author | haftmann |
Mon, 01 Mar 2010 13:40:23 +0100 | |
changeset 35416 | d8d7d1b785af |
parent 35216 | 7641e8d831d2 |
child 35633 | 5da59c1ddece |
permissions | -rw-r--r-- |
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(* Title: HOL/Nat.thy |
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Author: Tobias Nipkow and Lawrence C Paulson and Markus Wenzel |
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Type "nat" is a linear order, and a datatype; arithmetic operators + - |
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and * (for div and mod, see theory Divides). |
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*) |
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header {* Natural numbers *} |
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theory Nat |
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imports Inductive Typedef Fun Fields |
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uses |
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"~~/src/Tools/rat.ML" |
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"~~/src/Provers/Arith/cancel_sums.ML" |
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"Tools/arith_data.ML" |
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("Tools/nat_arith.ML") |
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"~~/src/Provers/Arith/fast_lin_arith.ML" |
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("Tools/lin_arith.ML") |
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begin |
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subsection {* Type @{text ind} *} |
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typedecl ind |
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axiomatization |
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Zero_Rep :: ind and |
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Suc_Rep :: "ind => ind" |
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where |
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-- {* the axiom of infinity in 2 parts *} |
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Suc_Rep_inject: "Suc_Rep x = Suc_Rep y ==> x = y" and |
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Suc_Rep_not_Zero_Rep: "Suc_Rep x \<noteq> Zero_Rep" |
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subsection {* Type nat *} |
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text {* Type definition *} |
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inductive Nat :: "ind \<Rightarrow> bool" |
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where |
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Zero_RepI: "Nat Zero_Rep" |
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| Suc_RepI: "Nat i \<Longrightarrow> Nat (Suc_Rep i)" |
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global |
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typedef (open Nat) |
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nat = Nat |
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by (rule exI, unfold mem_def, rule Nat.Zero_RepI) |
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definition Suc :: "nat => nat" where |
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Suc_def: "Suc == (%n. Abs_Nat (Suc_Rep (Rep_Nat n)))" |
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local |
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instantiation nat :: zero |
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begin |
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definition Zero_nat_def [code del]: |
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"0 = Abs_Nat Zero_Rep" |
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instance .. |
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end |
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lemma Suc_not_Zero: "Suc m \<noteq> 0" |
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by (simp add: Zero_nat_def Suc_def Abs_Nat_inject [unfolded mem_def] |
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Rep_Nat [unfolded mem_def] Suc_RepI Zero_RepI Suc_Rep_not_Zero_Rep [unfolded mem_def]) |
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lemma Zero_not_Suc: "0 \<noteq> Suc m" |
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by (rule not_sym, rule Suc_not_Zero not_sym) |
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lemma Suc_Rep_inject': "Suc_Rep x = Suc_Rep y \<longleftrightarrow> x = y" |
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by (rule iffI, rule Suc_Rep_inject) simp_all |
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rep_datatype "0 \<Colon> nat" Suc |
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apply (unfold Zero_nat_def Suc_def) |
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apply (rule Rep_Nat_inverse [THEN subst]) -- {* types force good instantiation *} |
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apply (erule Rep_Nat [unfolded mem_def, THEN Nat.induct]) |
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apply (iprover elim: Abs_Nat_inverse [unfolded mem_def, THEN subst]) |
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apply (simp_all add: Abs_Nat_inject [unfolded mem_def] Rep_Nat [unfolded mem_def] |
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Suc_RepI Zero_RepI Suc_Rep_not_Zero_Rep [unfolded mem_def] |
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Suc_Rep_not_Zero_Rep [unfolded mem_def, symmetric] |
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Suc_Rep_inject' Rep_Nat_inject) |
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done |
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lemma nat_induct [case_names 0 Suc, induct type: nat]: |
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-- {* for backward compatibility -- names of variables differ *} |
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fixes n |
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assumes "P 0" |
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and "\<And>n. P n \<Longrightarrow> P (Suc n)" |
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shows "P n" |
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using assms by (rule nat.induct) |
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declare nat.exhaust [case_names 0 Suc, cases type: nat] |
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lemmas nat_rec_0 = nat.recs(1) |
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and nat_rec_Suc = nat.recs(2) |
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lemmas nat_case_0 = nat.cases(1) |
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and nat_case_Suc = nat.cases(2) |
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text {* Injectiveness and distinctness lemmas *} |
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lemma inj_Suc[simp]: "inj_on Suc N" |
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by (simp add: inj_on_def) |
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lemma Suc_neq_Zero: "Suc m = 0 \<Longrightarrow> R" |
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by (rule notE, rule Suc_not_Zero) |
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lemma Zero_neq_Suc: "0 = Suc m \<Longrightarrow> R" |
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by (rule Suc_neq_Zero, erule sym) |
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lemma Suc_inject: "Suc x = Suc y \<Longrightarrow> x = y" |
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by (rule inj_Suc [THEN injD]) |
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lemma n_not_Suc_n: "n \<noteq> Suc n" |
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by (induct n) simp_all |
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lemma Suc_n_not_n: "Suc n \<noteq> n" |
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by (rule not_sym, rule n_not_Suc_n) |
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text {* A special form of induction for reasoning |
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about @{term "m < n"} and @{term "m - n"} *} |
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lemma diff_induct: "(!!x. P x 0) ==> (!!y. P 0 (Suc y)) ==> |
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(!!x y. P x y ==> P (Suc x) (Suc y)) ==> P m n" |
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apply (rule_tac x = m in spec) |
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apply (induct n) |
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prefer 2 |
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apply (rule allI) |
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apply (induct_tac x, iprover+) |
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done |
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subsection {* Arithmetic operators *} |
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instantiation nat :: "{minus, comm_monoid_add}" |
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begin |
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primrec plus_nat |
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where |
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add_0: "0 + n = (n\<Colon>nat)" |
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| add_Suc: "Suc m + n = Suc (m + n)" |
