| author | wenzelm |
| Mon, 24 Oct 2016 14:05:22 +0200 | |
| changeset 64371 | 213cf4215b40 |
| parent 64272 | f76b6dda2e56 |
| child 66308 | b6a0d95b94be |
| permissions | -rw-r--r-- |
| 58101 | 1 |
(* Author: Tobias Nipkow, TU Muenchen *) |
2 |
||
| 60758 | 3 |
section \<open>Sum and product over lists\<close> |
| 58101 | 4 |
|
5 |
theory Groups_List |
|
6 |
imports List |
|
7 |
begin |
|
8 |
||
| 58320 | 9 |
locale monoid_list = monoid |
10 |
begin |
|
11 |
||
12 |
definition F :: "'a list \<Rightarrow> 'a" |
|
13 |
where |
|
|
63290
9ac558ab0906
boldify syntax in abstract algebraic structures, to avoid clashes with concrete syntax in corresponding type classes
haftmann
parents:
63101
diff
changeset
|
14 |
eq_foldr [code]: "F xs = foldr f xs \<^bold>1" |
| 58320 | 15 |
|
16 |
lemma Nil [simp]: |
|
|
63290
9ac558ab0906
boldify syntax in abstract algebraic structures, to avoid clashes with concrete syntax in corresponding type classes
haftmann
parents:
63101
diff
changeset
|
17 |
"F [] = \<^bold>1" |
| 58320 | 18 |
by (simp add: eq_foldr) |
19 |
||
20 |
lemma Cons [simp]: |
|
|
63290
9ac558ab0906
boldify syntax in abstract algebraic structures, to avoid clashes with concrete syntax in corresponding type classes
haftmann
parents:
63101
diff
changeset
|
21 |
"F (x # xs) = x \<^bold>* F xs" |
| 58320 | 22 |
by (simp add: eq_foldr) |
23 |
||
24 |
lemma append [simp]: |
|
|
63290
9ac558ab0906
boldify syntax in abstract algebraic structures, to avoid clashes with concrete syntax in corresponding type classes
haftmann
parents:
63101
diff
changeset
|
25 |
"F (xs @ ys) = F xs \<^bold>* F ys" |
| 58320 | 26 |
by (induct xs) (simp_all add: assoc) |
27 |
||
28 |
end |
|
| 58101 | 29 |
|
| 58320 | 30 |
locale comm_monoid_list = comm_monoid + monoid_list |
31 |
begin |
|
32 |
||
33 |
lemma rev [simp]: |
|
34 |
"F (rev xs) = F xs" |
|
35 |
by (simp add: eq_foldr foldr_fold fold_rev fun_eq_iff assoc left_commute) |
|
36 |
||
37 |
end |
|
38 |
||
39 |
locale comm_monoid_list_set = list: comm_monoid_list + set: comm_monoid_set |
|
40 |
begin |
|
| 58101 | 41 |
|
| 58320 | 42 |
lemma distinct_set_conv_list: |
43 |
"distinct xs \<Longrightarrow> set.F g (set xs) = list.F (map g xs)" |
|
44 |
by (induct xs) simp_all |
|
| 58101 | 45 |
|
| 58320 | 46 |
lemma set_conv_list [code]: |
47 |
"set.F g (set xs) = list.F (map g (remdups xs))" |
|
48 |
by (simp add: distinct_set_conv_list [symmetric]) |
|
49 |
||
50 |
end |
|
51 |
||
52 |
||
| 60758 | 53 |
subsection \<open>List summation\<close> |
| 58320 | 54 |
|
55 |
context monoid_add |
|
56 |
begin |
|
57 |
||
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
58 |
sublocale sum_list: monoid_list plus 0 |
| 61776 | 59 |
defines |
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
60 |
sum_list = sum_list.F .. |
| 58320 | 61 |
|
62 |
end |
|
63 |
||
64 |
context comm_monoid_add |
|
65 |
begin |
|
66 |
||
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
67 |
sublocale sum_list: comm_monoid_list plus 0 |
|
61566
c3d6e570ccef
Keyword 'rewrites' identifies rewrite morphisms.
