| author | wenzelm |
| Wed, 06 Dec 2000 22:08:49 +0100 | |
| changeset 10621 | 3d15596ee644 |
| parent 10375 | d943898cc3a9 |
| child 10785 | 53547a02f2a1 |
| permissions | -rw-r--r-- |
| 9421 | 1 |
(* Title: HOL/Finite.ML |
| 923 | 2 |
ID: $Id$ |
| 1531 | 3 |
Author: Lawrence C Paulson & Tobias Nipkow |
4 |
Copyright 1995 University of Cambridge & TU Muenchen |
|
| 923 | 5 |
|
| 9421 | 6 |
Finite sets and their cardinality. |
| 923 | 7 |
*) |
8 |
||
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Finite.ML Finite.thy: Replaced `finite subset of' by mere `finite'.
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parents:
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changeset
|
9 |
section "finite"; |
| 1531 | 10 |
|
| 923 | 11 |
(*Discharging ~ x:y entails extra work*) |
| 5316 | 12 |
val major::prems = Goal |
|
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Finite.ML Finite.thy: Replaced `finite subset of' by mere `finite'.
nipkow
parents:
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changeset
|
13 |
"[| finite F; P({}); \
|
|
c1f63cc3a768
Finite.ML Finite.thy: Replaced `finite subset of' by mere `finite'.
nipkow
parents:
3389
diff
changeset
|
14 |
\ !!F x. [| finite F; x ~: F; P(F) |] ==> P(insert x F) \ |
| 923 | 15 |
\ |] ==> P(F)"; |
|
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Finite.ML Finite.thy: Replaced `finite subset of' by mere `finite'.
nipkow
parents:
3389
diff
changeset
|
16 |
by (rtac (major RS Finites.induct) 1); |
|
c1f63cc3a768
Finite.ML Finite.thy: Replaced `finite subset of' by mere `finite'.
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parents:
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|
17 |
by (excluded_middle_tac "a:A" 2); |
| 923 | 18 |
by (etac (insert_absorb RS ssubst) 3 THEN assume_tac 3); (*backtracking!*) |
19 |
by (REPEAT (ares_tac prems 1)); |
|
|
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Finite.ML Finite.thy: Replaced `finite subset of' by mere `finite'.
nipkow
parents:
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changeset
|
20 |
qed "finite_induct"; |
|
c1f63cc3a768
Finite.ML Finite.thy: Replaced `finite subset of' by mere `finite'.
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parents:
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|
21 |
|
| 5316 | 22 |
val major::subs::prems = Goal |
|
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Finite.ML Finite.thy: Replaced `finite subset of' by mere `finite'.
nipkow
parents:
3389
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changeset
|
23 |
"[| finite F; F <= A; \ |
|
c1f63cc3a768
Finite.ML Finite.thy: Replaced `finite subset of' by mere `finite'.
nipkow
parents:
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changeset
|
24 |
\ P({}); \
|
|
c1f63cc3a768
Finite.ML Finite.thy: Replaced `finite subset of' by mere `finite'.
nipkow
parents:
3389
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changeset
|
25 |
\ !!F a. [| finite F; a:A; a ~: F; P(F) |] ==> P(insert a F) \ |
|
c1f63cc3a768
Finite.ML Finite.thy: Replaced `finite subset of' by mere `finite'.
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parents:
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changeset
|
26 |
\ |] ==> P(F)"; |
| 4386 | 27 |
by (rtac (subs RS rev_mp) 1); |
28 |
by (rtac (major RS finite_induct) 1); |
|
29 |
by (ALLGOALS (blast_tac (claset() addIs prems))); |
|
|
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parents:
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|
30 |
qed "finite_subset_induct"; |
|
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Finite.ML Finite.thy: Replaced `finite subset of' by mere `finite'.
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parents:
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|
31 |
|
|
c1f63cc3a768
Finite.ML Finite.thy: Replaced `finite subset of' by mere `finite'.
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parents:
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changeset
|
32 |
Addsimps Finites.intrs; |
|
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parents:
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|
33 |
AddSIs Finites.intrs; |
| 923 | 34 |
|
35 |
(*The union of two finite sets is finite*) |
|
| 5316 | 36 |
Goal "[| finite F; finite G |] ==> finite(F Un G)"; |
37 |
by (etac finite_induct 1); |
|
38 |
by (ALLGOALS Asm_simp_tac); |
|
|
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Finite.ML Finite.thy: Replaced `finite subset of' by mere `finite'.
nipkow
parents:
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changeset
|
39 |
qed "finite_UnI"; |
| 923 | 40 |
|
41 |
(*Every subset of a finite set is finite*) |
|
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42 |
Goal "finite B ==> ALL A. A<=B --> finite A"; |
| 4304 | 43 |
by (etac finite_induct 1); |
| 9399 | 44 |
by (ALLGOALS (simp_tac (simpset() addsimps [subset_insert_iff]))); |
45 |
by Safe_tac; |
|
46 |
by (eres_inst_tac [("t","A")] (insert_Diff RS subst) 1);
|
|
47 |
by (ALLGOALS Blast_tac); |
|
| 4304 | 48 |
val lemma = result(); |
49 |
||
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|
50 |
Goal "[| A<=B; finite B |] ==> finite A"; |
| 4423 | 51 |
by (dtac lemma 1); |
| 4304 | 52 |
by (Blast_tac 1); |
|
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nipkow
parents:
3389
diff
changeset
|
53 |
qed "finite_subset"; |
| 923 | 54 |
|
| 5069 | 55 |
Goal "finite(F Un G) = (finite F & finite G)"; |
| 4304 | 56 |
by (blast_tac (claset() |
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|
57 |
addIs [inst "B" "?X Un ?Y" finite_subset, finite_UnI]) 1); |
|
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parents:
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changeset
|
58 |
qed "finite_Un"; |
|
c1f63cc3a768
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|
59 |
AddIffs[finite_Un]; |
| 1531 | 60 |
|
|
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ba33995b87ff
combined finite_Int1/2 as finite_Int. Deleted the awful "lemma" from the
paulson
parents:
8442
diff
changeset
|
61 |
(*The converse obviously fails*) |
|
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parents:
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|
62 |
Goal "finite F | finite G ==> finite(F Int G)"; |
| 5413 | 63 |
by (blast_tac (claset() addIs [finite_subset]) 1); |
|
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parents:
8442
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|
64 |
qed "finite_Int"; |
| 5413 | 65 |
|
|
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paulson
parents:
8442
diff
changeset
|
66 |
Addsimps [finite_Int]; |
|
ba33995b87ff
combined finite_Int1/2 as finite_Int. Deleted the awful "lemma" from the
paulson
parents:
8442
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changeset
|
67 |
AddIs [finite_Int]; |
| 5413 | 68 |
|
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Goal "finite(insert a A) = finite A"; |
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by (stac insert_is_Un 1); |
|
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parents:
3389
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changeset
|
71 |
by (simp_tac (HOL_ss addsimps [finite_Un]) 1); |
|
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changeset
|
72 |
by (Blast_tac 1); |
|
3413
c1f63cc3a768
Finite.ML Finite.thy: Replaced `finite subset of' by mere `finite'.
nipkow
parents:
3389
diff
changeset
|
73 |
qed "finite_insert"; |
|
c1f63cc3a768
Finite.ML Finite.thy: Replaced `finite subset of' by mere `finite'.
nipkow
parents:
3389
diff
changeset
|
74 |
Addsimps[finite_insert]; |
| 1531 | 75 |
|
|
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|
76 |
(*The image of a finite set is finite *) |
|
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|
77 |
Goal "finite F ==> finite(h``F)"; |
|
3413
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nipkow
parents:
3389
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changeset
|
78 |
by (etac finite_induct 1); |
| 1264 | 79 |
by (Simp_tac 1); |
|
3413
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parents:
3389
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changeset
|
80 |
by (Asm_simp_tac 1); |
|
c1f63cc3a768
Finite.ML Finite.thy: Replaced `finite subset of' by mere `finite'.
nipkow
parents:
3389
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changeset
|
81 |
qed "finite_imageI"; |
| 923 | 82 |
|
| 8155 | 83 |
Goal "finite (range g) ==> finite (range (%x. f (g x)))"; |
84 |
by (Simp_tac 1); |
|
85 |
by (etac finite_imageI 1); |
|
86 |
qed "finite_range_imageI"; |
|
87 |
||
| 5316 | 88 |
val major::prems = Goal |
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parents:
3389
diff
changeset
|
89 |
"[| finite c; finite b; \ |
| 1465 | 90 |
\ P(b); \ |
|
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nipkow
parents:
3389
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changeset
|
91 |
\ !!x y. [| finite y; x:y; P(y) |] ==> P(y-{x}) \
|
| 923 | 92 |
\ |] ==> c<=b --> P(b-c)"; |
|
3413
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nipkow
parents:
3389
diff
changeset
|
93 |
by (rtac (major RS finite_induct) 1); |
| 2031 | 94 |
by (stac Diff_insert 2); |
| 923 | 95 |
by (ALLGOALS (asm_simp_tac |
| 5537 | 96 |
(simpset() addsimps prems@[Diff_subset RS finite_subset]))); |
| 1531 | 97 |
val lemma = result(); |
| 923 | 98 |
|
| 5316 | 99 |
val prems = Goal |
|
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nipkow
parents:
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changeset
|
100 |
"[| finite A; \ |
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c1f63cc3a768
Finite.ML Finite.thy: Replaced `finite subset of' by mere `finite'.