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lemma add_0_right [simp]: "m + 0 = (m::nat)" |
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by (induct m) simp_all |
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lemma add_Suc_right [simp]: "m + Suc n = Suc (m + n)" |
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by (induct m) simp_all |
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declare add_0 [code] |
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lemma add_Suc_shift [code]: "Suc m + n = m + Suc n" |
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by simp |
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primrec minus_nat |
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where |
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diff_0: "m - 0 = (m\<Colon>nat)" |
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| diff_Suc: "m - Suc n = (case m - n of 0 => 0 | Suc k => k)" |
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declare diff_Suc [simp del] |
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declare diff_0 [code] |
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lemma diff_0_eq_0 [simp, code]: "0 - n = (0::nat)" |
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by (induct n) (simp_all add: diff_Suc) |
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lemma diff_Suc_Suc [simp, code]: "Suc m - Suc n = m - n" |
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by (induct n) (simp_all add: diff_Suc) |
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instance proof |
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fix n m q :: nat |
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show "(n + m) + q = n + (m + q)" by (induct n) simp_all |
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show "n + m = m + n" by (induct n) simp_all |
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show "0 + n = n" by simp |
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qed |
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end |
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hide (open) fact add_0 add_0_right diff_0 |
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instantiation nat :: comm_semiring_1_cancel |
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begin |
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definition |
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One_nat_def [simp]: "1 = Suc 0" |
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primrec times_nat |
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where |
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mult_0: "0 * n = (0\<Colon>nat)" |
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| mult_Suc: "Suc m * n = n + (m * n)" |
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lemma mult_0_right [simp]: "(m::nat) * 0 = 0" |
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by (induct m) simp_all |
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lemma mult_Suc_right [simp]: "m * Suc n = m + (m * n)" |
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by (induct m) (simp_all add: add_left_commute) |
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197 |
lemma add_mult_distrib: "(m + n) * k = (m * k) + ((n * k)::nat)" |
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198 |
by (induct m) (simp_all add: add_assoc) |
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199 |
|
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200 |
instance proof |
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201 |
fix n m q :: nat |
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202 |
show "0 \<noteq> (1::nat)" unfolding One_nat_def by simp |
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203 |
show "1 * n = n" unfolding One_nat_def by simp |
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204 |
show "n * m = m * n" by (induct n) simp_all |
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205 |
show "(n * m) * q = n * (m * q)" by (induct n) (simp_all add: add_mult_distrib) |
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206 |
show "(n + m) * q = n * q + m * q" by (rule add_mult_distrib) |
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207 |
assume "n + m = n + q" thus "m = q" by (induct n) simp_all |
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208 |
qed |
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209 |
|
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210 |
end |
24995 | 211 |
|
26072
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212 |
subsubsection {* Addition *} |
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213 |
|
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214 |
lemma nat_add_assoc: "(m + n) + k = m + ((n + k)::nat)" |
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215 |
by (rule add_assoc) |
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216 |
|
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217 |
lemma nat_add_commute: "m + n = n + (m::nat)" |
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218 |
by (rule add_commute) |
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219 |
|
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220 |
lemma nat_add_left_commute: "x + (y + z) = y + ((x + z)::nat)" |
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221 |
by (rule add_left_commute) |
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222 |
|
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223 |
lemma nat_add_left_cancel [simp]: "(k + m = k + n) = (m = (n::nat))" |
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224 |
by (rule add_left_cancel) |
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225 |
|
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226 |
lemma nat_add_right_cancel [simp]: "(m + k = n + k) = (m=(n::nat))" |
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227 |
by (rule add_right_cancel) |
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228 |
|
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229 |
text {* Reasoning about @{text "m + 0 = 0"}, etc. *} |
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230 |
|
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231 |
lemma add_is_0 [iff]: |
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232 |
fixes m n :: nat |
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233 |
shows "(m + n = 0) = (m = 0 & n = 0)" |
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234 |
by (cases m) simp_all |
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235 |
|
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236 |
lemma add_is_1: |
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237 |
"(m+n= Suc 0) = (m= Suc 0 & n=0 | m=0 & n= Suc 0)" |
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238 |
by (cases m) simp_all |
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239 |
|
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240 |
lemma one_is_add: |
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241 |
"(Suc 0 = m + n) = (m = Suc 0 & n = 0 | m = 0 & n = Suc 0)" |
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242 |
by (rule trans, rule eq_commute, rule add_is_1) |
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243 |
|
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244 |
lemma add_eq_self_zero: |
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245 |
fixes m n :: nat |
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246 |
shows "m + n = m \<Longrightarrow> n = 0" |
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247 |
by (induct m) simp_all |
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248 |
|
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249 |
lemma inj_on_add_nat[simp]: "inj_on (%n::nat. n+k) N" |
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250 |
apply (induct k) |
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|
251 |
apply simp |
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252 |
apply(drule comp_inj_on[OF _ inj_Suc]) |
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253 |
apply (simp add:o_def) |
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254 |
done |
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255 |
|
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256 |
|
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|
257 |
subsubsection {* Difference *} |
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258 |
|
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259 |
lemma diff_self_eq_0 [simp]: "(m\<Colon>nat) - m = 0" |
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260 |
by (induct m) simp_all |
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261 |
|
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262 |
lemma diff_diff_left: "(i::nat) - j - k = i - (j + k)" |
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263 |
by (induct i j rule: diff_induct) simp_all |
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264 |
|
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265 |
lemma Suc_diff_diff [simp]: "(Suc m - n) - Suc k = m - n - k" |
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266 |
by (simp add: diff_diff_left) |
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267 |
|
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|
268 |
