |
117 |
in |
|
118 |
val cases = let |
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2033 | 119 |
fun common_tac thm = rtac thm 1 THEN contr_tac 1; |
2276 | 120 |
fun unit_tac true = common_tac upE1 |
2033 | 121 |
| unit_tac _ = all_tac; |
122 |
fun prod_tac [] = common_tac oneE |
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123 |
| prod_tac [arg] = unit_tac (is_lazy arg) |
|
124 |
| prod_tac (arg::args) = |
|
125 |
common_tac sprodE THEN |
|
126 |
kill_neq_tac 1 THEN |
|
127 |
unit_tac (is_lazy arg) THEN |
|
128 |
prod_tac args; |
|
129 |
fun sum_rest_tac p = SELECT_GOAL(EVERY[ |
|
130 |
rtac p 1, |
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131 |
rewrite_goals_tac axs_con_def, |
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132 |
dtac iso_swap 1, |
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133 |
simp_tac HOLCF_ss 1, |
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134 |
UNTIL_SOLVED(fast_tac HOL_cs 1)]) 1; |
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135 |
fun sum_tac [(_,args)] [p] = |
|
136 |
prod_tac args THEN sum_rest_tac p |
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137 |
| sum_tac ((_,args)::cons') (p::prems) = DETERM( |
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138 |
common_tac ssumE THEN |
|
139 |
kill_neq_tac 1 THEN kill_neq_tac 2 THEN |
|
140 |
prod_tac args THEN sum_rest_tac p) THEN |
|
141 |
sum_tac cons' prems |
|
142 |
| sum_tac _ _ = Imposs "theorems:sum_tac"; |
|
143 |
in pg'' thy [] (exh (fn l => foldr (op ===>) (l,mk_trp(%"P"))) |
|
144 |
(fn T => T ==> %"P") mk_All |
|
145 |
(fn l => foldr (op ===>) (map mk_trp l, |
|
146 |
mk_trp(%"P"))) |
|
147 |
bound_arg) |
|
148 |
(fn prems => [ |
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149 |
cut_facts_tac [excluded_middle] 1, |
|
150 |
etac disjE 1, |
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151 |
rtac (hd prems) 2, |
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152 |
etac rep_defin' 2, |
|
153 |
if length cons = 1 andalso |
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154 |
length (snd(hd cons)) = 1 andalso |
|
155 |
not(is_lazy(hd(snd(hd cons)))) |
|
156 |
then rtac (hd (tl prems)) 1 THEN atac 2 THEN |
|
157 |
rewrite_goals_tac axs_con_def THEN |
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158 |
simp_tac (HOLCF_ss addsimps [ax_rep_iso]) 1 |
|
159 |
else sum_tac cons (tl prems)])end; |
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b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
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parents:
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diff
changeset
|
160 |
val exhaust= pg[](mk_trp(exh (foldr' mk_disj) Id mk_ex (foldr' mk_conj) (K %)))[ |
2033 | 161 |
rtac cases 1, |
162 |
UNTIL_SOLVED(fast_tac HOL_cs 1)]; |
|
1274 | 163 |
end; |
164 |
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165 |
local |
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1834 | 166 |
fun bind_fun t = foldr mk_All (when_funs cons,t); |
1829 | 167 |
fun bound_fun i _ = Bound (length cons - i); |
168 |
val when_app = foldl (op `) (%%(dname^"_when"), mapn bound_fun 1 cons); |
|
169 |
val when_appl = pg [ax_when_def] (bind_fun(mk_trp(when_app`%x_name === |
|
2033 | 170 |
when_body cons (fn (m,n)=> bound_fun (n-m) 0)`(dc_rep`%x_name))))[ |
171 |
simp_tac HOLCF_ss 1]; |
|
1274 | 172 |
in |
1829 | 173 |
val when_strict = pg [] (bind_fun(mk_trp(strict when_app))) [ |
2033 | 174 |
simp_tac(HOLCF_ss addsimps [when_appl,rep_strict]) 1]; |