ballarin
parents:
61378
diff
changeset
|
68 |
rewrites |
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
69 |
"monoid_list.F plus 0 = sum_list" |
| 58320 | 70 |
proof - |
71 |
show "comm_monoid_list plus 0" .. |
|
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
72 |
then interpret sum_list: comm_monoid_list plus 0 . |
|
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
73 |
from sum_list_def show "monoid_list.F plus 0 = sum_list" by simp |
| 58101 | 74 |
qed |
75 |
||
| 64267 | 76 |
sublocale sum: comm_monoid_list_set plus 0 |
|
61566
c3d6e570ccef
Keyword 'rewrites' identifies rewrite morphisms.
ballarin
parents:
61378
diff
changeset
|
77 |
rewrites |
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
78 |
"monoid_list.F plus 0 = sum_list" |
| 64267 | 79 |
and "comm_monoid_set.F plus 0 = sum" |
| 58320 | 80 |
proof - |
81 |
show "comm_monoid_list_set plus 0" .. |
|
| 64267 | 82 |
then interpret sum: comm_monoid_list_set plus 0 . |
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
83 |
from sum_list_def show "monoid_list.F plus 0 = sum_list" by simp |
| 64267 | 84 |
from sum_def show "comm_monoid_set.F plus 0 = sum" by (auto intro: sym) |
| 58320 | 85 |
qed |
86 |
||
87 |
end |
|
88 |
||
| 60758 | 89 |
text \<open>Some syntactic sugar for summing a function over a list:\<close> |
|
61955
e96292f32c3c
former "xsymbols" syntax is used by default, and ASCII replacement syntax with print mode "ASCII";
wenzelm
parents:
61799
diff
changeset
|
90 |
syntax (ASCII) |
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
91 |
"_sum_list" :: "pttrn => 'a list => 'b => 'b" ("(3SUM _<-_. _)" [0, 51, 10] 10)
|
| 58101 | 92 |
syntax |
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
93 |
"_sum_list" :: "pttrn => 'a list => 'b => 'b" ("(3\<Sum>_\<leftarrow>_. _)" [0, 51, 10] 10)
|
| 61799 | 94 |
translations \<comment> \<open>Beware of argument permutation!\<close> |
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
95 |
"\<Sum>x\<leftarrow>xs. b" == "CONST sum_list (CONST map (\<lambda>x. b) xs)" |
| 58101 | 96 |
|
| 60758 | 97 |
text \<open>TODO duplicates\<close> |
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
98 |
lemmas sum_list_simps = sum_list.Nil sum_list.Cons |
|
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
99 |
lemmas sum_list_append = sum_list.append |
|
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
100 |
lemmas sum_list_rev = sum_list.rev |
| 58320 | 101 |
|
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
102 |
lemma (in monoid_add) fold_plus_sum_list_rev: |
|
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
103 |
"fold plus xs = plus (sum_list (rev xs))" |
| 58320 | 104 |
proof |
105 |
fix x |
|
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
106 |
have "fold plus xs x = sum_list (rev xs @ [x])" |
|
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
107 |
by (simp add: foldr_conv_fold sum_list.eq_foldr) |
|
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
108 |
also have "\<dots> = sum_list (rev xs) + x" |
| 58320 | 109 |
by simp |
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
110 |
finally show "fold plus xs x = sum_list (rev xs) + x" |
| 58320 | 111 |
. |
112 |
qed |
|
113 |
||
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
114 |
lemma (in comm_monoid_add) sum_list_map_remove1: |
|
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
115 |
"x \<in> set xs \<Longrightarrow> sum_list (map f xs) = f x + sum_list (map f (remove1 x xs))" |
| 58101 | 116 |
by (induct xs) (auto simp add: ac_simps) |
117 |
||
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
118 |
lemma (in monoid_add) size_list_conv_sum_list: |