lemma diff_commute: "(i::nat) - j - k = i - k - j" |
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269 |
by (simp add: diff_diff_left add_commute) |
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270 |
|
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271 |
lemma diff_add_inverse: "(n + m) - n = (m::nat)" |
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272 |
by (induct n) simp_all |
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273 |
|
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274 |
lemma diff_add_inverse2: "(m + n) - n = (m::nat)" |
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275 |
by (simp add: diff_add_inverse add_commute [of m n]) |
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|
276 |
|
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277 |
lemma diff_cancel: "(k + m) - (k + n) = m - (n::nat)" |
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278 |
by (induct k) simp_all |
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|
279 |
|
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280 |
lemma diff_cancel2: "(m + k) - (n + k) = m - (n::nat)" |
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281 |
by (simp add: diff_cancel add_commute) |
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|
282 |
|
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|
283 |
lemma diff_add_0: "n - (n + m) = (0::nat)" |
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284 |
by (induct n) simp_all |
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|
285 |
|
30093 | 286 |
lemma diff_Suc_1 [simp]: "Suc n - 1 = n" |
287 |
unfolding One_nat_def by simp |
|
288 |
||
26072
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289 |
text {* Difference distributes over multiplication *} |
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|
290 |
|
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291 |
lemma diff_mult_distrib: "((m::nat) - n) * k = (m * k) - (n * k)" |
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292 |
by (induct m n rule: diff_induct) (simp_all add: diff_cancel) |
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|
293 |
|
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|
294 |
lemma diff_mult_distrib2: "k * ((m::nat) - n) = (k * m) - (k * n)" |
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|
295 |
by (simp add: diff_mult_distrib mult_commute [of k]) |
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|
296 |
-- {* NOT added as rewrites, since sometimes they are used from right-to-left *} |
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|
297 |
|
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|
298 |
|
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|
299 |
subsubsection {* Multiplication *} |
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|
300 |
|
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|
301 |
lemma nat_mult_assoc: "(m * n) * k = m * ((n * k)::nat)" |
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|
302 |
by (rule mult_assoc) |
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|
303 |
|
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|
304 |
lemma nat_mult_commute: "m * n = n * (m::nat)" |
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|
305 |
by (rule mult_commute) |
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changeset
|
306 |
|
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|
307 |
lemma add_mult_distrib2: "k * (m + n) = (k * m) + ((k * n)::nat)" |
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|
308 |
by (rule right_distrib) |
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|
309 |
|
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|
310 |
lemma mult_is_0 [simp]: "((m::nat) * n = 0) = (m=0 | n=0)" |
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|
311 |
by (induct m) auto |
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|
312 |
|
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|
313 |
lemmas nat_distrib = |
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|
314 |
add_mult_distrib add_mult_distrib2 diff_mult_distrib diff_mult_distrib2 |
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|
315 |
|
30079
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|
316 |
lemma mult_eq_1_iff [simp]: "(m * n = Suc 0) = (m = Suc 0 & n = Suc 0)" |
26072
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|
317 |
apply (induct m) |
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|
318 |
apply simp |
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|
319 |
apply (induct n) |
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|
320 |
apply auto |
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|
321 |
done |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
322 |
|
30079
293b896b9c25
make proofs work whether or not One_nat_def is a simp rule; replace 1 with Suc 0 in the rhs of some simp rules
huffman
parents:
30056
diff
changeset
|
323 |
lemma one_eq_mult_iff [simp,noatp]: "(Suc 0 = m * n) = (m = Suc 0 & n = Suc 0)" |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
324 |
apply (rule trans) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
325 |
apply (rule_tac [2] mult_eq_1_iff, fastsimp) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
326 |
done |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
327 |
|
30079
293b896b9c25
make proofs work whether or not One_nat_def is a simp rule; replace 1 with Suc 0 in the rhs of some simp rules
huffman
parents:
30056
diff
changeset
|
328 |
lemma nat_mult_eq_1_iff [simp]: "m * n = (1::nat) \<longleftrightarrow> m = 1 \<and> n = 1" |
293b896b9c25
make proofs work whether or not One_nat_def is a simp rule; replace 1 with Suc 0 in the rhs of some simp rules
huffman
parents:
30056
diff
changeset
|
329 |
unfolding One_nat_def by (rule mult_eq_1_iff) |
293b896b9c25
make proofs work whether or not One_nat_def is a simp rule; replace 1 with Suc 0 in the rhs of some simp rules
huffman
parents:
30056
diff
changeset
|
330 |
|
293b896b9c25
make proofs work whether or not One_nat_def is a simp rule; replace 1 with Suc 0 in the rhs of some simp rules
huffman
parents:
30056
diff
changeset
|
331 |
lemma nat_1_eq_mult_iff [simp]: "(1::nat) = m * n \<longleftrightarrow> m = 1 \<and> n = 1" |
293b896b9c25
make proofs work whether or not One_nat_def is a simp rule; replace 1 with Suc 0 in the rhs of some simp rules
huffman
parents:
30056
diff
changeset
|
332 |
unfolding One_nat_def by (rule one_eq_mult_iff) |
293b896b9c25
make proofs work whether or not One_nat_def is a simp rule; replace 1 with Suc 0 in the rhs of some simp rules
huffman
parents:
30056
diff
changeset
|
333 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
334 |
lemma mult_cancel1 [simp]: "(k * m = k * n) = (m = n | (k = (0::nat)))" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
335 |
proof - |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
336 |
have "k \<noteq> 0 \<Longrightarrow> k * m = k * n \<Longrightarrow> m = n" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
337 |
proof (induct n arbitrary: m) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
338 |
case 0 then show "m = 0" by simp |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
339 |
next |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
340 |
case (Suc n) then show "m = Suc n" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
341 |
by (cases m) (simp_all add: eq_commute [of "0"]) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
342 |
qed |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
343 |
then show ?thesis by auto |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
344 |
qed |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
345 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
346 |
lemma mult_cancel2 [simp]: "(m * k = n * k) = (m = n | (k = (0::nat)))" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
347 |
by (simp add: mult_commute) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
348 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
349 |
lemma Suc_mult_cancel1: "(Suc k * m = Suc k * n) = (m = n)" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
350 |
by (subst mult_cancel1) simp |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
351 |
|
24995 | 352 |
|
353 |
subsection {* Orders on @{typ nat} *} |
|
354 |
||
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
355 |
subsubsection {* Operation definition *} |
24995 | 356 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
357 |
instantiation nat :: linorder |
25510 | 358 |
begin |
359 |
||
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
360 |
primrec less_eq_nat where |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
361 |
"(0\<Colon>nat) \<le> n \<longleftrightarrow> True" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
362 |
| "Suc m \<le> n \<longleftrightarrow> (case n of 0 \<Rightarrow> False | Suc n \<Rightarrow> m \<le> n)" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
363 |
|
28514 | 364 |
declare less_eq_nat.simps [simp del] |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
365 |
lemma [code]: "(0\<Colon>nat) \<le> n \<longleftrightarrow> True" by (simp add: less_eq_nat.simps) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
366 |
lemma le0 [iff]: "0 \<le> (n\<Colon>nat)" by (simp add: less_eq_nat.simps) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