1829 | 175 |
val when_apps = let fun one_when n (con,args) = pg axs_con_def |
2033 | 176 |
(bind_fun (lift_defined % (nonlazy args, |
177 |
mk_trp(when_app`(con_app con args) === |
|
1829 | 178 |
mk_cfapp(bound_fun n 0,map %# args)))))[ |
2033 | 179 |
asm_simp_tac (HOLCF_ss addsimps [when_appl,ax_abs_iso]) 1]; |
180 |
in mapn one_when 1 cons end; |
|
1274 | 181 |
end; |
182 |
val when_rews = when_strict::when_apps; |
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183 |
||
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Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
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parents:
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changeset
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184 |
(* ----- theorems concerning the constructors, discriminators and selectors - *) |
1274 | 185 |
|
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oheimb
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1512
diff
changeset
|
186 |
val dis_rews = let |
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
187 |
val dis_stricts = map (fn (con,_) => pg axs_dis_def (mk_trp( |
2033 | 188 |
strict(%%(dis_name con)))) [ |
189 |
simp_tac (HOLCF_ss addsimps when_rews) 1]) cons; |
|
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Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
190 |
val dis_apps = let fun one_dis c (con,args)= pg axs_dis_def |
2033 | 191 |
(lift_defined % (nonlazy args, |
192 |
(mk_trp((%%(dis_name c))`(con_app con args) === |
|
193 |
%%(if con=c then "TT" else "FF"))))) [ |
|
194 |
asm_simp_tac (HOLCF_ss addsimps when_rews) 1]; |
|
195 |
in flat(map (fn (c,_) => map (one_dis c) cons) cons) end; |
|
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b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
196 |
val dis_defins = map (fn (con,args) => pg [] (defined(%x_name) ==> |
2033 | 197 |
defined(%%(dis_name con)`%x_name)) [ |
198 |
rtac cases 1, |
|
199 |
contr_tac 1, |
|
200 |
UNTIL_SOLVED (CHANGED(asm_simp_tac |
|
201 |
(HOLCF_ss addsimps dis_apps) 1))]) cons; |
|
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
202 |
in dis_stricts @ dis_defins @ dis_apps end; |
1274 | 203 |
|
204 |
val con_stricts = flat(map (fn (con,args) => map (fn vn => |
|
2033 | 205 |
pg (axs_con_def) |
206 |
(mk_trp(con_app2 con (fn arg => if vname arg = vn |
|
207 |
then UU else %# arg) args === UU))[ |
|
208 |
asm_simp_tac (HOLCF_ss addsimps [abs_strict]) 1] |
|
209 |
) (nonlazy args)) cons); |
|
1274 | 210 |
val con_defins = map (fn (con,args) => pg [] |
2033 | 211 |
(lift_defined % (nonlazy args, |
212 |
mk_trp(defined(con_app con args)))) ([ |
|
2445
51993fea433f
removed Holcfb.thy and Holcfb.ML, moving classical3 to HOL.ML as classical2
oheimb
parents:
2276
diff
changeset
|
213 |
rtac rev_contrapos 1, |
2033 | 214 |
eres_inst_tac [("f",dis_name con)] cfun_arg_cong 1, |
215 |
asm_simp_tac (HOLCF_ss addsimps dis_rews) 1] )) cons; |
|
1274 | 216 |
val con_rews = con_stricts @ con_defins; |
217 |
||
218 |
val sel_stricts = let fun one_sel sel = pg axs_sel_def (mk_trp(strict(%%sel))) [ |
|
2033 | 219 |
simp_tac (HOLCF_ss addsimps when_rews) 1]; |
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
220 |
in flat(map (fn (_,args) =>map (fn arg => one_sel (sel_of arg)) args) cons) end; |
1274 | 221 |
val sel_apps = let fun one_sel c n sel = map (fn (con,args) => |
2033 | 222 |
let val nlas = nonlazy args; |
223 |
val vns = map vname args; |
|
224 |
in pg axs_sel_def (lift_defined % |
|
225 |