nipkow
parents:
3389
diff
changeset
|
101 |
\ P(A); \ |
|
c1f63cc3a768
Finite.ML Finite.thy: Replaced `finite subset of' by mere `finite'.
nipkow
parents:
3389
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changeset
|
102 |
\ !!a A. [| finite A; a:A; P(A) |] ==> P(A-{a}) \
|
| 923 | 103 |
\ |] ==> P({})";
|
104 |
by (rtac (Diff_cancel RS subst) 1); |
|
| 1531 | 105 |
by (rtac (lemma RS mp) 1); |
| 923 | 106 |
by (REPEAT (ares_tac (subset_refl::prems) 1)); |
|
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parents:
3389
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changeset
|
107 |
qed "finite_empty_induct"; |
| 1531 | 108 |
|
109 |
||
| 1618 | 110 |
(* finite B ==> finite (B - Ba) *) |
111 |
bind_thm ("finite_Diff", Diff_subset RS finite_subset);
|
|
| 1531 | 112 |
Addsimps [finite_Diff]; |
113 |
||
| 5626 | 114 |
Goal "finite(A - insert a B) = finite(A-B)"; |
| 6162 | 115 |
by (stac Diff_insert 1); |
| 5626 | 116 |
by (case_tac "a : A-B" 1); |
| 3457 | 117 |
by (rtac (finite_insert RS sym RS trans) 1); |
| 3368 | 118 |
by (stac insert_Diff 1); |
| 5626 | 119 |
by (ALLGOALS Asm_full_simp_tac); |
120 |
qed "finite_Diff_insert"; |
|
121 |
AddIffs [finite_Diff_insert]; |
|
122 |
||
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changeset
|
123 |
(*lemma merely for classical reasoner in the proof below: force_tac can't |
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changeset
|
124 |
prove it.*) |
| 5626 | 125 |
Goal "finite(A-{}) = finite A";
|
126 |
by (Simp_tac 1); |
|
127 |
val lemma = result(); |
|
| 3368 | 128 |
|
| 4059 | 129 |
(*Lemma for proving finite_imageD*) |
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130 |
Goal "finite B ==> ALL A. f``A = B --> inj_on f A --> finite A"; |
| 1553 | 131 |
by (etac finite_induct 1); |
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132 |
by (ALLGOALS Asm_simp_tac); |
| 3708 | 133 |
by (Clarify_tac 1); |
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|
134 |
by (subgoal_tac "EX y:A. f y = x & F = f``(A-{y})" 1);
|
| 3708 | 135 |
by (Clarify_tac 1); |
| 8081 | 136 |
by (full_simp_tac (simpset() addsimps [inj_on_def]) 1); |
|
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diff
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|
137 |
by (blast_tac (claset() addSDs [lemma RS iffD1]) 1); |
| 3368 | 138 |
by (thin_tac "ALL A. ?PP(A)" 1); |
|
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139 |
by (forward_tac [[equalityD2, insertI1] MRS subsetD] 1); |
| 3708 | 140 |
by (Clarify_tac 1); |
| 3368 | 141 |
by (res_inst_tac [("x","xa")] bexI 1);
|
| 4059 | 142 |
by (ALLGOALS |
| 4830 | 143 |
(asm_full_simp_tac (simpset() addsimps [inj_on_image_set_diff]))); |
| 3368 | 144 |
val lemma = result(); |
145 |
||
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diff
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|
146 |
Goal "[| finite(f``A); inj_on f A |] ==> finite A"; |
| 3457 | 147 |
by (dtac lemma 1); |
| 3368 | 148 |
by (Blast_tac 1); |
149 |
qed "finite_imageD"; |
|
150 |
||
| 4014 | 151 |
(** The finite UNION of finite sets **) |
152 |
||
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|
153 |
Goal "finite A ==> (ALL a:A. finite(B a)) --> finite(UN a:A. B a)"; |
| 5316 | 154 |
by (etac finite_induct 1); |
| 4153 | 155 |
by (ALLGOALS Asm_simp_tac); |
|
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|
156 |
bind_thm("finite_UN_I", ballI RSN (2, result() RS mp));
|
|
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|
157 |
|
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|
158 |
(*strengthen RHS to |
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|
159 |
((ALL x:A. finite (B x)) & finite {x. x:A & B x ~= {}}) ?
|
|
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|
160 |
we'd need to prove |
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|
161 |
finite C ==> ALL A B. (UNION A B) <= C --> finite {x. x:A & B x ~= {}}
|
|
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|
162 |
by induction*) |
|
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|
163 |
Goal "finite A ==> finite (UNION A B) = (ALL x:A. finite (B x))"; |
|
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|
164 |
by (blast_tac (claset() addIs [finite_UN_I, finite_subset]) 1); |
|
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|
165 |
qed "finite_UN"; |
|
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|
166 |
Addsimps [finite_UN]; |
| 4014 | 167 |
|
168 |
(** Sigma of finite sets **) |
|
169 |
||
| 5069 | 170 |
Goalw [Sigma_def] |
|
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|
171 |
"[| finite A; ALL a:A. finite(B a) |] ==> finite(SIGMA a:A. B a)"; |
|
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changeset
|
172 |
by (blast_tac (claset() addSIs [finite_UN_I]) 1); |
| 4014 | 173 |
bind_thm("finite_SigmaI", ballI RSN (2,result()));
|
174 |
Addsimps [finite_SigmaI]; |
|
| 3368 | 175 |
|
| 8262 | 176 |
Goal "[| finite (UNIV::'a set); finite (UNIV::'b set)|] ==> finite (UNIV::('a * 'b) set)";
|
177 |
by (subgoal_tac "(UNIV::('a * 'b) set) = Sigma UNIV (%x. UNIV)" 1);
|
|
178 |
by (etac ssubst 1); |
|
179 |
by (etac finite_SigmaI 1); |
|
180 |
by Auto_tac; |
|
181 |
qed "finite_Prod_UNIV"; |
|
182 |
||
183 |
Goal "finite (UNIV :: ('a::finite * 'b::finite) set)";
|
|
| 8320 | 184 |
by (rtac (finite_Prod_UNIV) 1); |
185 |
by (rtac finite 1); |
|
186 |
by (rtac finite 1); |
|
| 8262 | 187 |
qed "finite_Prod"; |
188 |
||
| 9351 | 189 |
Goal "finite (UNIV :: unit set)"; |
190 |
by (subgoal_tac "UNIV = {()}" 1);
|
|
191 |
by (etac ssubst 1); |
|
192 |
by Auto_tac; |
|
193 |
qed "finite_unit"; |
|
194 |
||
| 3368 | 195 |
(** The powerset of a finite set **) |
196 |
||
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|
197 |
Goal "finite(Pow A) ==> finite A"; |
| 3368 | 198 |
by (subgoal_tac "finite ((%x.{x})``A)" 1);
|
| 3457 | 199 |
by (rtac finite_subset 2); |
200 |
by (assume_tac 3); |
|
| 3368 | 201 |
by (ALLGOALS |
| 4830 | 202 |
(fast_tac (claset() addSDs [rewrite_rule [inj_on_def] finite_imageD]))); |
| 3368 | 203 |
val lemma = result(); |
204 |
||
| 5069 | 205 |
Goal "finite(Pow A) = finite A"; |
| 3457 | 206 |
by (rtac iffI 1); |
207 |
by (etac lemma 1); |
|
| 3368 | 208 |
(*Opposite inclusion: finite A ==> finite (Pow A) *) |
| 3340 | 209 |
by (etac finite_induct 1); |
210 |
by (ALLGOALS |
|
211 |
(asm_simp_tac |
|
| 4089 | 212 |
(simpset() addsimps [finite_UnI, finite_imageI, Pow_insert]))); |
| 3368 | 213 |
qed "finite_Pow_iff"; |
214 |
AddIffs [finite_Pow_iff]; |
|
| 3340 | 215 |
|
| 5069 | 216 |
Goal "finite(r^-1) = finite r"; |
| 3457 | 217 |
by (subgoal_tac "r^-1 = (%(x,y).(y,x))``r" 1); |
218 |
by (Asm_simp_tac 1); |
|
219 |
by (rtac iffI 1); |
|
| 4830 | 220 |
by (etac (rewrite_rule [inj_on_def] finite_imageD) 1); |
221 |
by (simp_tac (simpset() addsplits [split_split]) 1); |
|
| 3457 | 222 |
by (etac finite_imageI 1); |
| 4746 | 223 |
by (simp_tac (simpset() addsimps [converse_def,image_def]) 1); |
|
4477
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|
224 |
by Auto_tac; |
| 5516 | 225 |
by (rtac bexI 1); |
226 |
by (assume_tac 2); |
|
| 4763 | 227 |
by (Simp_tac 1); |
| 4746 | 228 |
qed "finite_converse"; |
229 |
AddIffs [finite_converse]; |
|
| 1531 | 230 |
|
|
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setsum is now overloaded on plus_ac0; lemmas about lessThan, etc.