367 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
368 |
definition less_nat where |
28514 | 369 |
less_eq_Suc_le: "n < m \<longleftrightarrow> Suc n \<le> m" |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
370 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
371 |
lemma Suc_le_mono [iff]: "Suc n \<le> Suc m \<longleftrightarrow> n \<le> m" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
372 |
by (simp add: less_eq_nat.simps(2)) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
373 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
374 |
lemma Suc_le_eq [code]: "Suc m \<le> n \<longleftrightarrow> m < n" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
375 |
unfolding less_eq_Suc_le .. |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
376 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
377 |
lemma le_0_eq [iff]: "(n\<Colon>nat) \<le> 0 \<longleftrightarrow> n = 0" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
378 |
by (induct n) (simp_all add: less_eq_nat.simps(2)) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
379 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
380 |
lemma not_less0 [iff]: "\<not> n < (0\<Colon>nat)" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
381 |
by (simp add: less_eq_Suc_le) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
382 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
383 |
lemma less_nat_zero_code [code]: "n < (0\<Colon>nat) \<longleftrightarrow> False" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
384 |
by simp |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
385 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
386 |
lemma Suc_less_eq [iff]: "Suc m < Suc n \<longleftrightarrow> m < n" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
387 |
by (simp add: less_eq_Suc_le) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
388 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
389 |
lemma less_Suc_eq_le [code]: "m < Suc n \<longleftrightarrow> m \<le> n" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
390 |
by (simp add: less_eq_Suc_le) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
391 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
392 |
lemma le_SucI: "m \<le> n \<Longrightarrow> m \<le> Suc n" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
393 |
by (induct m arbitrary: n) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
394 |
(simp_all add: less_eq_nat.simps(2) split: nat.splits) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
395 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
396 |
lemma Suc_leD: "Suc m \<le> n \<Longrightarrow> m \<le> n" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
397 |
by (cases n) (auto intro: le_SucI) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
398 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
399 |
lemma less_SucI: "m < n \<Longrightarrow> m < Suc n" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
400 |
by (simp add: less_eq_Suc_le) (erule Suc_leD) |
24995 | 401 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
402 |
lemma Suc_lessD: "Suc m < n \<Longrightarrow> m < n" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
403 |
by (simp add: less_eq_Suc_le) (erule Suc_leD) |
25510 | 404 |
|
26315
cb3badaa192e
removed redundant less_trans, less_linear, le_imp_less_or_eq, le_less_trans, less_le_trans (cf. Orderings.thy);
wenzelm
parents:
26300
diff
changeset
|
405 |
instance |
cb3badaa192e
removed redundant less_trans, less_linear, le_imp_less_or_eq, le_less_trans, less_le_trans (cf. Orderings.thy);
wenzelm
parents:
26300
diff
changeset
|
406 |
proof |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
407 |
fix n m :: nat |
27679 | 408 |
show "n < m \<longleftrightarrow> n \<le> m \<and> \<not> m \<le> n" |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
409 |
proof (induct n arbitrary: m) |
27679 | 410 |
case 0 then show ?case by (cases m) (simp_all add: less_eq_Suc_le) |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
411 |
next |
27679 | 412 |
case (Suc n) then show ?case by (cases m) (simp_all add: less_eq_Suc_le) |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
413 |
qed |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
414 |
next |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
415 |
fix n :: nat show "n \<le> n" by (induct n) simp_all |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
416 |
next |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
417 |
fix n m :: nat assume "n \<le> m" and "m \<le> n" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
418 |
then show "n = m" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
419 |
by (induct n arbitrary: m) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
420 |
(simp_all add: less_eq_nat.simps(2) split: nat.splits) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
421 |
next |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
422 |
fix n m q :: nat assume "n \<le> m" and "m \<le> q" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
423 |
then show "n \<le> q" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
424 |
proof (induct n arbitrary: m q) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
425 |
case 0 show ?case by simp |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
426 |
next |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
427 |
case (Suc n) then show ?case |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
428 |
by (simp_all (no_asm_use) add: less_eq_nat.simps(2) split: nat.splits, clarify, |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
429 |
simp_all (no_asm_use) add: less_eq_nat.simps(2) split: nat.splits, clarify, |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
430 |
simp_all (no_asm_use) add: less_eq_nat.simps(2) split: nat.splits) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
431 |
qed |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
432 |
next |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
433 |
fix n m :: nat show "n \<le> m \<or> m \<le> n" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
434 |
by (induct n arbitrary: m) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
435 |
(simp_all add: less_eq_nat.simps(2) split: nat.splits) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
436 |
qed |
25510 | 437 |
|
438 |
end |
|
13449 | 439 |
|
29652 | 440 |
instantiation nat :: bot |
441 |
begin |
|
442 |
||
443 |
definition bot_nat :: nat where |
|
444 |
"bot_nat = 0" |
|
445 |
||
446 |
instance proof |
|
447 |
qed (simp add: bot_nat_def) |
|
448 |
||
449 |
end |
|
450 |
||
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
451 |
subsubsection {* Introduction properties *} |
13449 | 452 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
453 |
lemma lessI [iff]: "n < Suc n" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
454 |
by (simp add: less_Suc_eq_le) |
13449 | 455 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
456 |
lemma zero_less_Suc [iff]: "0 < Suc n" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
457 |
by (simp add: less_Suc_eq_le) |
13449 | 458 |
|
459 |
||
460 |
subsubsection {* Elimination properties *} |
|
461 |
||
462 |
lemma less_not_refl: "~ n < (n::nat)" |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
463 |
by (rule order_less_irrefl) |
13449 | 464 |
|
26335
961bbcc9d85b
removed redundant Nat.less_not_sym, Nat.less_asym;
wenzelm
parents:
26315
diff
changeset
|
465 |
lemma less_not_refl2: "n < m ==> m \<noteq> (n::nat)" |
961bbcc9d85b
removed redundant Nat.less_not_sym, Nat.less_asym;
wenzelm
parents:
26315
diff
changeset
|
466 |
by (rule not_sym) (rule less_imp_neq) |
13449 | 467 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
468 |
lemma less_not_refl3: "(s::nat) < t ==> s \<noteq> t" |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
469 |
by (rule less_imp_neq) |
13449 | 470 |
|
26335
961bbcc9d85b
removed redundant Nat.less_not_sym, Nat.less_asym;
wenzelm
parents:
26315
diff
changeset
|
471 |
lemma less_irrefl_nat: "(n::nat) < n ==> R" |
961bbcc9d85b
removed redundant Nat.less_not_sym, Nat.less_asym;
wenzelm
parents:
26315
diff
changeset
|
472 |
by (rule notE, rule less_not_refl) |
13449 | 473 |
|
474 |
lemma less_zeroE: "(n::nat) < 0 ==> R" |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
475 |
by (rule notE) (rule not_less0) |
13449 | 476 |
|
477 |
lemma less_Suc_eq: "(m < Suc n) = (m < n | m = n)" |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
478 |
unfolding less_Suc_eq_le le_less .. |
13449 | 479 |
|
30079
293b896b9c25
make proofs work whether or not One_nat_def is a simp rule; replace 1 with Suc 0 in the rhs of some simp rules
huffman
parents:
30056
diff
changeset
|
480 |
lemma less_Suc0 [iff]: "(n < Suc 0) = (n = 0)" |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
481 |
by (simp add: less_Suc_eq) |
13449 | 482 |
|
30079
293b896b9c25
make proofs work whether or not One_nat_def is a simp rule; replace 1 with Suc 0 in the rhs of some simp rules
huffman
parents:
30056
diff
changeset
|
483 |
lemma less_one [iff, noatp]: "(n < (1::nat)) = (n = 0)" |
293b896b9c25
make proofs work whether or not One_nat_def is a simp rule; replace 1 with Suc 0 in the rhs of some simp rules
huffman
parents:
30056
diff
changeset
|
484 |
unfolding One_nat_def by (rule less_Suc0) |
13449 | 485 |
|
486 |