(filter (fn v => con=c andalso (v<>nth_elem(n,vns))) nlas, |
|
226 |
mk_trp((%%sel)`(con_app con args) === |
|
227 |
(if con=c then %(nth_elem(n,vns)) else UU)))) |
|
228 |
( (if con=c then [] |
|
229 |
else map(case_UU_tac(when_rews@con_stricts)1) nlas) |
|
230 |
@(if con=c andalso ((nth_elem(n,vns)) mem nlas) |
|
231 |
then[case_UU_tac (when_rews @ con_stricts) 1 |
|
232 |
(nth_elem(n,vns))] else []) |
|
233 |
@ [asm_simp_tac(HOLCF_ss addsimps when_rews)1])end) cons; |
|
1274 | 234 |
in flat(map (fn (c,args) => |
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
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diff
changeset
|
235 |
flat(mapn (fn n => fn arg => one_sel c n (sel_of arg)) 0 args)) cons) end; |
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
236 |
val sel_defins = if length cons=1 then map (fn arg => pg [](defined(%x_name)==> |
2033 | 237 |
defined(%%(sel_of arg)`%x_name)) [ |
238 |
rtac cases 1, |
|
239 |
contr_tac 1, |
|
240 |
UNTIL_SOLVED (CHANGED(asm_simp_tac |
|
241 |
(HOLCF_ss addsimps sel_apps) 1))]) |
|
242 |
(filter_out is_lazy (snd(hd cons))) else []; |
|
1274 | 243 |
val sel_rews = sel_stricts @ sel_defins @ sel_apps; |
244 |
||
245 |
val distincts_le = let |
|
246 |
fun dist (con1, args1) (con2, args2) = pg [] |
|
2033 | 247 |
(lift_defined % ((nonlazy args1), |
248 |
(mk_trp (con_app con1 args1 ~<< con_app con2 args2))))([ |
|
2445
51993fea433f
removed Holcfb.thy and Holcfb.ML, moving classical3 to HOL.ML as classical2
oheimb
parents:
2276
diff
changeset
|
249 |
rtac rev_contrapos 1, |
2033 | 250 |
eres_inst_tac[("fo",dis_name con1)] monofun_cfun_arg 1] |
251 |
@map(case_UU_tac (con_stricts @ dis_rews)1)(nonlazy args2) |
|
252 |
@[asm_simp_tac (HOLCF_ss addsimps dis_rews) 1]); |
|
1274 | 253 |
fun distinct (con1,args1) (con2,args2) = |
2267 | 254 |
let val arg1 = (con1, args1) |
255 |
val arg2 = (con2, |
|
256 |
ListPair.map (fn (arg,vn) => upd_vname (K vn) arg) |
|
257 |
(args2, variantlist(map vname args2,map vname args1))) |
|
2033 | 258 |
in [dist arg1 arg2, dist arg2 arg1] end; |
1274 | 259 |
fun distincts [] = [] |
260 |
| distincts (c::cs) = (map (distinct c) cs) :: distincts cs; |
|
261 |
in distincts cons end; |
|
262 |
val dists_le = flat (flat distincts_le); |
|
263 |
val dists_eq = let |
|
264 |
fun distinct (_,args1) ((_,args2),leqs) = let |
|
2033 | 265 |
val (le1,le2) = (hd leqs, hd(tl leqs)); |
266 |
val (eq1,eq2) = (le1 RS dist_eqI, le2 RS dist_eqI) in |
|
267 |
if nonlazy args1 = [] then [eq1, eq1 RS not_sym] else |
|
268 |
if nonlazy args2 = [] then [eq2, eq2 RS not_sym] else |
|
269 |
[eq1, eq2] end; |
|
1274 | 270 |
fun distincts [] = [] |
2267 | 271 |
| distincts ((c,leqs)::cs) = List_.concat |
272 |
(ListPair.map (distinct c) ((map #1 cs),leqs)) @ |
|
273 |
distincts cs; |
|
1274 | 274 |
in distincts (cons~~distincts_le) end; |
275 |
||
276 |
local |
|
277 |
fun pgterm rel con args = let |
|
2033 | 278 |
fun append s = upd_vname(fn v => v^s); |
279 |
val (largs,rargs) = (args, map (append "'") args); |
|
280 |
in pg [] (mk_trp (rel(con_app con largs,con_app con rargs)) ===> |
|
281 |
lift_defined % ((nonlazy largs),lift_defined % ((nonlazy rargs), |
|
282 |
mk_trp (foldr' mk_conj |
|
2267 | 283 |
(ListPair.map rel |
284 |
(map %# largs, map %# rargs)))))) end; |
|
1274 | 285 |
val cons' = filter (fn (_,args) => args<>[]) cons; |
286 |
in |
|
287 |
val inverts = map (fn (con,args) => |
|
2033 | 288 |
pgterm (op <<) con args (flat(map (fn arg => [ |
289 |
TRY(rtac conjI 1), |
|
290 |