|
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
119 |
"size_list f xs = sum_list (map f xs) + size xs" |
| 58101 | 120 |
by (induct xs) auto |
121 |
||
122 |
lemma (in monoid_add) length_concat: |
|
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
123 |
"length (concat xss) = sum_list (map length xss)" |
| 58101 | 124 |
by (induct xss) simp_all |
125 |
||
126 |
lemma (in monoid_add) length_product_lists: |
|
127 |
"length (product_lists xss) = foldr op * (map length xss) 1" |
|
128 |
proof (induct xss) |
|
129 |
case (Cons xs xss) then show ?case by (induct xs) (auto simp: length_concat o_def) |
|
130 |
qed simp |
|
131 |
||
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
132 |
lemma (in monoid_add) sum_list_map_filter: |
| 58101 | 133 |
assumes "\<And>x. x \<in> set xs \<Longrightarrow> \<not> P x \<Longrightarrow> f x = 0" |
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
134 |
shows "sum_list (map f (filter P xs)) = sum_list (map f xs)" |
| 58101 | 135 |
using assms by (induct xs) auto |
136 |
||
| 64267 | 137 |
lemma (in comm_monoid_add) distinct_sum_list_conv_Sum: |
138 |
"distinct xs \<Longrightarrow> sum_list xs = Sum (set xs)" |
|
| 58101 | 139 |
by (induct xs) simp_all |
140 |
||
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
141 |
lemma sum_list_upt[simp]: |
|
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
142 |
"m \<le> n \<Longrightarrow> sum_list [m..<n] = \<Sum> {m..<n}"
|
| 64267 | 143 |
by(simp add: distinct_sum_list_conv_Sum) |
| 58995 | 144 |
|
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
145 |
lemma sum_list_eq_0_nat_iff_nat [simp]: |
|
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
146 |
"sum_list ns = (0::nat) \<longleftrightarrow> (\<forall>n \<in> set ns. n = 0)" |
| 58101 | 147 |
by (induct ns) simp_all |
148 |
||
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
149 |
lemma member_le_sum_list_nat: |
|
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
150 |
"(n :: nat) \<in> set ns \<Longrightarrow> n \<le> sum_list ns" |
| 58101 | 151 |
by (induct ns) auto |
152 |
||
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
153 |
lemma elem_le_sum_list_nat: |
|
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
154 |
"k < size ns \<Longrightarrow> ns ! k \<le> sum_list (ns::nat list)" |
|
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
155 |
by (rule member_le_sum_list_nat) simp |
| 58101 | 156 |
|
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
157 |
lemma sum_list_update_nat: |
|
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
158 |
"k < size ns \<Longrightarrow> sum_list (ns[k := (n::nat)]) = sum_list ns + n - ns ! k" |
| 58101 | 159 |
apply(induct ns arbitrary:k) |
160 |
apply (auto split:nat.split) |
|
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
161 |
apply(drule elem_le_sum_list_nat) |
| 58101 | 162 |
apply arith |
163 |
done |
|
164 |
||
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
165 |
lemma (in monoid_add) sum_list_triv: |
| 58101 | 166 |
"(\<Sum>x\<leftarrow>xs. r) = of_nat (length xs) * r" |
167 |
by (induct xs) (simp_all add: distrib_right) |
|
168 |
||
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
169 |
lemma (in monoid_add) sum_list_0 [simp]: |
| 58101 | 170 |
"(\<Sum>x\<leftarrow>xs. 0) = 0" |
171 |
by (induct xs) (simp_all add: distrib_right) |
|
172 |
||
| 61799 | 173 |
text\<open>For non-Abelian groups \<open>xs\<close> needs to be reversed on one side:\<close> |
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
174 |
lemma (in ab_group_add) uminus_sum_list_map: |
|
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
175 |