lemma Suc_mono: "m < n ==> Suc m < Suc n" |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
487 |
by simp |
13449 | 488 |
|
14302 | 489 |
text {* "Less than" is antisymmetric, sort of *} |
490 |
lemma less_antisym: "\<lbrakk> \<not> n < m; n < Suc m \<rbrakk> \<Longrightarrow> m = n" |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
491 |
unfolding not_less less_Suc_eq_le by (rule antisym) |
14302 | 492 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
493 |
lemma nat_neq_iff: "((m::nat) \<noteq> n) = (m < n | n < m)" |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
494 |
by (rule linorder_neq_iff) |
13449 | 495 |
|
496 |
lemma nat_less_cases: assumes major: "(m::nat) < n ==> P n m" |
|
497 |
and eqCase: "m = n ==> P n m" and lessCase: "n<m ==> P n m" |
|
498 |
shows "P n m" |
|
499 |
apply (rule less_linear [THEN disjE]) |
|
500 |
apply (erule_tac [2] disjE) |
|
501 |
apply (erule lessCase) |
|
502 |
apply (erule sym [THEN eqCase]) |
|
503 |
apply (erule major) |
|
504 |
done |
|
505 |
||
506 |
||
507 |
subsubsection {* Inductive (?) properties *} |
|
508 |
||
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
509 |
lemma Suc_lessI: "m < n ==> Suc m \<noteq> n ==> Suc m < n" |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
510 |
unfolding less_eq_Suc_le [of m] le_less by simp |
13449 | 511 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
512 |
lemma lessE: |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
513 |
assumes major: "i < k" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
514 |
and p1: "k = Suc i ==> P" and p2: "!!j. i < j ==> k = Suc j ==> P" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
515 |
shows P |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
516 |
proof - |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
517 |
from major have "\<exists>j. i \<le> j \<and> k = Suc j" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
518 |
unfolding less_eq_Suc_le by (induct k) simp_all |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
519 |
then have "(\<exists>j. i < j \<and> k = Suc j) \<or> k = Suc i" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
520 |
by (clarsimp simp add: less_le) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
521 |
with p1 p2 show P by auto |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
522 |
qed |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
523 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
524 |
lemma less_SucE: assumes major: "m < Suc n" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
525 |
and less: "m < n ==> P" and eq: "m = n ==> P" shows P |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
526 |
apply (rule major [THEN lessE]) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
527 |
apply (rule eq, blast) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
528 |
apply (rule less, blast) |
13449 | 529 |
done |
530 |
||
531 |
lemma Suc_lessE: assumes major: "Suc i < k" |
|
532 |
and minor: "!!j. i < j ==> k = Suc j ==> P" shows P |
|
533 |
apply (rule major [THEN lessE]) |
|
534 |
apply (erule lessI [THEN minor]) |
|
14208 | 535 |
apply (erule Suc_lessD [THEN minor], assumption) |
13449 | 536 |
done |
537 |
||
538 |
lemma Suc_less_SucD: "Suc m < Suc n ==> m < n" |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
539 |
by simp |
13449 | 540 |
|
541 |
lemma less_trans_Suc: |
|
542 |
assumes le: "i < j" shows "j < k ==> Suc i < k" |
|
14208 | 543 |
apply (induct k, simp_all) |
13449 | 544 |
apply (insert le) |
545 |
apply (simp add: less_Suc_eq) |
|
546 |
apply (blast dest: Suc_lessD) |
|
547 |
done |
|
548 |
||
549 |
text {* Can be used with @{text less_Suc_eq} to get @{term "n = m | n < m"} *} |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
550 |
lemma not_less_eq: "\<not> m < n \<longleftrightarrow> n < Suc m" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
551 |
unfolding not_less less_Suc_eq_le .. |
13449 | 552 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
553 |
lemma not_less_eq_eq: "\<not> m \<le> n \<longleftrightarrow> Suc n \<le> m" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
554 |
unfolding not_le Suc_le_eq .. |
21243 | 555 |
|
24995 | 556 |
text {* Properties of "less than or equal" *} |
13449 | 557 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
558 |
lemma le_imp_less_Suc: "m \<le> n ==> m < Suc n" |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
559 |
unfolding less_Suc_eq_le . |
13449 | 560 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
561 |
lemma Suc_n_not_le_n: "~ Suc n \<le> n" |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
562 |
unfolding not_le less_Suc_eq_le .. |
13449 | 563 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
564 |
lemma le_Suc_eq: "(m \<le> Suc n) = (m \<le> n | m = Suc n)" |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
565 |
by (simp add: less_Suc_eq_le [symmetric] less_Suc_eq) |
13449 | 566 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
567 |
lemma le_SucE: "m \<le> Suc n ==> (m \<le> n ==> R) ==> (m = Suc n ==> R) ==> R" |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
568 |
by (drule le_Suc_eq [THEN iffD1], iprover+) |
13449 | 569 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
570 |
lemma Suc_leI: "m < n ==> Suc(m) \<le> n" |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
571 |
unfolding Suc_le_eq . |
13449 | 572 |
|
573 |
text {* Stronger version of @{text Suc_leD} *} |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
574 |
lemma Suc_le_lessD: "Suc m \<le> n ==> m < n" |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
575 |
unfolding Suc_le_eq . |
13449 | 576 |
|
26315
cb3badaa192e
removed redundant less_trans, less_linear, le_imp_less_or_eq, le_less_trans, less_le_trans (cf. Orderings.thy);
wenzelm
parents:
26300
diff
changeset
|
577 |
lemma less_imp_le_nat: "m < n ==> m \<le> (n::nat)" |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
578 |
unfolding less_eq_Suc_le by (rule Suc_leD) |
13449 | 579 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
580 |
text {* For instance, @{text "(Suc m < Suc n) = (Suc m \<le> n) = (m < n)"} *} |
26315
cb3badaa192e
removed redundant less_trans, less_linear, le_imp_less_or_eq, le_less_trans, less_le_trans (cf. Orderings.thy);
wenzelm
parents:
26300
diff
changeset
|
581 |
lemmas le_simps = less_imp_le_nat less_Suc_eq_le Suc_le_eq |
13449 | 582 |
|
583 |
||
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
584 |
text {* Equivalence of @{term "m \<le> n"} and @{term "m < n | m = n"} *} |
13449 | 585 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
586 |
lemma less_or_eq_imp_le: "m < n | m = n ==> m \<le> (n::nat)" |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
587 |
unfolding le_less . |
13449 | 588 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
589 |
lemma le_eq_less_or_eq: "(m \<le> (n::nat)) = (m < n | m=n)" |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
590 |
by (rule le_less) |
13449 | 591 |
|
22718 | 592 |
text {* Useful with @{text blast}. *} |
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
593 |
lemma eq_imp_le: "(m::nat) = n ==> m \<le> n" |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
594 |
by auto |
13449 | 595 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
596 |
lemma le_refl: "n \<le> (n::nat)" |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
597 |
by simp |
13449 | 598 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
599 |
lemma le_trans: "[| i \<le> j; j \<le> k |] ==> i \<le> (k::nat)" |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
600 |
by (rule order_trans) |
13449 | 601 |
|
33657 | 602 |
lemma le_antisym: "[| m \<le> n; n \<le> m |] ==> m = (n::nat)" |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
603 |
by (rule antisym) |
13449 | 604 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
605 |
lemma nat_less_le: "((m::nat) < n) = (m \<le> n & m \<noteq> n)" |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
606 |
by (rule less_le) |
13449 | 607 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
608 |
lemma le_neq_implies_less: "(m::nat) \<le> n ==> m \<noteq> n ==> m < n" |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
609 |
unfolding less_le .. |
13449 | 610 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
611 |
lemma nat_le_linear: "(m::nat) \<le> n | n \<le> m" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
612 |
by (rule linear) |
14341
a09441bd4f1e
Ring_and_Field now requires axiom add_left_imp_eq for semirings.
paulson
parents:
14331
diff
changeset
|
613 |
|
22718 | 614 |
lemmas linorder_neqE_nat = linorder_neqE [where 'a = nat] |
15921 | 615 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
616 |
lemma le_less_Suc_eq: "m \<le> n ==> (n < Suc m) = (n = m)" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
617 |
unfolding less_Suc_eq_le by auto |
13449 | 618 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
619 |
lemma not_less_less_Suc_eq: "~ n < m ==> (n < Suc m) = (n = m)" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
620 |
unfolding not_less by (rule le_less_Suc_eq) |
13449 | 621 |
|
622 |
lemmas not_less_simps = not_less_less_Suc_eq le_less_Suc_eq |
|
623 |
||
22718 | 624 |
text {* These two rules ease the use of primitive recursion. |
14341
a09441bd4f1e
Ring_and_Field now requires axiom add_left_imp_eq for semirings.