dres_inst_tac [("fo",sel_of arg)] monofun_cfun_arg 1, |
|
291 |
asm_full_simp_tac (HOLCF_ss addsimps sel_apps) 1] |
|
292 |
) args))) cons'; |
|
1274 | 293 |
val injects = map (fn ((con,args),inv_thm) => |
2033 | 294 |
pgterm (op ===) con args [ |
295 |
etac (antisym_less_inverse RS conjE) 1, |
|
296 |
dtac inv_thm 1, REPEAT(atac 1), |
|
297 |
dtac inv_thm 1, REPEAT(atac 1), |
|
298 |
TRY(safe_tac HOL_cs), |
|
299 |
REPEAT(rtac antisym_less 1 ORELSE atac 1)] ) |
|
300 |
(cons'~~inverts); |
|
1274 | 301 |
end; |
302 |
||
1637
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Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
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changeset
|
303 |
(* ----- theorems concerning one induction step ----------------------------- *) |
1274 | 304 |
|
1637
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Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
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1512
diff
changeset
|
305 |
val copy_strict = pg[ax_copy_def](mk_trp(strict(dc_copy`%"f"))) [ |
2033 | 306 |
asm_simp_tac(HOLCF_ss addsimps [abs_strict, when_strict, |
307 |
cfst_strict,csnd_strict]) 1]; |
|
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
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parents:
1512
diff
changeset
|
308 |
val copy_apps = map (fn (con,args) => pg [ax_copy_def] |
2033 | 309 |
(lift_defined % (nonlazy_rec args, |
310 |
mk_trp(dc_copy`%"f"`(con_app con args) === |
|
311 |
(con_app2 con (app_rec_arg (cproj (%"f") (length eqs))) args)))) |
|
312 |
(map (case_UU_tac (abs_strict::when_strict::con_stricts) |
|
313 |
1 o vname) |
|
314 |
(filter (fn a => not (is_rec a orelse is_lazy a)) args) |
|
315 |
@[asm_simp_tac (HOLCF_ss addsimps when_apps) 1, |
|
316 |
simp_tac (HOLCF_ss addsimps axs_con_def) 1]))cons; |
|
1637
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Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
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parents:
1512
diff
changeset
|
317 |
val copy_stricts = map (fn (con,args) => pg [] (mk_trp(dc_copy`UU` |
2033 | 318 |
(con_app con args) ===UU)) |
1637
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Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
319 |
(let val rews = cfst_strict::csnd_strict::copy_strict::copy_apps@con_rews |
2033 | 320 |
in map (case_UU_tac rews 1) (nonlazy args) @ [ |
321 |
asm_simp_tac (HOLCF_ss addsimps rews) 1] end)) |
|
322 |
(filter (fn (_,args)=>exists is_nonlazy_rec args) cons); |
|
1274 | 323 |
val copy_rews = copy_strict::copy_apps @ copy_stricts; |
324 |
||
325 |
in (iso_rews, exhaust, cases, when_rews, |
|
2033 | 326 |
con_rews, sel_rews, dis_rews, dists_le, dists_eq, inverts, injects, |
327 |
copy_rews) |
|
1274 | 328 |
end; (* let *) |
329 |
||
330 |
||
331 |
fun comp_theorems thy (comp_dname, eqs: eq list, casess, con_rews, copy_rews) = |
|
332 |
let |
|
333 |
||
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
334 |
val dummy = writeln("Proving induction properties of domain "^comp_dname^"..."); |
1274 | 335 |
val pg = pg' thy; |
336 |
||
337 |
val dnames = map (fst o fst) eqs; |
|
338 |
val conss = map snd eqs; |
|
339 |
||
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
340 |
(* ----- getting the composite axiom and definitions ------------------------ *) |
1274 | 341 |
|
342 |
local val ga = get_axiom thy in |
|
343 |
val axs_reach = map (fn dn => ga (dn ^ "_reach" )) dnames; |
|
344 |
val axs_take_def = map (fn dn => ga (dn ^ "_take_def")) dnames; |
|
345 |