"- sum_list (map f xs) = sum_list (map (uminus \<circ> f) xs)" |
| 58101 | 176 |
by (induct xs) simp_all |
177 |
||
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
178 |
lemma (in comm_monoid_add) sum_list_addf: |
|
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
179 |
"(\<Sum>x\<leftarrow>xs. f x + g x) = sum_list (map f xs) + sum_list (map g xs)" |
| 58101 | 180 |
by (induct xs) (simp_all add: algebra_simps) |
181 |
||
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
182 |
lemma (in ab_group_add) sum_list_subtractf: |
|
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
183 |
"(\<Sum>x\<leftarrow>xs. f x - g x) = sum_list (map f xs) - sum_list (map g xs)" |
| 58101 | 184 |
by (induct xs) (simp_all add: algebra_simps) |
185 |
||
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
186 |
lemma (in semiring_0) sum_list_const_mult: |
| 58101 | 187 |
"(\<Sum>x\<leftarrow>xs. c * f x) = c * (\<Sum>x\<leftarrow>xs. f x)" |
188 |
by (induct xs) (simp_all add: algebra_simps) |
|
189 |
||
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
190 |
lemma (in semiring_0) sum_list_mult_const: |
| 58101 | 191 |
"(\<Sum>x\<leftarrow>xs. f x * c) = (\<Sum>x\<leftarrow>xs. f x) * c" |
192 |
by (induct xs) (simp_all add: algebra_simps) |
|
193 |
||
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
194 |
lemma (in ordered_ab_group_add_abs) sum_list_abs: |
|
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
195 |
"\<bar>sum_list xs\<bar> \<le> sum_list (map abs xs)" |
| 58101 | 196 |
by (induct xs) (simp_all add: order_trans [OF abs_triangle_ineq]) |
197 |
||
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
198 |
lemma sum_list_mono: |
| 58101 | 199 |
fixes f g :: "'a \<Rightarrow> 'b::{monoid_add, ordered_ab_semigroup_add}"
|
200 |
shows "(\<And>x. x \<in> set xs \<Longrightarrow> f x \<le> g x) \<Longrightarrow> (\<Sum>x\<leftarrow>xs. f x) \<le> (\<Sum>x\<leftarrow>xs. g x)" |
|
201 |
by (induct xs) (simp, simp add: add_mono) |
|
202 |
||
| 64267 | 203 |
lemma (in monoid_add) sum_list_distinct_conv_sum_set: |
204 |
"distinct xs \<Longrightarrow> sum_list (map f xs) = sum f (set xs)" |
|
| 58101 | 205 |
by (induct xs) simp_all |
206 |
||
| 64267 | 207 |
lemma (in monoid_add) interv_sum_list_conv_sum_set_nat: |
208 |
"sum_list (map f [m..<n]) = sum f (set [m..<n])" |
|
209 |
by (simp add: sum_list_distinct_conv_sum_set) |
|
| 58101 | 210 |
|
| 64267 | 211 |
lemma (in monoid_add) interv_sum_list_conv_sum_set_int: |
212 |
"sum_list (map f [k..l]) = sum f (set [k..l])" |
|
213 |
by (simp add: sum_list_distinct_conv_sum_set) |
|
| 58101 | 214 |
|
| 64267 | 215 |
text \<open>General equivalence between @{const sum_list} and @{const sum}\<close>
|
216 |
lemma (in monoid_add) sum_list_sum_nth: |
|
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
217 |
"sum_list xs = (\<Sum> i = 0 ..< length xs. xs ! i)" |
| 64267 | 218 |
using interv_sum_list_conv_sum_set_nat [of "op ! xs" 0 "length xs"] by (simp add: map_nth) |
| 58101 | 219 |
|
| 64267 | 220 |
lemma sum_list_map_eq_sum_count: |
221 |
"sum_list (map f xs) = sum (\<lambda>x. count_list xs x * f x) (set xs)" |
|
| 59728 | 222 |
proof(induction xs) |
223 |
case (Cons x xs) |
|
224 |
show ?case (is "?l = ?r") |
|
225 |
proof cases |
|
226 |
assume "x \<in> set xs" |
|
| 60541 | 227 |
have "?l = f x + (\<Sum>x\<in>set xs. count_list xs x * f x)" by (simp add: Cons.IH) |
| 60758 | 228 |
also have "set xs = insert x (set xs - {x})" using \<open>x \<in> set xs\<close>by blast
|
| 60541 | 229 |
also have "f x + (\<Sum>x\<in>insert x (set xs - {x}). count_list xs x * f x) = ?r"
|
| 64267 | 230 |
by (simp add: sum.insert_remove eq_commute) |