paulson
parents:
14331
diff
changeset
|
625 |
NOTE USE OF @{text "=="} *} |
13449 | 626 |
lemma def_nat_rec_0: "(!!n. f n == nat_rec c h n) ==> f 0 = c" |
25162 | 627 |
by simp |
13449 | 628 |
|
629 |
lemma def_nat_rec_Suc: "(!!n. f n == nat_rec c h n) ==> f (Suc n) = h n (f n)" |
|
25162 | 630 |
by simp |
13449 | 631 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
632 |
lemma not0_implies_Suc: "n \<noteq> 0 ==> \<exists>m. n = Suc m" |
25162 | 633 |
by (cases n) simp_all |
634 |
||
635 |
lemma gr0_implies_Suc: "n > 0 ==> \<exists>m. n = Suc m" |
|
636 |
by (cases n) simp_all |
|
13449 | 637 |
|
22718 | 638 |
lemma gr_implies_not0: fixes n :: nat shows "m<n ==> n \<noteq> 0" |
25162 | 639 |
by (cases n) simp_all |
13449 | 640 |
|
25162 | 641 |
lemma neq0_conv[iff]: fixes n :: nat shows "(n \<noteq> 0) = (0 < n)" |
642 |
by (cases n) simp_all |
|
25140 | 643 |
|
13449 | 644 |
text {* This theorem is useful with @{text blast} *} |
645 |
lemma gr0I: "((n::nat) = 0 ==> False) ==> 0 < n" |
|
25162 | 646 |
by (rule neq0_conv[THEN iffD1], iprover) |
13449 | 647 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
648 |
lemma gr0_conv_Suc: "(0 < n) = (\<exists>m. n = Suc m)" |
25162 | 649 |
by (fast intro: not0_implies_Suc) |
13449 | 650 |
|
24286
7619080e49f0
ATP blacklisting is now in theory data, attribute noatp
paulson
parents:
24196
diff
changeset
|
651 |
lemma not_gr0 [iff,noatp]: "!!n::nat. (~ (0 < n)) = (n = 0)" |
25134
3d4953e88449
Eliminated most of the neq0_conv occurrences. As a result, many
nipkow
parents:
25111
diff
changeset
|
652 |
using neq0_conv by blast |
13449 | 653 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
654 |
lemma Suc_le_D: "(Suc n \<le> m') ==> (? m. m' = Suc m)" |
25162 | 655 |
by (induct m') simp_all |
13449 | 656 |
|
657 |
text {* Useful in certain inductive arguments *} |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
658 |
lemma less_Suc_eq_0_disj: "(m < Suc n) = (m = 0 | (\<exists>j. m = Suc j & j < n))" |
25162 | 659 |
by (cases m) simp_all |
13449 | 660 |
|
661 |
||
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
662 |
subsubsection {* @{term min} and @{term max} *} |
13449 | 663 |
|
25076 | 664 |
lemma mono_Suc: "mono Suc" |
25162 | 665 |
by (rule monoI) simp |
25076 | 666 |
|
13449 | 667 |
lemma min_0L [simp]: "min 0 n = (0::nat)" |
25162 | 668 |
by (rule min_leastL) simp |
13449 | 669 |
|
670 |
lemma min_0R [simp]: "min n 0 = (0::nat)" |
|
25162 | 671 |
by (rule min_leastR) simp |
13449 | 672 |
|
673 |
lemma min_Suc_Suc [simp]: "min (Suc m) (Suc n) = Suc (min m n)" |
|
25162 | 674 |
by (simp add: mono_Suc min_of_mono) |
13449 | 675 |
|
22191 | 676 |
lemma min_Suc1: |
677 |
"min (Suc n) m = (case m of 0 => 0 | Suc m' => Suc(min n m'))" |
|
25162 | 678 |
by (simp split: nat.split) |
22191 | 679 |
|
680 |
lemma min_Suc2: |
|
681 |
"min m (Suc n) = (case m of 0 => 0 | Suc m' => Suc(min m' n))" |
|
25162 | 682 |
by (simp split: nat.split) |
22191 | 683 |
|
13449 | 684 |
lemma max_0L [simp]: "max 0 n = (n::nat)" |
25162 | 685 |
by (rule max_leastL) simp |
13449 | 686 |
|
687 |
lemma max_0R [simp]: "max n 0 = (n::nat)" |
|
25162 | 688 |
by (rule max_leastR) simp |
13449 | 689 |
|
690 |
lemma max_Suc_Suc [simp]: "max (Suc m) (Suc n) = Suc(max m n)" |
|
25162 | 691 |
by (simp add: mono_Suc max_of_mono) |
13449 | 692 |
|
22191 | 693 |
lemma max_Suc1: |
694 |
"max (Suc n) m = (case m of 0 => Suc n | Suc m' => Suc(max n m'))" |
|
25162 | 695 |
by (simp split: nat.split) |
22191 | 696 |
|
697 |
lemma max_Suc2: |
|
698 |
"max m (Suc n) = (case m of 0 => Suc n | Suc m' => Suc(max m' n))" |
|
25162 | 699 |
by (simp split: nat.split) |
22191 | 700 |
|
13449 | 701 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
702 |
subsubsection {* Monotonicity of Addition *} |
13449 | 703 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
704 |
lemma Suc_pred [simp]: "n>0 ==> Suc (n - Suc 0) = n" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
705 |
by (simp add: diff_Suc split: nat.split) |
13449 | 706 |
|
30128
365ee7319b86
revert some Suc 0 lemmas back to their original forms; added some simp rules for (1::nat)
huffman
parents:
30093
diff
changeset
|
707 |
lemma Suc_diff_1 [simp]: "0 < n ==> Suc (n - 1) = n" |
365ee7319b86
revert some Suc 0 lemmas back to their original forms; added some simp rules for (1::nat)
huffman
parents:
30093
diff
changeset
|
708 |
unfolding One_nat_def by (rule Suc_pred) |
365ee7319b86
revert some Suc 0 lemmas back to their original forms; added some simp rules for (1::nat)
huffman
parents:
30093
diff
changeset
|
709 |
|
14331 | 710 |
lemma nat_add_left_cancel_le [simp]: "(k + m \<le> k + n) = (m\<le>(n::nat))" |
25162 | 711 |
by (induct k) simp_all |
13449 | 712 |
|
14331 | 713 |
lemma nat_add_left_cancel_less [simp]: "(k + m < k + n) = (m<(n::nat))" |
25162 | 714 |
by (induct k) simp_all |
13449 | 715 |
|
25162 | 716 |
lemma add_gr_0 [iff]: "!!m::nat. (m + n > 0) = (m>0 | n>0)" |
717 |
by(auto dest:gr0_implies_Suc) |
|
13449 | 718 |
|
14341
a09441bd4f1e
Ring_and_Field now requires axiom add_left_imp_eq for semirings.
paulson
parents:
14331
diff
changeset
|
719 |
text {* strict, in 1st argument *} |
a09441bd4f1e
Ring_and_Field now requires axiom add_left_imp_eq for semirings.
paulson
parents:
14331
diff
changeset
|
720 |
lemma add_less_mono1: "i < j ==> i + k < j + (k::nat)" |
25162 | 721 |
by (induct k) simp_all |
14341
a09441bd4f1e
Ring_and_Field now requires axiom add_left_imp_eq for semirings.
paulson
parents:
14331
diff
changeset
|
722 |
|
a09441bd4f1e
Ring_and_Field now requires axiom add_left_imp_eq for semirings.
paulson
parents:
14331
diff
changeset
|
723 |
text {* strict, in both arguments *} |
a09441bd4f1e
Ring_and_Field now requires axiom add_left_imp_eq for semirings.
paulson
parents:
14331
diff
changeset
|
724 |
lemma add_less_mono: "[|i < j; k < l|] ==> i + k < j + (l::nat)" |
a09441bd4f1e
Ring_and_Field now requires axiom add_left_imp_eq for semirings.