val axs_finite_def = map (fn dn => ga (dn ^"_finite_def")) dnames; |
|
346 |
val ax_copy2_def = ga (comp_dname^ "_copy_def"); |
|
347 |
val ax_bisim_def = ga (comp_dname^"_bisim_def"); |
|
348 |
end; (* local *) |
|
349 |
||
350 |
fun dc_take dn = %%(dn^"_take"); |
|
351 |
val x_name = idx_name dnames "x"; |
|
352 |
val P_name = idx_name dnames "P"; |
|
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
353 |
val n_eqs = length eqs; |
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
354 |
|
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
355 |
(* ----- theorems concerning finite approximation and finite induction ------ *) |
1274 | 356 |
|
357 |
local |
|
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
358 |
val iterate_Cprod_ss = simpset_of "Fix" |
2033 | 359 |
addsimps [cfst_strict, csnd_strict]addsimps Cprod_rews; |
1274 | 360 |
val copy_con_rews = copy_rews @ con_rews; |
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
361 |
val copy_take_defs =(if n_eqs = 1 then [] else [ax_copy2_def]) @ axs_take_def; |
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
362 |
val take_stricts=pg copy_take_defs(mk_trp(foldr' mk_conj(map(fn((dn,args),_)=> |
2445
51993fea433f
removed Holcfb.thy and Holcfb.ML, moving classical3 to HOL.ML as classical2
oheimb
parents:
2276
diff
changeset
|
363 |
strict(dc_take dn $ %"n")) eqs)))([ |
2033 | 364 |
nat_ind_tac "n" 1, |
365 |
simp_tac iterate_Cprod_ss 1, |
|
366 |
asm_simp_tac (iterate_Cprod_ss addsimps copy_rews)1]); |
|
1274 | 367 |
val take_stricts' = rewrite_rule copy_take_defs take_stricts; |
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
368 |
val take_0s = mapn(fn n=> fn dn => pg axs_take_def(mk_trp((dc_take dn $ %%"0") |
2033 | 369 |
`%x_name n === UU))[ |
370 |
simp_tac iterate_Cprod_ss 1]) 1 dnames; |
|
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
371 |
val c_UU_tac = case_UU_tac (take_stricts'::copy_con_rews) 1; |
1274 | 372 |
val take_apps = pg copy_take_defs (mk_trp(foldr' mk_conj |
2033 | 373 |
(flat(map (fn ((dn,_),cons) => map (fn (con,args) => foldr mk_all |
374 |
(map vname args,(dc_take dn $ (%%"Suc" $ %"n"))`(con_app con args) === |
|
375 |
con_app2 con (app_rec_arg (fn n=>dc_take (nth_elem(n,dnames))$ %"n")) |
|
376 |
args)) cons) eqs)))) ([ |
|
377 |
simp_tac iterate_Cprod_ss 1, |
|
378 |
nat_ind_tac "n" 1, |
|
379 |
simp_tac(iterate_Cprod_ss addsimps copy_con_rews) 1, |
|
380 |
asm_full_simp_tac (HOLCF_ss addsimps |
|
381 |
(filter (has_fewer_prems 1) copy_rews)) 1, |
|
382 |
TRY(safe_tac HOL_cs)] @ |
|
383 |
(flat(map (fn ((dn,_),cons) => map (fn (con,args) => |
|
384 |
if nonlazy_rec args = [] then all_tac else |
|
385 |
EVERY(map c_UU_tac (nonlazy_rec args)) THEN |
|
386 |
asm_full_simp_tac (HOLCF_ss addsimps copy_rews)1 |
|
387 |
) cons) eqs))); |
|
1274 | 388 |
in |
389 |
val take_rews = atomize take_stricts @ take_0s @ atomize take_apps; |
|
390 |
end; (* local *) |
|
391 |
||
392 |
local |
|
393 |
fun one_con p (con,args) = foldr mk_All (map vname args, |
|
2033 | 394 |
lift_defined (bound_arg (map vname args)) (nonlazy args, |
395 |
lift (fn arg => %(P_name (1+rec_of arg)) $ bound_arg args arg) |
|
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
396 |
(filter is_rec args,mk_trp(%p $ con_app2 con (bound_arg args) args)))); |
1274 | 397 |
fun one_eq ((p,cons),concl) = (mk_trp(%p $ UU) ===> |
2033 | 398 |
foldr (op ===>) (map (one_con p) cons,concl)); |
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
399 |
fun ind_term concf = foldr one_eq (mapn (fn n => fn x => (P_name n, x))1conss, |