| 59728 | 231 |
finally show ?thesis . |
232 |
next |
|
233 |
assume "x \<notin> set xs" |
|
234 |
hence "\<And>xa. xa \<in> set xs \<Longrightarrow> x \<noteq> xa" by blast |
|
| 60758 | 235 |
thus ?thesis by (simp add: Cons.IH \<open>x \<notin> set xs\<close>) |
| 59728 | 236 |
qed |
237 |
qed simp |
|
238 |
||
| 64267 | 239 |
lemma sum_list_map_eq_sum_count2: |
| 59728 | 240 |
assumes "set xs \<subseteq> X" "finite X" |
| 64267 | 241 |
shows "sum_list (map f xs) = sum (\<lambda>x. count_list xs x * f x) X" |
| 59728 | 242 |
proof- |
| 60541 | 243 |
let ?F = "\<lambda>x. count_list xs x * f x" |
| 64267 | 244 |
have "sum ?F X = sum ?F (set xs \<union> (X - set xs))" |
| 59728 | 245 |
using Un_absorb1[OF assms(1)] by(simp) |
| 64267 | 246 |
also have "\<dots> = sum ?F (set xs)" |
| 59728 | 247 |
using assms(2) |
| 64267 | 248 |
by(simp add: sum.union_disjoint[OF _ _ Diff_disjoint] del: Un_Diff_cancel) |
249 |
finally show ?thesis by(simp add:sum_list_map_eq_sum_count) |
|
| 59728 | 250 |
qed |
251 |
||
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
252 |
lemma sum_list_nonneg: |
|
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
253 |
"(\<And>x. x \<in> set xs \<Longrightarrow> (x :: 'a :: ordered_comm_monoid_add) \<ge> 0) \<Longrightarrow> sum_list xs \<ge> 0" |
|
63099
af0e964aad7b
Moved material from AFP/Randomised_Social_Choice to distribution
eberlm
parents:
61955
diff
changeset
|
254 |
by (induction xs) simp_all |
|
af0e964aad7b
Moved material from AFP/Randomised_Social_Choice to distribution
eberlm
parents:
61955
diff
changeset
|
255 |
|
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
256 |
lemma (in monoid_add) sum_list_map_filter': |
|
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
257 |
"sum_list (map f (filter P xs)) = sum_list (map (\<lambda>x. if P x then f x else 0) xs)" |
|
63099
af0e964aad7b
Moved material from AFP/Randomised_Social_Choice to distribution
eberlm
parents:
61955
diff
changeset
|
258 |
by (induction xs) simp_all |
|
af0e964aad7b
Moved material from AFP/Randomised_Social_Choice to distribution
eberlm
parents:
61955
diff
changeset
|
259 |
|
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
260 |
lemma sum_list_cong [fundef_cong]: |
|
63099
af0e964aad7b
Moved material from AFP/Randomised_Social_Choice to distribution
eberlm
parents:
61955
diff
changeset
|
261 |
assumes "xs = ys" |
|
af0e964aad7b
Moved material from AFP/Randomised_Social_Choice to distribution
eberlm
parents:
61955
diff
changeset
|
262 |
assumes "\<And>x. x \<in> set xs \<Longrightarrow> f x = g x" |
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
263 |
shows "sum_list (map f xs) = sum_list (map g ys)" |
|
63099
af0e964aad7b
Moved material from AFP/Randomised_Social_Choice to distribution
eberlm
parents:
61955
diff
changeset
|
264 |
proof - |
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
265 |
from assms(2) have "sum_list (map f xs) = sum_list (map g xs)" |
|
63099
af0e964aad7b
Moved material from AFP/Randomised_Social_Choice to distribution
eberlm
parents:
61955
diff
changeset
|
266 |
by (induction xs) simp_all |
|
af0e964aad7b
Moved material from AFP/Randomised_Social_Choice to distribution
eberlm
parents:
61955
diff
changeset
|
267 |
with assms(1) show ?thesis by simp |
|
af0e964aad7b
Moved material from AFP/Randomised_Social_Choice to distribution
eberlm
parents:
61955
diff
changeset
|
268 |
qed |
|
af0e964aad7b
Moved material from AFP/Randomised_Social_Choice to distribution
eberlm
parents:
61955
diff
changeset
|
269 |
|
| 58101 | 270 |
|
| 60758 | 271 |
subsection \<open>Further facts about @{const List.n_lists}\<close>
|
| 58101 | 272 |
|
273 |