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|
231 |
Goal "finite (lessThan (k::nat))"; |
|
0d4abacae6aa
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|
232 |
by (induct_tac "k" 1); |
|
0d4abacae6aa
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parents:
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changeset
|
233 |
by (simp_tac (simpset() addsimps [lessThan_Suc]) 2); |
|
0d4abacae6aa
setsum is now overloaded on plus_ac0; lemmas about lessThan, etc.
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parents:
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changeset
|
234 |
by Auto_tac; |
|
0d4abacae6aa
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|
235 |
qed "finite_lessThan"; |
|
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parents:
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changeset
|
236 |
|
|
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setsum is now overloaded on plus_ac0; lemmas about lessThan, etc.
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|
237 |
Goal "finite (atMost (k::nat))"; |
|
0d4abacae6aa
setsum is now overloaded on plus_ac0; lemmas about lessThan, etc.
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parents:
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diff
changeset
|
238 |
by (induct_tac "k" 1); |
|
0d4abacae6aa
setsum is now overloaded on plus_ac0; lemmas about lessThan, etc.
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parents:
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diff
changeset
|
239 |
by (simp_tac (simpset() addsimps [atMost_Suc]) 2); |
|
0d4abacae6aa
setsum is now overloaded on plus_ac0; lemmas about lessThan, etc.
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parents:
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diff
changeset
|
240 |
by Auto_tac; |
|
0d4abacae6aa
setsum is now overloaded on plus_ac0; lemmas about lessThan, etc.
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parents:
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changeset
|
241 |
qed "finite_atMost"; |
| 8971 | 242 |
AddIffs [finite_lessThan, finite_atMost]; |
|
8963
0d4abacae6aa
setsum is now overloaded on plus_ac0; lemmas about lessThan, etc.
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parents:
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diff
changeset
|
243 |
|
| 8889 | 244 |
(* A bounded set of natural numbers is finite *) |
|
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diff
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|
245 |
Goal "(ALL i:N. i<(n::nat)) ==> finite N"; |
|
8963
0d4abacae6aa
setsum is now overloaded on plus_ac0; lemmas about lessThan, etc.
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parents:
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diff
changeset
|
246 |
by (rtac finite_subset 1); |
|
0d4abacae6aa
setsum is now overloaded on plus_ac0; lemmas about lessThan, etc.
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parents:
8911
diff
changeset
|
247 |
by (rtac finite_lessThan 2); |
|
0d4abacae6aa
setsum is now overloaded on plus_ac0; lemmas about lessThan, etc.
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parents:
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diff
changeset
|
248 |
by Auto_tac; |
|
0d4abacae6aa
setsum is now overloaded on plus_ac0; lemmas about lessThan, etc.
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parents:
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changeset
|
249 |
qed "bounded_nat_set_is_finite"; |
| 8889 | 250 |
|
251 |
||
| 1548 | 252 |
section "Finite cardinality -- 'card'"; |
| 1531 | 253 |
|
| 9108 | 254 |
bind_thm ("cardR_emptyE", cardR.mk_cases "({},n) : cardR");
|
255 |
bind_thm ("cardR_insertE", cardR.mk_cases "(insert a A,n) : cardR");
|
|
| 1531 | 256 |
|
| 5626 | 257 |
AddSEs [cardR_emptyE]; |
258 |
AddSIs cardR.intrs; |
|
259 |
||
|
9096
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parents:
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changeset
|
260 |
Goal "[| (A,n) : cardR |] ==> a : A --> (EX m. n = Suc m)"; |
| 6162 | 261 |
by (etac cardR.induct 1); |
262 |
by (Blast_tac 1); |
|
263 |
by (Blast_tac 1); |
|
| 5626 | 264 |
qed "cardR_SucD"; |
265 |
||
|
9096
5c4d4364f854
tidied; weakened the (impossible) premises of setsum_UN_disjoint
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parents:
9086
diff
changeset
|
266 |
Goal "(A,m): cardR ==> (ALL n a. m = Suc n --> a:A --> (A-{a},n) : cardR)";
|
| 6162 | 267 |
by (etac cardR.induct 1); |
|
8911
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
268 |
by Auto_tac; |
| 6162 | 269 |
by (asm_simp_tac (simpset() addsimps [insert_Diff_if]) 1); |
|
8911
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
270 |
by Auto_tac; |
| 7499 | 271 |
by (ftac cardR_SucD 1); |
| 6162 | 272 |
by (Blast_tac 1); |
| 5626 | 273 |
val lemma = result(); |
274 |
||
275 |
Goal "[| (insert a A, Suc m) : cardR; a ~: A |] ==> (A,m) : cardR"; |
|
| 6162 | 276 |
by (dtac lemma 1); |
277 |
by (Asm_full_simp_tac 1); |
|
| 5626 | 278 |
val lemma = result(); |
279 |
||
|
9096
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tidied; weakened the (impossible) premises of setsum_UN_disjoint
paulson
parents:
9086
diff
changeset
|
280 |
Goal "(A,m): cardR ==> (ALL n. (A,n) : cardR --> n=m)"; |
| 6162 | 281 |
by (etac cardR.induct 1); |
282 |
by (safe_tac (claset() addSEs [cardR_insertE])); |
|
283 |
by (rename_tac "B b m" 1); |
|
284 |
by (case_tac "a = b" 1); |
|
285 |
by (subgoal_tac "A = B" 1); |
|
286 |
by (blast_tac (claset() addEs [equalityE]) 2); |
|
287 |
by (Blast_tac 1); |
|
|
9096
5c4d4364f854
tidied; weakened the (impossible) premises of setsum_UN_disjoint
paulson
parents:
9086
diff
changeset
|
288 |
by (subgoal_tac "EX C. A = insert b C & B = insert a C" 1); |
| 6162 | 289 |
by (res_inst_tac [("x","A Int B")] exI 2);
|
290 |
by (blast_tac (claset() addEs [equalityE]) 2); |
|
291 |
by (forw_inst_tac [("A","B")] cardR_SucD 1);
|
|
292 |
by (blast_tac (claset() addDs [lemma]) 1); |
|
| 5626 | 293 |
qed_spec_mp "cardR_determ"; |
294 |
||
295 |
Goal "(A,n) : cardR ==> finite(A)"; |
|
296 |
by (etac cardR.induct 1); |
|
297 |
by Auto_tac; |
|
298 |
qed "cardR_imp_finite"; |
|
299 |
||
300 |
Goal "finite(A) ==> EX n. (A, n) : cardR"; |
|
301 |
by (etac finite_induct 1); |
|
302 |
by Auto_tac; |
|
303 |
qed "finite_imp_cardR"; |
|
304 |
||
305 |
Goalw [card_def] "(A,n) : cardR ==> card A = n"; |
|
306 |
by (blast_tac (claset() addIs [cardR_determ]) 1); |
|
307 |
qed "card_equality"; |
|
308 |
||
309 |
Goalw [card_def] "card {} = 0";
|
|
310 |
by (Blast_tac 1); |
|
311 |
qed "card_empty"; |
|
312 |
Addsimps [card_empty]; |
|
313 |
||
314 |
Goal "x ~: A ==> \ |
|
315 |
\ ((insert x A, n) : cardR) = \ |
|
316 |
\ (EX m. (A, m) : cardR & n = Suc m)"; |
|
317 |
by Auto_tac; |
|
318 |
by (res_inst_tac [("A1", "A")] (finite_imp_cardR RS exE) 1);
|
|
319 |
by (force_tac (claset() addDs [cardR_imp_finite], simpset()) 1); |
|
320 |
by (blast_tac (claset() addIs [cardR_determ]) 1); |
|
321 |
val lemma = result(); |
|
322 |
||
323 |
Goalw [card_def] |
|
324 |
"[| finite A; x ~: A |] ==> card (insert x A) = Suc(card A)"; |
|
325 |
by (asm_simp_tac (simpset() addsimps [lemma]) 1); |
|
| 9969 | 326 |
by (rtac some_equality 1); |
| 5626 | 327 |
by (auto_tac (claset() addIs [finite_imp_cardR], |
328 |
simpset() addcongs [conj_cong] |