2033 | 400 |
mk_trp(foldr' mk_conj (mapn concf 1 dnames))); |
1274 | 401 |
val take_ss = HOL_ss addsimps take_rews; |
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
402 |
fun quant_tac i = EVERY(mapn(fn n=> fn _=> res_inst_tac[("x",x_name n)]spec i) |
2033 | 403 |
1 dnames); |
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
404 |
fun ind_prems_tac prems = EVERY(flat (map (fn cons => ( |
2033 | 405 |
resolve_tac prems 1 :: |
406 |
flat (map (fn (_,args) => |
|
407 |
resolve_tac prems 1 :: |
|
408 |
map (K(atac 1)) (nonlazy args) @ |
|
409 |
map (K(atac 1)) (filter is_rec args)) |
|
410 |
cons))) conss)); |
|
1274 | 411 |
local |
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
412 |
(* check whether every/exists constructor of the n-th part of the equation: |
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
413 |
it has a possibly indirectly recursive argument that isn't/is possibly |
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
414 |
indirectly lazy *) |
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
415 |
fun rec_to quant nfn rfn ns lazy_rec (n,cons) = quant (exists (fn arg => |
2033 | 416 |
is_rec arg andalso not(rec_of arg mem ns) andalso |
417 |
((rec_of arg = n andalso nfn(lazy_rec orelse is_lazy arg)) orelse |
|
418 |
rec_of arg <> n andalso rec_to quant nfn rfn (rec_of arg::ns) |
|
419 |
(lazy_rec orelse is_lazy arg) (n, (nth_elem(rec_of arg,conss)))) |
|
420 |
) o snd) cons; |
|
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
421 |
fun all_rec_to ns = rec_to forall not all_rec_to ns; |
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
422 |
fun warn (n,cons) = if all_rec_to [] false (n,cons) then (writeln |
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
423 |
("WARNING: domain "^nth_elem(n,dnames)^" is empty!"); true) else false; |
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
424 |
fun lazy_rec_to ns = rec_to exists Id lazy_rec_to ns; |
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
425 |
|
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
426 |
in val n__eqs = mapn (fn n => fn (_,cons) => (n,cons)) 0 eqs; |
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
427 |
val is_emptys = map warn n__eqs; |
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
428 |
val is_finite = forall (not o lazy_rec_to [] false) n__eqs; |
1274 | 429 |
end; |
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
430 |
in (* local *) |
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
431 |
val finite_ind = pg'' thy [] (ind_term (fn n => fn dn => %(P_name n)$ |
2033 | 432 |
(dc_take dn $ %"n" `%(x_name n)))) (fn prems => [ |
433 |
quant_tac 1, |
|
2445
51993fea433f
removed Holcfb.thy and Holcfb.ML, moving classical3 to HOL.ML as classical2
oheimb
parents:
2276
diff
changeset
|
434 |
simp_tac HOL_ss 1, |
2033 | 435 |
nat_ind_tac "n" 1, |
436 |
simp_tac (take_ss addsimps prems) 1, |
|
437 |
TRY(safe_tac HOL_cs)] |
|
438 |
@ flat(map (fn (cons,cases) => [ |
|
439 |
res_inst_tac [("x","x")] cases 1, |
|
440 |
asm_simp_tac (take_ss addsimps prems) 1] |
|
441 |
@ flat(map (fn (con,args) => |
|
442 |
asm_simp_tac take_ss 1 :: |
|
443 |
map (fn arg => |
|
444 |
case_UU_tac (prems@con_rews) 1 ( |
|
3044
3e3087aa69e7
Updates because nat_ind_tac no longer appends "1" to the ind.var.
nipkow
parents:
2446
diff
changeset
|
445 |
nth_elem(rec_of arg,dnames)^"_take n`"^vname arg)) |
2033 | 446 |
(filter is_nonlazy_rec args) @ [ |
447 |
resolve_tac prems 1] @ |
|
448 |
map (K (atac 1)) (nonlazy args) @ |