paulson
parents:
14331
diff
changeset
|
725 |
apply (rule add_less_mono1 [THEN less_trans], assumption+) |
15251 | 726 |
apply (induct j, simp_all) |
14341
a09441bd4f1e
Ring_and_Field now requires axiom add_left_imp_eq for semirings.
paulson
parents:
14331
diff
changeset
|
727 |
done |
a09441bd4f1e
Ring_and_Field now requires axiom add_left_imp_eq for semirings.
paulson
parents:
14331
diff
changeset
|
728 |
|
a09441bd4f1e
Ring_and_Field now requires axiom add_left_imp_eq for semirings.
paulson
parents:
14331
diff
changeset
|
729 |
text {* Deleted @{text less_natE}; use @{text "less_imp_Suc_add RS exE"} *} |
a09441bd4f1e
Ring_and_Field now requires axiom add_left_imp_eq for semirings.
paulson
parents:
14331
diff
changeset
|
730 |
lemma less_imp_Suc_add: "m < n ==> (\<exists>k. n = Suc (m + k))" |
a09441bd4f1e
Ring_and_Field now requires axiom add_left_imp_eq for semirings.
paulson
parents:
14331
diff
changeset
|
731 |
apply (induct n) |
a09441bd4f1e
Ring_and_Field now requires axiom add_left_imp_eq for semirings.
paulson
parents:
14331
diff
changeset
|
732 |
apply (simp_all add: order_le_less) |
22718 | 733 |
apply (blast elim!: less_SucE |
35047
1b2bae06c796
hide fact Nat.add_0_right; make add_0_right from Groups priority
haftmann
parents:
35028
diff
changeset
|
734 |
intro!: Nat.add_0_right [symmetric] add_Suc_right [symmetric]) |
14341
a09441bd4f1e
Ring_and_Field now requires axiom add_left_imp_eq for semirings.
paulson
parents:
14331
diff
changeset
|
735 |
done |
a09441bd4f1e
Ring_and_Field now requires axiom add_left_imp_eq for semirings.
paulson
parents:
14331
diff
changeset
|
736 |
|
a09441bd4f1e
Ring_and_Field now requires axiom add_left_imp_eq for semirings.
paulson
parents:
14331
diff
changeset
|
737 |
text {* strict, in 1st argument; proof is by induction on @{text "k > 0"} *} |
25134
3d4953e88449
Eliminated most of the neq0_conv occurrences. As a result, many
nipkow
parents:
25111
diff
changeset
|
738 |
lemma mult_less_mono2: "(i::nat) < j ==> 0<k ==> k * i < k * j" |
3d4953e88449
Eliminated most of the neq0_conv occurrences. As a result, many
nipkow
parents:
25111
diff
changeset
|
739 |
apply(auto simp: gr0_conv_Suc) |
3d4953e88449
Eliminated most of the neq0_conv occurrences. As a result, many
nipkow
parents:
25111
diff
changeset
|
740 |
apply (induct_tac m) |
3d4953e88449
Eliminated most of the neq0_conv occurrences. As a result, many
nipkow
parents:
25111
diff
changeset
|
741 |
apply (simp_all add: add_less_mono) |
3d4953e88449
Eliminated most of the neq0_conv occurrences. As a result, many
nipkow
parents:
25111
diff
changeset
|
742 |
done |
14341
a09441bd4f1e
Ring_and_Field now requires axiom add_left_imp_eq for semirings.
paulson
parents:
14331
diff
changeset
|
743 |
|
14740 | 744 |
text{*The naturals form an ordered @{text comm_semiring_1_cancel}*} |
35028
108662d50512
more consistent naming of type classes involving orderings (and lattices) -- c.f. NEWS
haftmann
parents:
34208
diff
changeset
|
745 |
instance nat :: linordered_semidom |
14341
a09441bd4f1e
Ring_and_Field now requires axiom add_left_imp_eq for semirings.
paulson
parents:
14331
diff
changeset
|
746 |
proof |
a09441bd4f1e
Ring_and_Field now requires axiom add_left_imp_eq for semirings.
paulson
parents:
14331
diff
changeset
|
747 |
fix i j k :: nat |
14348
744c868ee0b7
Defining the type class "ringpower" and deleting superseded theorems for
paulson
parents:
14341
diff
changeset
|
748 |
show "0 < (1::nat)" by simp |
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
749 |
show "i \<le> j ==> k + i \<le> k + j" by simp |
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
750 |
show "i < j ==> 0 < k ==> k * i < k * j" by (simp add: mult_less_mono2) |
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
751 |
qed |
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
752 |
|
30056 | 753 |
instance nat :: no_zero_divisors |
754 |
proof |
|
755 |
fix a::nat and b::nat show "a ~= 0 \<Longrightarrow> b ~= 0 \<Longrightarrow> a * b ~= 0" by auto |
|
756 |
qed |
|
757 |
||
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
758 |
lemma nat_mult_1: "(1::nat) * n = n" |
25162 | 759 |
by simp |
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
760 |
|
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
761 |
lemma nat_mult_1_right: "n * (1::nat) = n" |
25162 | 762 |
by simp |
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
763 |
|
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
764 |
|
26748
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
765 |
subsubsection {* Additional theorems about @{term "op \<le>"} *} |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
766 |
|
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
767 |
text {* Complete induction, aka course-of-values induction *} |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
768 |
|
27823 | 769 |
instance nat :: wellorder proof |
770 |
fix P and n :: nat |
|
771 |
assume step: "\<And>n::nat. (\<And>m. m < n \<Longrightarrow> P m) \<Longrightarrow> P n" |
|
772 |
have "\<And>q. q \<le> n \<Longrightarrow> P q" |
|
773 |
proof (induct n) |
|
774 |
case (0 n) |
|
26748
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
775 |
have "P 0" by (rule step) auto |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
776 |
thus ?case using 0 by auto |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
777 |
next |
27823 | 778 |
case (Suc m n) |
779 |
then have "n \<le> m \<or> n = Suc m" by (simp add: le_Suc_eq) |
|
26748
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
780 |
thus ?case |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
781 |
proof |
27823 | 782 |
assume "n \<le> m" thus "P n" by (rule Suc(1)) |
26748
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
783 |
next |
27823 | 784 |
assume n: "n = Suc m" |
785 |
show "P n" |
|
786 |
by (rule step) (rule Suc(1), simp add: n le_simps) |
|
26748
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
787 |
qed |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
788 |
qed |
27823 | 789 |
then show "P n" by auto |
26748
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
790 |
qed |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
791 |
|
27823 | 792 |
lemma Least_Suc: |
793 |
"[| P n; ~ P 0 |] ==> (LEAST n. P n) = Suc (LEAST m. P(Suc m))" |
|
794 |
apply (case_tac "n", auto) |
|
795 |
apply (frule LeastI) |
|
796 |
apply (drule_tac P = "%x. P (Suc x) " in LeastI) |
|
797 |
apply (subgoal_tac " (LEAST x. P x) \<le> Suc (LEAST x. P (Suc x))") |
|
798 |
apply (erule_tac [2] Least_le) |
|
799 |
apply (case_tac "LEAST x. P x", auto) |
|
800 |
apply (drule_tac P = "%x. P (Suc x) " in Least_le) |
|
801 |
apply (blast intro: order_antisym) |
|
802 |
done |
|
803 |
||
804 |
lemma Least_Suc2: |
|
805 |
"[|P n; Q m; ~P 0; !k. P (Suc k) = Q k|] ==> Least P = Suc (Least Q)" |
|
806 |
apply (erule (1) Least_Suc [THEN ssubst]) |
|
807 |
apply simp |
|
808 |
done |
|
809 |
||
810 |
lemma ex_least_nat_le: "\<not>P(0) \<Longrightarrow> P(n::nat) \<Longrightarrow> \<exists>k\<le>n. (\<forall>i<k. \<not>P i) & P(k)" |
|
811 |
apply (cases n) |
|
812 |
apply blast |
|
813 |
apply (rule_tac x="LEAST k. P(k)" in exI) |
|
814 |
apply (blast intro: Least_le dest: not_less_Least intro: LeastI_ex) |
|
815 |
done |
|
816 |
||
817 |
lemma ex_least_nat_less: "\<not>P(0) \<Longrightarrow> P(n::nat) \<Longrightarrow> \<exists>k<n. (\<forall>i\<le>k. \<not>P i) & P(k+1)" |
|
30079
293b896b9c25