|
329 |
addsimps [symmetric card_def, |
|
330 |
card_equality])); |
|
331 |
qed "card_insert_disjoint"; |
|
332 |
Addsimps [card_insert_disjoint]; |
|
333 |
||
334 |
(* Delete rules to do with cardR relation: obsolete *) |
|
335 |
Delrules [cardR_emptyE]; |
|
336 |
Delrules cardR.intrs; |
|
337 |
||
| 7958 | 338 |
Goal "finite A ==> (card A = 0) = (A = {})";
|
339 |
by Auto_tac; |
|
340 |
by (dres_inst_tac [("a","x")] mk_disjoint_insert 1);
|
|
341 |
by (Clarify_tac 1); |
|
342 |
by (rotate_tac ~1 1); |
|
343 |
by Auto_tac; |
|
344 |
qed "card_0_eq"; |
|
345 |
Addsimps[card_0_eq]; |
|
346 |
||
| 5626 | 347 |
Goal "finite A ==> card(insert x A) = (if x:A then card A else Suc(card(A)))"; |
348 |
by (asm_simp_tac (simpset() addsimps [insert_absorb]) 1); |
|
349 |
qed "card_insert_if"; |
|
350 |
||
| 7821 | 351 |
Goal "[| finite A; x: A |] ==> Suc (card (A-{x})) = card A";
|
| 5626 | 352 |
by (res_inst_tac [("t", "A")] (insert_Diff RS subst) 1);
|
353 |
by (assume_tac 1); |
|
354 |
by (Asm_simp_tac 1); |
|
355 |
qed "card_Suc_Diff1"; |
|
356 |
||
| 7821 | 357 |
Goal "[| finite A; x: A |] ==> card (A-{x}) = card A - 1";
|
358 |
by (asm_simp_tac (simpset() addsimps [card_Suc_Diff1 RS sym]) 1); |
|
359 |
qed "card_Diff_singleton"; |
|
360 |
||
|
9074
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
361 |
Goal "finite A ==> card (A-{x}) = (if x:A then card A - 1 else card A)";
|
|
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
362 |
by (asm_simp_tac (simpset() addsimps [card_Diff_singleton]) 1); |
|
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
363 |
qed "card_Diff_singleton_if"; |
|
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
364 |
|
| 5626 | 365 |
Goal "finite A ==> card(insert x A) = Suc(card(A-{x}))";
|
366 |
by (asm_simp_tac (simpset() addsimps [card_insert_if,card_Suc_Diff1]) 1); |
|
367 |
qed "card_insert"; |
|
| 3352 | 368 |
|
|
5143
b94cd208f073
Removal of leading "\!\!..." from most Goal commands
paulson
parents:
5069
diff
changeset
|
369 |
Goal "finite A ==> card A <= card (insert x A)"; |
| 5626 | 370 |
by (asm_simp_tac (simpset() addsimps [card_insert_if]) 1); |
|
4768
c342d63173e9
New theorems card_Diff_le and card_insert_le; tidied
paulson
parents:
4763
diff
changeset
|
371 |
qed "card_insert_le"; |
|
c342d63173e9
New theorems card_Diff_le and card_insert_le; tidied
paulson
parents:
4763
diff
changeset
|
372 |
|
|
9074
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
373 |
Goal "finite B ==> ALL A. A <= B --> card B <= card A --> A = B"; |
| 3352 | 374 |
by (etac finite_induct 1); |
| 9338 | 375 |
by (Simp_tac 1); |
| 3708 | 376 |
by (Clarify_tac 1); |
|
9074
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
377 |
by (subgoal_tac "finite A & A-{x} <= F" 1);
|
|
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
378 |
by (blast_tac (claset() addIs [finite_subset]) 2); |
|
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
379 |
by (dres_inst_tac [("x","A-{x}")] spec 1);
|
|
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
380 |
by (asm_full_simp_tac (simpset() addsimps [card_Diff_singleton_if] |
|
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
381 |
addsplits [split_if_asm]) 1); |
|
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
382 |
by (case_tac "card A" 1); |
|
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
383 |
by Auto_tac; |
|
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
384 |
qed_spec_mp "card_seteq"; |
| 3352 | 385 |
|
|
9074
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
386 |
Goalw [psubset_def] "[| finite B; A < B |] ==> card A < card B"; |
|
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
387 |
by (simp_tac (simpset() addsimps [linorder_not_le RS sym]) 1); |
|
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
388 |
by (blast_tac (claset() addDs [card_seteq]) 1); |
|
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
389 |
qed "psubset_card_mono" ; |
|
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
390 |
|
|
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
391 |
Goal "[| finite B; A <= B |] ==> card A <= card B"; |
|
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
392 |
by (case_tac "A=B" 1); |
|
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
393 |
by (Asm_simp_tac 1); |
|
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
394 |
by (simp_tac (simpset() addsimps [linorder_not_less RS sym]) 1); |
|
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
395 |
by (blast_tac (claset() addDs [card_seteq] addIs [order_less_imp_le]) 1); |
|
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
396 |
qed "card_mono" ; |
|
5416
9f029e382b5d
New law card_Un_Int. Removed card_insert from simpset
paulson
parents:
5413
diff
changeset
|
397 |
|
|
9f029e382b5d
New law card_Un_Int. Removed card_insert from simpset
paulson
parents:
5413
diff
changeset
|
398 |
Goal "[| finite A; finite B |] \ |
|
9f029e382b5d
New law card_Un_Int. Removed card_insert from simpset
paulson
parents:
5413
diff
changeset
|
399 |
\ ==> card A + card B = card (A Un B) + card (A Int B)"; |
| 3352 | 400 |
by (etac finite_induct 1); |
|
5416
9f029e382b5d
New law card_Un_Int. Removed card_insert from simpset
paulson
parents:
5413
diff
changeset
|
401 |
by (Simp_tac 1); |
|
9f029e382b5d
New law card_Un_Int. Removed card_insert from simpset
paulson
parents:
5413
diff
changeset
|
402 |
by (asm_simp_tac (simpset() addsimps [insert_absorb, Int_insert_left]) 1); |
|
9f029e382b5d
New law card_Un_Int. Removed card_insert from simpset
paulson
parents:
5413
diff
changeset
|
403 |
qed "card_Un_Int"; |
|
9f029e382b5d
New law card_Un_Int. Removed card_insert from simpset
paulson
parents:
5413
diff
changeset
|
404 |
|
|
9f029e382b5d
New law card_Un_Int. Removed card_insert from simpset
paulson
parents:
5413
diff
changeset
|
405 |
Goal "[| finite A; finite B; A Int B = {} |] \
|
|
9f029e382b5d
New law card_Un_Int. Removed card_insert from simpset
paulson
parents:
5413
diff
changeset
|
406 |
\ ==> card (A Un B) = card A + card B"; |
|
9f029e382b5d
New law card_Un_Int. Removed card_insert from simpset
paulson
parents:
5413
diff
changeset
|
407 |
by (asm_simp_tac (simpset() addsimps [card_Un_Int]) 1); |
|
9f029e382b5d
New law card_Un_Int. Removed card_insert from simpset
paulson
parents:
5413
diff
changeset
|
408 |
qed "card_Un_disjoint"; |
| 3352 | 409 |
|
|
5143
b94cd208f073
Removal of leading "\!\!..." from most Goal commands
paulson
parents:
5069
diff
changeset
|
410 |
Goal "[| finite A; B<=A |] ==> card A - card B = card (A - B)"; |
| 3352 | 411 |
by (subgoal_tac "(A-B) Un B = A" 1); |
412 |
by (Blast_tac 2); |
|
| 3457 | 413 |
by (rtac (add_right_cancel RS iffD1) 1); |
414 |
by (rtac (card_Un_disjoint RS subst) 1); |
|
415 |
by (etac ssubst 4); |
|
| 3352 | 416 |
by (Blast_tac 3); |
417 |
by (ALLGOALS |
|
418 |
(asm_simp_tac |
|
| 4089 | 419 |
(simpset() addsimps [add_commute, not_less_iff_le, |
|
5416
9f029e382b5d
New law card_Un_Int. Removed card_insert from simpset
paulson
parents:
5413
diff
changeset
|
420 |
add_diff_inverse, card_mono, finite_subset]))); |
| 3352 | 421 |
qed "card_Diff_subset"; |
| 1531 | 422 |
|
|
5143
b94cd208f073
Removal of leading "\!\!..." from most Goal commands
paulson
parents:
5069
diff
changeset
|
423 |
Goal "[| finite A; x: A |] ==> card(A-{x}) < card A";
|
| 2031 | 424 |
by (rtac Suc_less_SucD 1); |
| 5626 | 425 |