|
449 |
map (K (etac spec 1)) (filter is_rec args)) |
|
450 |
cons)) |
|
451 |
(conss~~casess))); |
|
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
452 |
|
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
453 |
val take_lemmas =mapn(fn n=> fn(dn,ax_reach)=> pg'' thy axs_take_def(mk_All("n", |
2033 | 454 |
mk_trp(dc_take dn $ Bound 0 `%(x_name n) === |
455 |
dc_take dn $ Bound 0 `%(x_name n^"'"))) |
|
456 |
===> mk_trp(%(x_name n) === %(x_name n^"'"))) (fn prems => [ |
|
457 |
res_inst_tac[("t",x_name n )](ax_reach RS subst) 1, |
|
458 |
res_inst_tac[("t",x_name n^"'")](ax_reach RS subst) 1, |
|
459 |
stac fix_def2 1, |
|
460 |
REPEAT(CHANGED(rtac(contlub_cfun_arg RS ssubst)1 |
|
461 |
THEN chain_tac 1)), |
|
462 |
stac contlub_cfun_fun 1, |
|
463 |
stac contlub_cfun_fun 2, |
|
464 |
rtac lub_equal 3, |
|
465 |
chain_tac 1, |
|
466 |
rtac allI 1, |
|
467 |
resolve_tac prems 1])) 1 (dnames~~axs_reach); |
|
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
468 |
|
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
469 |
(* ----- theorems concerning finiteness and induction ----------------------- *) |
1274 | 470 |
|
471 |
val (finites,ind) = if is_finite then |
|
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
472 |
let |
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
473 |
fun take_enough dn = mk_ex ("n",dc_take dn $ Bound 0 ` %"x" === %"x"); |
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
474 |
val finite_lemmas1a = map (fn dn => pg [] (mk_trp(defined (%"x")) ===> |
2033 | 475 |
mk_trp(mk_disj(mk_all("n",dc_take dn $ Bound 0 ` %"x" === UU), |
476 |
take_enough dn)) ===> mk_trp(take_enough dn)) [ |
|
477 |
etac disjE 1, |
|
478 |
etac notE 1, |
|
479 |
resolve_tac take_lemmas 1, |
|
480 |
asm_simp_tac take_ss 1, |
|
481 |
atac 1]) dnames; |
|
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
482 |
val finite_lemma1b = pg [] (mk_trp (mk_all("n",foldr' mk_conj (mapn |
2033 | 483 |
(fn n => fn ((dn,args),_) => mk_constrainall(x_name n,Type(dn,args), |
484 |
mk_disj(dc_take dn $ Bound 1 ` Bound 0 === UU, |
|
485 |
dc_take dn $ Bound 1 ` Bound 0 === Bound 0))) 1 eqs)))) ([ |
|
486 |
rtac allI 1, |
|
487 |
nat_ind_tac "n" 1, |
|
488 |
simp_tac take_ss 1, |
|
489 |
TRY(safe_tac(empty_cs addSEs[conjE] addSIs[conjI]))] @ |
|
490 |
flat(mapn (fn n => fn (cons,cases) => [ |
|
491 |
simp_tac take_ss 1, |
|
492 |
rtac allI 1, |
|
493 |
res_inst_tac [("x",x_name n)] cases 1, |
|
494 |
asm_simp_tac take_ss 1] @ |
|
495 |
flat(map (fn (con,args) => |
|
496 |
asm_simp_tac take_ss 1 :: |
|
497 |
flat(map (fn vn => [ |
|
498 |
eres_inst_tac [("x",vn)] all_dupE 1, |
|
499 |
etac disjE 1, |
|
500 |
asm_simp_tac (HOL_ss addsimps con_rews) 1, |
|
501 |
asm_simp_tac take_ss 1]) |
|
502 |
(nonlazy_rec args))) |
|
503 |
cons)) |
|
2445
51993fea433f
removed Holcfb.thy and Holcfb.ML, moving classical3 to HOL.ML as classical2
oheimb
parents:
2276
diff
changeset
|
504 |
1 (conss~~casess))); |
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
505 |
val finites = map (fn (dn,l1b) => pg axs_finite_def (mk_trp( |
2033 | 506 |
%%(dn^"_finite") $ %"x"))[ |
507 |
case_UU_tac take_rews 1 "x", |
|
508 |
eresolve_tac finite_lemmas1a 1, |
|
509 |
step_tac HOL_cs 1, |
|
510 |
step_tac HOL_cs 1, |
|
511 |
cut_facts_tac [l1b] 1, |
|
512 |
fast_tac HOL_cs 1]) (dnames~~atomize finite_lemma1b); |
|
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
513 |
in |
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
514 |
(finites, |
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