lemma length_n_lists: "length (List.n_lists n xs) = length xs ^ n" |
|
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
274 |
by (induct n) (auto simp add: comp_def length_concat sum_list_triv) |
| 58101 | 275 |
|
276 |
lemma distinct_n_lists: |
|
277 |
assumes "distinct xs" |
|
278 |
shows "distinct (List.n_lists n xs)" |
|
279 |
proof (rule card_distinct) |
|
280 |
from assms have card_length: "card (set xs) = length xs" by (rule distinct_card) |
|
281 |
have "card (set (List.n_lists n xs)) = card (set xs) ^ n" |
|
282 |
proof (induct n) |
|
283 |
case 0 then show ?case by simp |
|
284 |
next |
|
285 |
case (Suc n) |
|
286 |
moreover have "card (\<Union>ys\<in>set (List.n_lists n xs). (\<lambda>y. y # ys) ` set xs) |
|
287 |
= (\<Sum>ys\<in>set (List.n_lists n xs). card ((\<lambda>y. y # ys) ` set xs))" |
|
288 |
by (rule card_UN_disjoint) auto |
|
289 |
moreover have "\<And>ys. card ((\<lambda>y. y # ys) ` set xs) = card (set xs)" |
|
290 |
by (rule card_image) (simp add: inj_on_def) |
|
291 |
ultimately show ?case by auto |
|
292 |
qed |
|
293 |
also have "\<dots> = length xs ^ n" by (simp add: card_length) |
|
294 |
finally show "card (set (List.n_lists n xs)) = length (List.n_lists n xs)" |
|
295 |
by (simp add: length_n_lists) |
|
296 |
qed |
|
297 |
||
298 |
||
| 60758 | 299 |
subsection \<open>Tools setup\<close> |
| 58101 | 300 |
|
| 64267 | 301 |
lemmas sum_code = sum.set_conv_list |
| 58320 | 302 |
|
| 64267 | 303 |
lemma sum_set_upto_conv_sum_list_int [code_unfold]: |
304 |
"sum f (set [i..j::int]) = sum_list (map f [i..j])" |
|
305 |
by (simp add: interv_sum_list_conv_sum_set_int) |
|
| 58101 | 306 |
|
| 64267 | 307 |
lemma sum_set_upt_conv_sum_list_nat [code_unfold]: |
308 |
"sum f (set [m..<n]) = sum_list (map f [m..<n])" |
|
309 |
by (simp add: interv_sum_list_conv_sum_set_nat) |
|
| 58101 | 310 |
|
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
311 |
lemma sum_list_transfer[transfer_rule]: |
| 63343 | 312 |
includes lifting_syntax |
| 58101 | 313 |
assumes [transfer_rule]: "A 0 0" |
314 |
assumes [transfer_rule]: "(A ===> A ===> A) op + op +" |
|
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
315 |
shows "(list_all2 A ===> A) sum_list sum_list" |
|
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
316 |
unfolding sum_list.eq_foldr [abs_def] |
| 58101 | 317 |
by transfer_prover |
318 |
||
| 58368 | 319 |
|
| 60758 | 320 |
subsection \<open>List product\<close> |
| 58368 | 321 |
|
322 |
context monoid_mult |
|
323 |
begin |
|
324 |
||
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
325 |
sublocale prod_list: monoid_list times 1 |
| 61776 | 326 |
defines |
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
327 |
prod_list = prod_list.F .. |
| 58368 | 328 |
|
| 58320 | 329 |
end |
| 58368 | 330 |
|
331 |
context comm_monoid_mult |
|
332 |
begin |
|
333 |
||
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
334 |
sublocale prod_list: comm_monoid_list times 1 |
|
61566
c3d6e570ccef
Keyword 'rewrites' identifies rewrite morphisms.
ballarin
parents:
61378
diff
changeset
|
335 |
rewrites |
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
336 |
"monoid_list.F times 1 = prod_list" |
| 58368 | 337 |
proof - |
338 |
show "comm_monoid_list times 1" .. |
|
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
339 |
then interpret prod_list: comm_monoid_list times 1 . |
|
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
340 |
from prod_list_def show "monoid_list.F times 1 = prod_list" by simp |
| 58368 | 341 |
qed |
342 |
||
| 64272 | 343 |
sublocale prod: comm_monoid_list_set times 1 |
|
61566
c3d6e570ccef
Keyword 'rewrites' identifies rewrite morphisms.