by (asm_simp_tac (simpset() addsimps [card_Suc_Diff1]) 1); |
426 |
qed "card_Diff1_less"; |
|
| 1618 | 427 |
|
|
10375
d943898cc3a9
new lemma card_Diff2_less for mulilated chess board
paulson
parents:
10098
diff
changeset
|
428 |
Goal "[| finite A; x: A; y: A |] ==> card(A-{x}-{y}) < card A";
|
|
d943898cc3a9
new lemma card_Diff2_less for mulilated chess board
paulson
parents:
10098
diff
changeset
|
429 |
by (case_tac "x=y" 1); |
|
d943898cc3a9
new lemma card_Diff2_less for mulilated chess board
paulson
parents:
10098
diff
changeset
|
430 |
by (asm_simp_tac (simpset() addsimps [card_Diff1_less]) 1); |
|
d943898cc3a9
new lemma card_Diff2_less for mulilated chess board
paulson
parents:
10098
diff
changeset
|
431 |
by (rtac less_trans 1); |
|
d943898cc3a9
new lemma card_Diff2_less for mulilated chess board
paulson
parents:
10098
diff
changeset
|
432 |
by (ALLGOALS (force_tac (claset() addSIs [card_Diff1_less], simpset()))); |
|
d943898cc3a9
new lemma card_Diff2_less for mulilated chess board
paulson
parents:
10098
diff
changeset
|
433 |
qed "card_Diff2_less"; |
|
d943898cc3a9
new lemma card_Diff2_less for mulilated chess board
paulson
parents:
10098
diff
changeset
|
434 |
|
|
5143
b94cd208f073
Removal of leading "\!\!..." from most Goal commands
paulson
parents:
5069
diff
changeset
|
435 |
Goal "finite A ==> card(A-{x}) <= card A";
|
|
4768
c342d63173e9
New theorems card_Diff_le and card_insert_le; tidied
paulson
parents:
4763
diff
changeset
|
436 |
by (case_tac "x: A" 1); |
| 5626 | 437 |
by (ALLGOALS (asm_simp_tac (simpset() addsimps [card_Diff1_less, less_imp_le]))); |
438 |
qed "card_Diff1_le"; |
|
| 1531 | 439 |
|
| 5626 | 440 |
Goal "[| finite B; A <= B; card A < card B |] ==> A < B"; |
441 |
by (etac psubsetI 1); |
|
442 |
by (Blast_tac 1); |
|
443 |
qed "card_psubset"; |
|
444 |
||
445 |
(*** Cardinality of image ***) |
|
446 |
||
447 |
Goal "finite A ==> card (f `` A) <= card A"; |
|
448 |
by (etac finite_induct 1); |
|
|
9074
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
449 |
by (Simp_tac 1); |
|
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
450 |
by (asm_simp_tac (simpset() addsimps [le_SucI, finite_imageI, |
|
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
451 |
card_insert_if]) 1); |
| 5626 | 452 |
qed "card_image_le"; |
453 |
||
454 |
Goal "finite(A) ==> inj_on f A --> card (f `` A) = card A"; |
|
455 |
by (etac finite_induct 1); |
|
456 |
by (ALLGOALS Asm_simp_tac); |
|
457 |
by Safe_tac; |
|
458 |
by (rewtac inj_on_def); |
|
459 |
by (Blast_tac 1); |
|
460 |
by (stac card_insert_disjoint 1); |
|
461 |
by (etac finite_imageI 1); |
|
462 |
by (Blast_tac 1); |
|
463 |
by (Blast_tac 1); |
|
464 |
qed_spec_mp "card_image"; |
|
465 |
||
466 |
Goal "[| finite A; f``A <= A; inj_on f A |] ==> f``A = A"; |
|
|
9074
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
467 |
by (asm_simp_tac (simpset() addsimps [card_seteq, card_image]) 1); |
| 5626 | 468 |
qed "endo_inj_surj"; |
469 |
||
470 |
(*** Cardinality of the Powerset ***) |
|
471 |
||
472 |
Goal "finite A ==> card (Pow A) = 2 ^ card A"; |
|
473 |
by (etac finite_induct 1); |
|
474 |
by (ALLGOALS (asm_simp_tac (simpset() addsimps [Pow_insert]))); |
|
475 |
by (stac card_Un_disjoint 1); |
|
476 |
by (EVERY (map (blast_tac (claset() addIs [finite_imageI])) [3,2,1])); |
|
477 |
by (subgoal_tac "inj_on (insert x) (Pow F)" 1); |
|
478 |
by (asm_simp_tac (simpset() addsimps [card_image, Pow_insert]) 1); |
|
479 |
by (rewtac inj_on_def); |
|
480 |
by (blast_tac (claset() addSEs [equalityE]) 1); |
|
481 |
qed "card_Pow"; |
|
482 |
||
| 3368 | 483 |
|
| 3430 | 484 |
(*Relates to equivalence classes. Based on a theorem of F. Kammueller's. |
| 3368 | 485 |
The "finite C" premise is redundant*) |
|
5143
b94cd208f073
Removal of leading "\!\!..." from most Goal commands
paulson
parents:
5069
diff
changeset
|
486 |
Goal "finite C ==> finite (Union C) --> \ |
|
9096
5c4d4364f854
tidied; weakened the (impossible) premises of setsum_UN_disjoint
paulson
parents:
9086
diff
changeset
|
487 |
\ (ALL c : C. k dvd card c) --> \ |
|
5c4d4364f854
tidied; weakened the (impossible) premises of setsum_UN_disjoint
paulson
parents:
9086
diff
changeset
|
488 |
\ (ALL c1: C. ALL c2: C. c1 ~= c2 --> c1 Int c2 = {}) \
|
| 3368 | 489 |
\ --> k dvd card(Union C)"; |
490 |
by (etac finite_induct 1); |
|
491 |
by (ALLGOALS Asm_simp_tac); |
|
| 3708 | 492 |
by (Clarify_tac 1); |
| 3368 | 493 |
by (stac card_Un_disjoint 1); |
494 |
by (ALLGOALS |
|
| 4089 | 495 |
(asm_full_simp_tac (simpset() |
| 3368 | 496 |
addsimps [dvd_add, disjoint_eq_subset_Compl]))); |
|
9096
5c4d4364f854
tidied; weakened the (impossible) premises of setsum_UN_disjoint
paulson
parents:
9086
diff
changeset
|
497 |
by (thin_tac "ALL c:F. ?PP(c)" 1); |
|
5c4d4364f854
tidied; weakened the (impossible) premises of setsum_UN_disjoint
paulson
parents:
9086
diff
changeset
|
498 |
by (thin_tac "ALL c:F. ?PP(c) & ?QQ(c)" 1); |
| 3708 | 499 |
by (Clarify_tac 1); |
| 3368 | 500 |
by (ball_tac 1); |
501 |
by (Blast_tac 1); |
|
502 |
qed_spec_mp "dvd_partition"; |
|
503 |
||
| 5616 | 504 |
|
505 |
(*** foldSet ***) |
|
506 |
||
| 9108 | 507 |
bind_thm ("empty_foldSetE", foldSet.mk_cases "({}, x) : foldSet f e");
|
| 5616 | 508 |
|
509 |
AddSEs [empty_foldSetE]; |
|
510 |
AddIs foldSet.intrs; |
|
511 |
||
512 |
Goal "[| (A-{x},y) : foldSet f e; x: A |] ==> (A, f x y) : foldSet f e";
|
|
513 |
by (etac (insert_Diff RS subst) 1 THEN resolve_tac foldSet.intrs 1); |
|
514 |
by Auto_tac; |
|
| 5626 | 515 |
qed "Diff1_foldSet"; |
| 5616 | 516 |
|
517 |
Goal "(A, x) : foldSet f e ==> finite(A)"; |
|
518 |
by (eresolve_tac [foldSet.induct] 1); |
|
519 |
by Auto_tac; |
|
520 |
qed "foldSet_imp_finite"; |
|
521 |
||
522 |
Addsimps [foldSet_imp_finite]; |
|
523 |
||
524 |
||
525 |
Goal "finite(A) ==> EX x. (A, x) : foldSet f e"; |
|
526 |
by (etac finite_induct 1); |
|
527 |
by Auto_tac; |
|
528 |
qed "finite_imp_foldSet"; |
|
529 |
||
530 |
||
531 |
Open_locale "LC"; |
|
532 |
||
|
5782
7559f116cb10
locales now implicitly quantify over free variables
paulson
parents:
5626
diff
changeset
|
533 |
val f_lcomm = thm "lcomm"; |
| 5616 | 534 |
|
535 |
||
536 |
Goal "ALL A x. card(A) < n --> (A, x) : foldSet f e --> \ |
|
537 |
\ (ALL y. (A, y) : foldSet f e --> y=x)"; |
|
538 |
by (induct_tac "n" 1); |
|
539 |
by (auto_tac (claset(), simpset() addsimps [less_Suc_eq])); |
|
540 |
by (etac foldSet.elim 1); |
|
541 |
by (Blast_tac 1); |
|
542 |
by (etac foldSet.elim 1); |
|
543 |
by (Blast_tac 1); |
|
544 |
by (Clarify_tac 1); |
|
545 |
(*force simplification of "card A < card (insert ...)"*) |
|
546 |
by (etac rev_mp 1); |
|
547 |
by (asm_simp_tac (simpset() addsimps [less_Suc_eq_le]) 1); |
|
548 |
by (rtac impI 1); |
|
549 |
(** LEVEL 10 **) |
|
550 |
by (rename_tac "Aa xa ya Ab xb yb" 1); |
|
551 |
by (case_tac "xa=xb" 1); |
|
552 |
by (subgoal_tac "Aa = Ab" 1); |
|
| 9837 | 553 |
by (blast_tac (claset() addSEs [equalityE]) 2); |
| 5616 | 554 |
by (Blast_tac 1); |
555 |
(*case xa ~= xb*) |
|
556 |
by (subgoal_tac "Aa-{xb} = Ab-{xa} & xb : Aa & xa : Ab" 1);
|
|
| 9837 | 557 |
by (blast_tac (claset() addSEs [equalityE]) 2); |
| 5616 | 558 |
by (Clarify_tac 1); |
559 |
by (subgoal_tac "Aa = insert xb Ab - {xa}" 1);
|
|
| 9837 | 560 |
by (Blast_tac 2); |
| 5616 | 561 |
(** LEVEL 20 **) |
562 |
by (subgoal_tac "card Aa <= card Ab" 1); |
|
563 |