515 |
pg'' thy[](ind_term (fn n => fn dn => %(P_name n) $ %(x_name n)))(fn prems => |
2033 | 516 |
TRY(safe_tac HOL_cs) :: |
517 |
flat (map (fn (finite,fin_ind) => [ |
|
518 |
rtac(rewrite_rule axs_finite_def finite RS exE)1, |
|
519 |
etac subst 1, |
|
520 |
rtac fin_ind 1, |
|
521 |
ind_prems_tac prems]) |
|
522 |
(finites~~(atomize finite_ind)) )) |
|
1274 | 523 |
) end (* let *) else |
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
524 |
(mapn (fn n => fn dn => read_instantiate_sg (sign_of thy) |
2033 | 525 |
[("P",dn^"_finite "^x_name n)] excluded_middle) 1 dnames, |
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
526 |
pg'' thy [] (foldr (op ===>) (mapn (fn n => K(mk_trp(%%"adm" $ %(P_name n)))) |
2033 | 527 |
1 dnames, ind_term (fn n => fn dn => %(P_name n) $ %(x_name n)))) |
528 |
(fn prems => map (fn ax_reach => rtac (ax_reach RS subst) 1) |
|
529 |
axs_reach @ [ |
|
530 |
quant_tac 1, |
|
531 |
rtac (adm_impl_admw RS wfix_ind) 1, |
|
532 |
REPEAT_DETERM(rtac adm_all2 1), |
|
533 |
REPEAT_DETERM(TRY(rtac adm_conj 1) THEN |
|
534 |
rtac adm_subst 1 THEN |
|
535 |
cont_tacR 1 THEN resolve_tac prems 1), |
|
536 |
strip_tac 1, |
|
537 |
rtac (rewrite_rule axs_take_def finite_ind) 1, |
|
538 |
ind_prems_tac prems]) |
|
1274 | 539 |
) |
540 |
end; (* local *) |
|
541 |
||
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
542 |
(* ----- theorem concerning coinduction ------------------------------------- *) |
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
543 |
|
1274 | 544 |
local |
545 |
val xs = mapn (fn n => K (x_name n)) 1 dnames; |
|
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
546 |
fun bnd_arg n i = Bound(2*(n_eqs - n)-i-1); |
1274 | 547 |
val take_ss = HOL_ss addsimps take_rews; |
1637
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
548 |
val sproj = prj (fn s => "fst("^s^")") (fn s => "snd("^s^")"); |
b8a8ae2e5de1
Updated: 01-Mar-96 when functional strictified, copy_def based on when_def
oheimb
parents:
1512
diff
changeset
|
549 |
val coind_lemma=pg[ax_bisim_def](mk_trp(mk_imp(%%(comp_dname^"_bisim") $ %"R", |
2033 | 550 |
foldr (fn (x,t)=> mk_all(x,mk_all(x^"'",t))) (xs, |
551 |
foldr mk_imp (mapn (fn n => K(proj (%"R") n_eqs n $ |
|
552 |
bnd_arg n 0 $ bnd_arg n 1)) 0 dnames, |
|
553 |
foldr' mk_conj (mapn (fn n => fn dn => |
|
554 |
(dc_take dn $ %"n" `bnd_arg n 0 === |
|
555 |
(dc_take dn $ %"n" `bnd_arg n 1)))0 dnames)))))) |
|
556 |
([ rtac impI 1, |
|
557 |
nat_ind_tac "n" 1, |
|
558 |
simp_tac take_ss 1, |
|
559 |
safe_tac HOL_cs] @ |
|
560 |
flat(mapn (fn n => fn x => [ |
|
561 |
rotate_tac (n+1) 1, |
|
562 |
etac all2E 1, |
|
563 |
eres_inst_tac [("P1", sproj "R" n_eqs n^ |
|
564 |
" "^x^" "^x^"'")](mp RS disjE) 1, |
|
565 |
TRY(safe_tac HOL_cs), |
|
566 |
REPEAT(CHANGED(asm_simp_tac take_ss 1))]) |
|
567 |
0 xs)); |
|
1274 | 568 |
in |
569 |
val coind = pg [] (mk_trp(%%(comp_dname^"_bisim") $ %"R") ===> |
|
2033 | 570 |
foldr (op ===>) (mapn (fn n => fn x => |
571 |
mk_trp(proj (%"R") n_eqs n $ %x $ %(x^"'"))) 0 xs, |
|
572 |
mk_trp(foldr' mk_conj (map (fn x => %x === %(x^"'")) xs)))) ([ |
|
573 |
TRY(safe_tac HOL_cs)] @ |
|
574 |
flat(map (fn take_lemma => [ |
|
575 |
rtac take_lemma 1, |
|
576 |
cut_facts_tac [coind_lemma] 1, |
|
577 |
fast_tac HOL_cs 1]) |
|
578 |
take_lemmas)); |
|
1274 | 579 |
end; (* local *) |
580 |
||
581 |
||
582 |
in (take_rews, take_lemmas, finites, finite_ind, ind, coind) |
|
583 |
||
584 |
end; (* let *) |
|
585 |
end; (* local *) |
|
586 |
end; (* struct *) |