ballarin
parents:
61378
diff
changeset
|
344 |
rewrites |
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
345 |
"monoid_list.F times 1 = prod_list" |
| 64272 | 346 |
and "comm_monoid_set.F times 1 = prod" |
| 58368 | 347 |
proof - |
348 |
show "comm_monoid_list_set times 1" .. |
|
| 64272 | 349 |
then interpret prod: comm_monoid_list_set times 1 . |
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
350 |
from prod_list_def show "monoid_list.F times 1 = prod_list" by simp |
| 64272 | 351 |
from prod_def show "comm_monoid_set.F times 1 = prod" by (auto intro: sym) |
| 58368 | 352 |
qed |
353 |
||
354 |
end |
|
355 |
||
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
356 |
lemma prod_list_cong [fundef_cong]: |
|
63099
af0e964aad7b
Moved material from AFP/Randomised_Social_Choice to distribution
eberlm
parents:
61955
diff
changeset
|
357 |
assumes "xs = ys" |
|
af0e964aad7b
Moved material from AFP/Randomised_Social_Choice to distribution
eberlm
parents:
61955
diff
changeset
|
358 |
assumes "\<And>x. x \<in> set xs \<Longrightarrow> f x = g x" |
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
359 |
shows "prod_list (map f xs) = prod_list (map g ys)" |
|
63099
af0e964aad7b
Moved material from AFP/Randomised_Social_Choice to distribution
eberlm
parents:
61955
diff
changeset
|
360 |
proof - |
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
361 |
from assms(2) have "prod_list (map f xs) = prod_list (map g xs)" |
|
63099
af0e964aad7b
Moved material from AFP/Randomised_Social_Choice to distribution
eberlm
parents:
61955
diff
changeset
|
362 |
by (induction xs) simp_all |
|
af0e964aad7b
Moved material from AFP/Randomised_Social_Choice to distribution
eberlm
parents:
61955
diff
changeset
|
363 |
with assms(1) show ?thesis by simp |
|
af0e964aad7b
Moved material from AFP/Randomised_Social_Choice to distribution
eberlm
parents:
61955
diff
changeset
|
364 |
qed |
|
af0e964aad7b
Moved material from AFP/Randomised_Social_Choice to distribution
eberlm
parents:
61955
diff
changeset
|
365 |
|
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
366 |
lemma prod_list_zero_iff: |
|
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
367 |
"prod_list xs = 0 \<longleftrightarrow> (0 :: 'a :: {semiring_no_zero_divisors, semiring_1}) \<in> set xs"
|
|
63317
ca187a9f66da
Various additions to polynomials, FPSs, Gamma function
eberlm
parents:
63290
diff
changeset
|
368 |
by (induction xs) simp_all |
|
ca187a9f66da
Various additions to polynomials, FPSs, Gamma function
eberlm
parents:
63290
diff
changeset
|
369 |
|
| 60758 | 370 |
text \<open>Some syntactic sugar:\<close> |
| 58368 | 371 |
|
|
61955
e96292f32c3c
former "xsymbols" syntax is used by default, and ASCII replacement syntax with print mode "ASCII";
wenzelm
parents:
61799
diff
changeset
|
372 |
syntax (ASCII) |
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
373 |
"_prod_list" :: "pttrn => 'a list => 'b => 'b" ("(3PROD _<-_. _)" [0, 51, 10] 10)
|
|
61955
e96292f32c3c
former "xsymbols" syntax is used by default, and ASCII replacement syntax with print mode "ASCII";
wenzelm
parents:
61799
diff
changeset
|
374 |
syntax |
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
375 |
"_prod_list" :: "pttrn => 'a list => 'b => 'b" ("(3\<Prod>_\<leftarrow>_. _)" [0, 51, 10] 10)
|
| 61799 | 376 |
translations \<comment> \<open>Beware of argument permutation!\<close> |
|
63882
018998c00003
renamed listsum -> sum_list, listprod ~> prod_list
nipkow
parents:
63343
diff
changeset
|
377 |
"\<Prod>x\<leftarrow>xs. b" \<rightleftharpoons> "CONST prod_list (CONST map (\<lambda>x. b) xs)" |
| 58368 | 378 |
|
379 |
end |