by (rtac (Suc_le_mono RS subst) 2); |
|
| 5626 | 564 |
by (asm_simp_tac (simpset() addsimps [card_Suc_Diff1]) 2); |
| 5616 | 565 |
by (res_inst_tac [("A1", "Aa-{xb}"), ("f1","f")]
|
566 |
(finite_imp_foldSet RS exE) 1); |
|
567 |
by (blast_tac (claset() addIs [foldSet_imp_finite, finite_Diff]) 1); |
|
| 7499 | 568 |
by (ftac Diff1_foldSet 1 THEN assume_tac 1); |
| 5616 | 569 |
by (subgoal_tac "ya = f xb x" 1); |
| 9837 | 570 |
by (blast_tac (claset() delrules [equalityCE]) 2); |
| 5616 | 571 |
by (subgoal_tac "(Ab - {xa}, x) : foldSet f e" 1);
|
572 |
by (Asm_full_simp_tac 2); |
|
573 |
by (subgoal_tac "yb = f xa x" 1); |
|
| 9837 | 574 |
by (blast_tac (claset() delrules [equalityCE] |
575 |
addDs [Diff1_foldSet]) 2); |
|
| 5616 | 576 |
by (asm_simp_tac (simpset() addsimps [f_lcomm]) 1); |
577 |
val lemma = result(); |
|
578 |
||
579 |
||
580 |
Goal "[| (A, x) : foldSet f e; (A, y) : foldSet f e |] ==> y=x"; |
|
| 9736 | 581 |
by (blast_tac (claset() addIs [rulify lemma]) 1); |
| 5616 | 582 |
qed "foldSet_determ"; |
583 |
||
584 |
Goalw [fold_def] "(A,y) : foldSet f e ==> fold f e A = y"; |
|
585 |
by (blast_tac (claset() addIs [foldSet_determ]) 1); |
|
586 |
qed "fold_equality"; |
|
587 |
||
588 |
Goalw [fold_def] "fold f e {} = e";
|
|
589 |
by (Blast_tac 1); |
|
590 |
qed "fold_empty"; |
|
591 |
Addsimps [fold_empty]; |
|
592 |
||
| 5626 | 593 |
|
| 5616 | 594 |
Goal "x ~: A ==> \ |
595 |
\ ((insert x A, v) : foldSet f e) = \ |
|
596 |
\ (EX y. (A, y) : foldSet f e & v = f x y)"; |
|
597 |
by Auto_tac; |
|
598 |
by (res_inst_tac [("A1", "A"), ("f1","f")] (finite_imp_foldSet RS exE) 1);
|
|
599 |
by (force_tac (claset() addDs [foldSet_imp_finite], simpset()) 1); |
|
600 |
by (blast_tac (claset() addIs [foldSet_determ]) 1); |
|
601 |
val lemma = result(); |
|
602 |
||
603 |
Goalw [fold_def] |
|
604 |
"[| finite A; x ~: A |] ==> fold f e (insert x A) = f x (fold f e A)"; |
|
605 |
by (asm_simp_tac (simpset() addsimps [lemma]) 1); |
|
| 9969 | 606 |
by (rtac some_equality 1); |
| 5616 | 607 |
by (auto_tac (claset() addIs [finite_imp_foldSet], |
608 |
simpset() addcongs [conj_cong] |
|
609 |
addsimps [symmetric fold_def, |
|
610 |
fold_equality])); |
|
611 |
qed "fold_insert"; |
|
612 |
||
|
8911
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
613 |
Goal "finite A ==> ALL e. f x (fold f e A) = fold f (f x e) A"; |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
614 |
by (etac finite_induct 1); |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
615 |
by (Simp_tac 1); |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
616 |
by (asm_simp_tac (simpset() addsimps [f_lcomm, fold_insert]) 1); |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
617 |
qed_spec_mp "fold_commute"; |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
618 |
|
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
619 |
Goal "[| finite A; finite B |] \ |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
620 |
\ ==> fold f (fold f e B) A = fold f (fold f e (A Int B)) (A Un B)"; |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
621 |
by (etac finite_induct 1); |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
622 |
by (Simp_tac 1); |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
623 |
by (asm_simp_tac (simpset() addsimps [fold_insert, fold_commute, |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
624 |
Int_insert_left, insert_absorb]) 1); |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
625 |
qed "fold_nest_Un_Int"; |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
626 |
|
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
627 |
Goal "[| finite A; finite B; A Int B = {} |] \
|
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
628 |
\ ==> fold f e (A Un B) = fold f (fold f e B) A"; |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
629 |
by (asm_simp_tac (simpset() addsimps [fold_nest_Un_Int]) 1); |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
630 |
qed "fold_nest_Un_disjoint"; |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
631 |
|
| 5626 | 632 |
(* Delete rules to do with foldSet relation: obsolete *) |
633 |
Delsimps [foldSet_imp_finite]; |
|
634 |
Delrules [empty_foldSetE]; |
|
635 |
Delrules foldSet.intrs; |
|
636 |
||
| 6024 | 637 |
Close_locale "LC"; |
| 5616 | 638 |
|
639 |
Open_locale "ACe"; |
|
640 |
||
|
8911
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
641 |
(*We enter a more restrictive framework, with f :: ['a,'a] => 'a |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
642 |
instead of ['b,'a] => 'a |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
643 |
At present, none of these results are used!*) |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
644 |
|
|
5782
7559f116cb10
locales now implicitly quantify over free variables
paulson
parents:
5626
diff
changeset
|
645 |
val f_ident = thm "ident"; |
|
7559f116cb10
locales now implicitly quantify over free variables
paulson
parents:
5626
diff
changeset
|
646 |
val f_commute = thm "commute"; |
|
7559f116cb10
locales now implicitly quantify over free variables
paulson
parents:
5626
diff
changeset
|
647 |
val f_assoc = thm "assoc"; |
| 5616 | 648 |
|
649 |
||
650 |
Goal "f x (f y z) = f y (f x z)"; |
|
651 |
by (rtac (f_commute RS trans) 1); |
|
652 |
by (rtac (f_assoc RS trans) 1); |
|
653 |
by (rtac (f_commute RS arg_cong) 1); |
|
654 |
qed "f_left_commute"; |
|
655 |
||
656 |
val f_ac = [f_assoc, f_commute, f_left_commute]; |
|
657 |
||
658 |
Goal "f e x = x"; |
|
659 |
by (stac f_commute 1); |
|
660 |
by (rtac f_ident 1); |
|
661 |
qed "f_left_ident"; |
|
662 |
||
663 |
val f_idents = [f_left_ident, f_ident]; |
|
664 |
||
665 |
Goal "[| finite A; finite B |] \ |
|
666 |
\ ==> f (fold f e A) (fold f e B) = \ |
|
667 |
\ f (fold f e (A Un B)) (fold f e (A Int B))"; |
|
668 |
by (etac finite_induct 1); |
|
669 |
by (simp_tac (simpset() addsimps f_idents) 1); |
|
670 |
by (asm_simp_tac (simpset() addsimps f_ac @ f_idents @ |
|
671 |
[export fold_insert,insert_absorb, Int_insert_left]) 1); |
|
672 |
qed "fold_Un_Int"; |
|
673 |
||
674 |
Goal "[| finite A; finite B; A Int B = {} |] \
|
|
675 |
\ ==> fold f e (A Un B) = f (fold f e A) (fold f e B)"; |
|
676 |
by (asm_simp_tac (simpset() addsimps fold_Un_Int::f_idents) 1); |
|
677 |
qed "fold_Un_disjoint"; |
|
678 |
||
679 |
Goal |
|
680 |
"[| finite A; finite B |] ==> A Int B = {} --> \
|
|
|
9096
5c4d4364f854
tidied; weakened the (impossible) premises of setsum_UN_disjoint
paulson
parents:
9086
diff
changeset
|
681 |
\ fold (f o g) e (A Un B) = f (fold (f o g) e A) (fold (f o g) e B)"; |
| 5616 | 682 |
by (etac finite_induct 1); |
683 |
by (simp_tac (simpset() addsimps f_idents) 1); |
|
684 |
by (asm_full_simp_tac (simpset() addsimps f_ac @ f_idents @ |
|
685 |
[export fold_insert,insert_absorb, Int_insert_left]) 1); |
|
686 |
qed "fold_Un_disjoint2"; |
|
687 |
||
| 6024 | 688 |
Close_locale "ACe"; |
| 5616 | 689 |
|
690 |
||
| 8981 | 691 |
(*** setsum: generalized summation over a set ***) |
| 5616 | 692 |
|
693 |
Goalw [setsum_def] "setsum f {} = 0";
|
|
| 6162 | 694 |
by (Simp_tac 1); |
| 5616 | 695 |
qed "setsum_empty"; |
696 |
Addsimps [setsum_empty]; |
|
697 |
||
698 |
Goalw [setsum_def] |
|
699 |
"[| finite F; a ~: F |] ==> setsum f (insert a F) = f(a) + setsum f F"; |
|
|
8963
0d4abacae6aa
setsum is now overloaded on plus_ac0; lemmas about lessThan, etc.
paulson
parents:
8911
diff
changeset
|
700 |
by (asm_simp_tac (simpset() addsimps [export fold_insert, |
|
0d4abacae6aa
setsum is now overloaded on plus_ac0; lemmas about lessThan, etc.
paulson
parents:
8911
diff
changeset
|
701 |
thm "plus_ac0_left_commute"]) 1); |
| 5616 | 702 |
qed "setsum_insert"; |
703 |
Addsimps [setsum_insert]; |
|
704 |
||
|
9086
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
705 |
Goal "setsum (%i. 0) A = 0"; |
|
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
706 |
by (case_tac "finite A" 1); |
|
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
707 |
by (asm_simp_tac (simpset() addsimps [setsum_def]) 2); |
| 9002 | 708 |
by (etac finite_induct 1); |
709 |
by Auto_tac; |
|
710 |
qed "setsum_0"; |
|
711 |
||
|
9086
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
712 |
Goal "finite F ==> (setsum f F = 0) = (ALL a:F. f a = (0::nat))"; |
| 9002 | 713 |
by (etac finite_induct 1); |
714 |
by Auto_tac; |
|
715 |
qed "setsum_eq_0_iff"; |
|
716 |
Addsimps [setsum_eq_0_iff]; |
|
717 |
||
|
9086
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
718 |
Goal "setsum f A = Suc n ==> EX a:A. 0 < f a"; |
|
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
719 |
by (case_tac "finite A" 1); |
|
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
720 |
by (asm_full_simp_tac (simpset() addsimps [setsum_def]) 2); |
| 9002 | 721 |
by (etac rev_mp 1); |
722 |
by (etac finite_induct 1); |
|
723 |
by Auto_tac; |
|
724 |
qed "setsum_SucD"; |
|
725 |
||
|
8911
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
726 |
(*Could allow many "card" proofs to be simplified*) |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
727 |
Goal "finite A ==> card A = setsum (%x. 1) A"; |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
728 |
by (etac finite_induct 1); |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
729 |
by Auto_tac; |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
730 |
qed "card_eq_setsum"; |
| 5616 | 731 |
|
| 9002 | 732 |
(*The reversed orientation looks more natural, but LOOPS as a simprule!*) |
|
8911
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
733 |
Goal "[| finite A; finite B |] \ |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
734 |
\ ==> setsum g (A Un B) + setsum g (A Int B) = setsum g A + setsum g B"; |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
735 |
by (etac finite_induct 1); |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
736 |
by (Simp_tac 1); |
|
8963
0d4abacae6aa
setsum is now overloaded on plus_ac0; lemmas about lessThan, etc.
paulson
parents:
8911
diff
changeset
|
737 |
by (asm_full_simp_tac (simpset() addsimps (thms "plus_ac0") @ |
|
0d4abacae6aa
setsum is now overloaded on plus_ac0; lemmas about lessThan, etc.
paulson
parents:
8911
diff
changeset
|
738 |
[Int_insert_left, insert_absorb]) 1); |
|
8911
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
739 |
qed "setsum_Un_Int"; |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
740 |
|
| 8981 | 741 |
Goal "[| finite A; finite B; A Int B = {} |] \
|
742 |
\ ==> setsum g (A Un B) = setsum g A + setsum g B"; |
|
743 |
by (stac (setsum_Un_Int RS sym) 1); |
|
744 |
by Auto_tac; |
|
745 |
qed "setsum_Un_disjoint"; |
|
746 |
||
|
9086
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
747 |
Goal "finite I \ |
|
9096
5c4d4364f854
tidied; weakened the (impossible) premises of setsum_UN_disjoint
paulson
parents:
9086
diff
changeset
|
748 |
\ ==> (ALL i:I. finite (A i)) --> \ |
|
5c4d4364f854
tidied; weakened the (impossible) premises of setsum_UN_disjoint
paulson
parents:
9086
diff
changeset
|
749 |
\ (ALL i:I. ALL j:I. i~=j --> A i Int A j = {}) --> \
|
|
5c4d4364f854
tidied; weakened the (impossible) premises of setsum_UN_disjoint
paulson
parents:
9086
diff
changeset
|
750 |
\ setsum f (UNION I A) = setsum (%i. setsum f (A i)) I"; |
| 8981 | 751 |
by (etac finite_induct 1); |
|
9096
5c4d4364f854
tidied; weakened the (impossible) premises of setsum_UN_disjoint
paulson
parents:
9086
diff
changeset
|
752 |
by (Simp_tac 1); |
|
5c4d4364f854
tidied; weakened the (impossible) premises of setsum_UN_disjoint
paulson
parents:
9086
diff
changeset
|
753 |
by (Clarify_tac 1); |
|
5c4d4364f854
tidied; weakened the (impossible) premises of setsum_UN_disjoint
paulson
parents:
9086
diff
changeset
|
754 |
by (subgoal_tac "ALL i:F. x ~= i" 1); |
|
5c4d4364f854
tidied; weakened the (impossible) premises of setsum_UN_disjoint
paulson
parents:
9086
diff
changeset
|
755 |
by (Blast_tac 2); |
|
5c4d4364f854
tidied; weakened the (impossible) premises of setsum_UN_disjoint
paulson
parents:
9086
diff
changeset
|
756 |
by (subgoal_tac "A x Int UNION F A = {}" 1);
|
|
5c4d4364f854
tidied; weakened the (impossible) premises of setsum_UN_disjoint
paulson
parents:
9086
diff
changeset
|
757 |
by (Blast_tac 2); |
| 8981 | 758 |
by (asm_simp_tac (simpset() addsimps [setsum_Un_disjoint]) 1); |
759 |
qed_spec_mp "setsum_UN_disjoint"; |
|
760 |
||
|
9086
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
761 |
Goal "setsum (%x. f x + g x) A = setsum f A + setsum g A"; |
|
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
762 |
by (case_tac "finite A" 1); |
|
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
763 |
by (asm_full_simp_tac (simpset() addsimps [setsum_def]) 2); |
| 8981 | 764 |
by (etac finite_induct 1); |
765 |
by Auto_tac; |
|
766 |
by (simp_tac (simpset() addsimps (thms "plus_ac0")) 1); |
|
767 |
qed "setsum_addf"; |
|
768 |
||
769 |
(** For the natural numbers, we have subtraction **) |
|
770 |
||
|
8911
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
771 |
Goal "[| finite A; finite B |] \ |
|
8963
0d4abacae6aa
setsum is now overloaded on plus_ac0; lemmas about lessThan, etc.
paulson
parents:
8911
diff
changeset
|
772 |
\ ==> (setsum f (A Un B) :: nat) = \ |
|
0d4abacae6aa
setsum is now overloaded on plus_ac0; lemmas about lessThan, etc.
paulson
parents:
8911
diff
changeset
|
773 |
\ setsum f A + setsum f B - setsum f (A Int B)"; |
|
8911
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
774 |
by (stac (setsum_Un_Int RS sym) 1); |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
775 |
by Auto_tac; |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
776 |
qed "setsum_Un"; |
|
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
777 |
|
|
9086
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
778 |
Goal "(setsum f (A-{a}) :: nat) = \
|
|
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
779 |
\ (if a:A then setsum f A - f a else setsum f A)"; |
|
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
780 |
by (case_tac "finite A" 1); |
|
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
781 |
by (asm_full_simp_tac (simpset() addsimps [setsum_def]) 2); |
| 6162 | 782 |
by (etac finite_induct 1); |
783 |
by (auto_tac (claset(), simpset() addsimps [insert_Diff_if])); |
|
784 |
by (dres_inst_tac [("a","a")] mk_disjoint_insert 1);
|
|
|
8911
c35b74bad518
fold_commute, fold_nest_Un_Int, setsum_Un and other new results
paulson
parents:
8889
diff
changeset
|
785 |
by Auto_tac; |
| 5616 | 786 |
qed_spec_mp "setsum_diff1"; |
| 7834 | 787 |
|
|
9086
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
788 |
val prems = Goal |
|
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
789 |
"[| A = B; !!x. x:B ==> f x = g x|] ==> setsum f A = setsum g B"; |
|
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
790 |
by (case_tac "finite B" 1); |
|
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
791 |
by (asm_simp_tac (simpset() addsimps [setsum_def]@prems) 2); |
|
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
792 |
by (simp_tac (simpset() addsimps prems) 1); |
|
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
793 |
by (subgoal_tac |
|
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
794 |
"ALL C. C <= B --> (ALL x:C. f x = g x) --> setsum f C = setsum g C" 1); |
| 9399 | 795 |
by (asm_simp_tac (simpset() addsimps prems) 1); |
|
9086
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
796 |
by (etac finite_induct 1); |
| 9338 | 797 |
by (Simp_tac 1); |
| 9399 | 798 |
by (asm_simp_tac (simpset() addsimps subset_insert_iff::prems) 1); |
|
9086
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
799 |
by (Clarify_tac 1); |
|
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
800 |
by (subgoal_tac "finite C" 1); |
|
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
801 |
by (blast_tac (claset() addDs [rotate_prems 1 finite_subset]) 2); |
|
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
802 |
by (subgoal_tac "C = insert x (C-{x})" 1);
|
|
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
803 |
by (Blast_tac 2); |
|
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
804 |
by (etac ssubst 1); |
|
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
805 |
by (dtac spec 1); |
|
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
806 |
by (mp_tac 1); |
| 9399 | 807 |
by (asm_full_simp_tac (simpset() addsimps Ball_def::prems) 1); |
|
9086
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
808 |
qed "setsum_cong"; |
|
e4592e43e703
now setsum f A = 0 unless A is finite; proved setsum_cong
paulson
parents:
9074
diff
changeset
|
809 |
|
| 7834 | 810 |
|
811 |
(*** Basic theorem about "choose". By Florian Kammueller, tidied by LCP ***) |
|
812 |
||
813 |
Goal "finite A ==> card {B. B <= A & card B = 0} = 1";
|
|
814 |
by (asm_simp_tac (simpset() addcongs [conj_cong] |
|
|
10098
ab0a3188f398
deleted card_0_empty_iff because it is the same as card_0_eq;
paulson
parents:
9969
diff
changeset
|
815 |
addsimps [finite_subset RS card_0_eq]) 1); |
| 7834 | 816 |
by (simp_tac (simpset() addcongs [rev_conj_cong]) 1); |
817 |
qed "card_s_0_eq_empty"; |
|
818 |
||
819 |
Goal "[| finite M; x ~: M |] \ |
|
820 |
\ ==> {s. s <= insert x M & card(s) = Suc k} \
|
|
821 |
\ = {s. s <= M & card(s) = Suc k} Un \
|
|
822 |
\ {s. EX t. t <= M & card(t) = k & s = insert x t}";
|
|
823 |
by Safe_tac; |
|
824 |
by (auto_tac (claset() addIs [finite_subset RS card_insert_disjoint], |
|
825 |
simpset())); |
|
826 |
by (dres_inst_tac [("x","xa - {x}")] spec 1);
|
|
827 |
by (subgoal_tac ("x ~: xa") 1);
|
|
828 |
by Auto_tac; |
|
829 |
by (etac rev_mp 1 THEN stac card_Diff_singleton 1); |
|
| 7958 | 830 |
by (auto_tac (claset() addIs [finite_subset], simpset())); |
| 7834 | 831 |
qed "choose_deconstruct"; |
832 |
||
| 8140 | 833 |
Goal "[| finite(A); finite(B); f``A <= B; inj_on f A |] \ |
| 7834 | 834 |
\ ==> card A <= card B"; |
835 |
by (auto_tac (claset() addIs [card_mono], |
|
| 8140 | 836 |
simpset() addsimps [card_image RS sym])); |
| 7834 | 837 |
qed "card_inj_on_le"; |
838 |
||
839 |
Goal "[| finite A; finite B; \ |
|
| 8140 | 840 |
\ f``A <= B; inj_on f A; g``B <= A; inj_on g B |] \ |
| 7834 | 841 |
\ ==> card(A) = card(B)"; |
842 |
by (auto_tac (claset() addIs [le_anti_sym,card_inj_on_le], simpset())); |
|
843 |
qed "card_bij_eq"; |
|
844 |
||
|
10098
ab0a3188f398
deleted card_0_empty_iff because it is the same as card_0_eq;
paulson
parents:
9969
diff
changeset
|
845 |
Goal "[| finite A; x ~: A |] \ |
|
ab0a3188f398
deleted card_0_empty_iff because it is the same as card_0_eq;
paulson
parents:
9969
diff
changeset
|
846 |
\ ==> card{B. EX C. C <= A & card(C) = k & B = insert x C} = \
|
|
ab0a3188f398
deleted card_0_empty_iff because it is the same as card_0_eq;
paulson
parents:
9969
diff
changeset
|
847 |
\ card {B. B <= A & card(B) = k}";
|
| 8140 | 848 |
by (res_inst_tac [("f", "%s. s - {x}"), ("g","insert x")] card_bij_eq 1);
|
|
10098
ab0a3188f398
deleted card_0_empty_iff because it is the same as card_0_eq;
paulson
parents:
9969
diff
changeset
|
849 |
by (res_inst_tac [("B","Pow(insert x A)")] finite_subset 1);
|
|
ab0a3188f398
deleted card_0_empty_iff because it is the same as card_0_eq;
paulson
parents:
9969
diff
changeset
|
850 |
by (res_inst_tac [("B","Pow(A)")] finite_subset 3);
|
| 8320 | 851 |
by (REPEAT(Fast_tac 1)); |
| 7834 | 852 |
(* arity *) |
| 8140 | 853 |
by (auto_tac (claset() addSEs [equalityE], simpset() addsimps [inj_on_def])); |
| 7834 | 854 |
by (stac Diff_insert0 1); |
855 |
by Auto_tac; |
|
856 |
qed "constr_bij"; |
|
857 |
||
858 |
(* Main theorem: combinatorial theorem about number of subsets of a set *) |
|
|
10098
ab0a3188f398
deleted card_0_empty_iff because it is the same as card_0_eq;
paulson
parents:
9969
diff
changeset
|
859 |
Goal "(ALL A. finite A --> card {B. B <= A & card B = k} = (card A choose k))";
|
| 7834 | 860 |
by (induct_tac "k" 1); |
|
9074
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
861 |
by (simp_tac (simpset() addsimps [card_s_0_eq_empty]) 1); |
| 7834 | 862 |
(* first 0 case finished *) |
|
7842
6858c98385c3
simplified and generalized n_sub_lemma and n_subsets
paulson
parents:
7834
diff
changeset
|
863 |
(* prepare finite set induction *) |
|
6858c98385c3
simplified and generalized n_sub_lemma and n_subsets
paulson
parents:
7834
diff
changeset
|
864 |
by (rtac allI 1 THEN rtac impI 1); |
| 7834 | 865 |
(* second induction *) |
866 |
by (etac finite_induct 1); |
|
|
7842
6858c98385c3
simplified and generalized n_sub_lemma and n_subsets
paulson
parents:
7834
diff
changeset
|
867 |
by (ALLGOALS |
|
9074
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
868 |
(asm_simp_tac (simpset() addcongs [conj_cong] |
|
10098
ab0a3188f398
deleted card_0_empty_iff because it is the same as card_0_eq;
paulson
parents:
9969
diff
changeset
|
869 |
addsimps [card_s_0_eq_empty, choose_deconstruct]))); |
| 7834 | 870 |
by (stac card_Un_disjoint 1); |
|
9074
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
871 |
by (force_tac (claset(), simpset() addsimps [constr_bij]) 4); |
|
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
872 |
by (Force_tac 3); |
|
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
873 |
by (blast_tac (claset() addIs [finite_Pow_iff RS iffD2, |
|
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
874 |
inst "B" "Pow (insert ?x ?F)" finite_subset]) 2); |
|
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
875 |
by (blast_tac (claset() addIs [finite_Pow_iff RS iffD2 |
|
2313ddc415a1
inserted some "addsimps [subset_empty]"; also tidied (a lot)
paulson
parents:
9002
diff
changeset
|
876 |
RSN (2, finite_subset)]) 1); |
| 7834 | 877 |
qed "n_sub_lemma"; |
878 |
||
|
10098
ab0a3188f398
deleted card_0_empty_iff because it is the same as card_0_eq;
paulson
parents:
9969
diff
changeset
|
879 |
Goal "finite A ==> card {B. B <= A & card(B) = k} = ((card A) choose k)";
|
| 7834 | 880 |
by (asm_simp_tac (simpset() addsimps [n_sub_lemma]) 1); |
881 |
qed "n_subsets"; |