make proofs work whether or not One_nat_def is a simp rule; replace 1 with Suc 0 in the rhs of some simp rules
huffman
parents:
30056
diff
changeset
|
818 |
unfolding One_nat_def |
27823 | 819 |
apply (cases n) |
820 |
apply blast |
|
821 |
apply (frule (1) ex_least_nat_le) |
|
822 |
apply (erule exE) |
|
823 |
apply (case_tac k) |
|
824 |
apply simp |
|
825 |
apply (rename_tac k1) |
|
826 |
apply (rule_tac x=k1 in exI) |
|
827 |
apply (auto simp add: less_eq_Suc_le) |
|
828 |
done |
|
829 |
||
26748
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
830 |
lemma nat_less_induct: |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
831 |
assumes "!!n. \<forall>m::nat. m < n --> P m ==> P n" shows "P n" |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
832 |
using assms less_induct by blast |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
833 |
|
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
834 |
lemma measure_induct_rule [case_names less]: |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
835 |
fixes f :: "'a \<Rightarrow> nat" |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
836 |
assumes step: "\<And>x. (\<And>y. f y < f x \<Longrightarrow> P y) \<Longrightarrow> P x" |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
837 |
shows "P a" |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
838 |
by (induct m\<equiv>"f a" arbitrary: a rule: less_induct) (auto intro: step) |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
839 |
|
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
840 |
text {* old style induction rules: *} |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
841 |
lemma measure_induct: |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
842 |
fixes f :: "'a \<Rightarrow> nat" |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
843 |
shows "(\<And>x. \<forall>y. f y < f x \<longrightarrow> P y \<Longrightarrow> P x) \<Longrightarrow> P a" |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
844 |
by (rule measure_induct_rule [of f P a]) iprover |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
845 |
|
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
846 |
lemma full_nat_induct: |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
847 |
assumes step: "(!!n. (ALL m. Suc m <= n --> P m) ==> P n)" |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
848 |
shows "P n" |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
849 |
by (rule less_induct) (auto intro: step simp:le_simps) |
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
850 |
|
19870 | 851 |
text{*An induction rule for estabilishing binary relations*} |
22718 | 852 |
lemma less_Suc_induct: |
19870 | 853 |
assumes less: "i < j" |
854 |
and step: "!!i. P i (Suc i)" |
|
31714 | 855 |
and trans: "!!i j k. i < j ==> j < k ==> P i j ==> P j k ==> P i k" |
19870 | 856 |
shows "P i j" |
857 |
proof - |
|
31714 | 858 |
from less obtain k where j: "j = Suc (i + k)" by (auto dest: less_imp_Suc_add) |
22718 | 859 |
have "P i (Suc (i + k))" |
19870 | 860 |
proof (induct k) |
22718 | 861 |
case 0 |
862 |
show ?case by (simp add: step) |
|
19870 | 863 |
next |
864 |
case (Suc k) |
|
31714 | 865 |
have "0 + i < Suc k + i" by (rule add_less_mono1) simp |
866 |
hence "i < Suc (i + k)" by (simp add: add_commute) |
|
867 |
from trans[OF this lessI Suc step] |
|
868 |
show ?case by simp |
|
19870 | 869 |
qed |
22718 | 870 |
thus "P i j" by (simp add: j) |
19870 | 871 |
qed |
872 |
||
26748
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
873 |
text {* The method of infinite descent, frequently used in number theory. |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
874 |
Provided by Roelof Oosterhuis. |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
875 |
$P(n)$ is true for all $n\in\mathbb{N}$ if |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
876 |
\begin{itemize} |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
877 |
\item case ``0'': given $n=0$ prove $P(n)$, |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
878 |
\item case ``smaller'': given $n>0$ and $\neg P(n)$ prove there exists |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
879 |
a smaller integer $m$ such that $\neg P(m)$. |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
880 |
\end{itemize} *} |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
881 |
|
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
882 |
text{* A compact version without explicit base case: *} |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
883 |
lemma infinite_descent: |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
884 |
"\<lbrakk> !!n::nat. \<not> P n \<Longrightarrow> \<exists>m<n. \<not> P m \<rbrakk> \<Longrightarrow> P n" |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
885 |
by (induct n rule: less_induct, auto) |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
886 |
|
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
887 |
lemma infinite_descent0[case_names 0 smaller]: |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
888 |
"\<lbrakk> P 0; !!n. n>0 \<Longrightarrow> \<not> P n \<Longrightarrow> (\<exists>m::nat. m < n \<and> \<not>P m) \<rbrakk> \<Longrightarrow> P n" |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
889 |
by (rule infinite_descent) (case_tac "n>0", auto) |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
890 |
|
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
891 |
text {* |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
892 |
Infinite descent using a mapping to $\mathbb{N}$: |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
893 |
$P(x)$ is true for all $x\in D$ if there exists a $V: D \to \mathbb{N}$ and |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
894 |
\begin{itemize} |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
895 |
\item case ``0'': given $V(x)=0$ prove $P(x)$, |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
896 |
\item case ``smaller'': given $V(x)>0$ and $\neg P(x)$ prove there exists a $y \in D$ such that $V(y)<V(x)$ and $~\neg P(y)$. |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
897 |
\end{itemize} |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
898 |
NB: the proof also shows how to use the previous lemma. *} |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
899 |
|
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
900 |
corollary infinite_descent0_measure [case_names 0 smaller]: |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
901 |
assumes A0: "!!x. V x = (0::nat) \<Longrightarrow> P x" |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
902 |
and A1: "!!x. V x > 0 \<Longrightarrow> \<not>P x \<Longrightarrow> (\<exists>y. V y < V x \<and> \<not>P y)" |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
903 |
shows "P x" |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
904 |
proof - |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
905 |
obtain n where "n = V x" by auto |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
906 |
moreover have "\<And>x. V x = n \<Longrightarrow> P x" |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
907 |
proof (induct n rule: infinite_descent0) |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
908 |
case 0 -- "i.e. $V(x) = 0$" |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
909 |
with A0 show "P x" by auto |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
910 |
next -- "now $n>0$ and $P(x)$ does not hold for some $x$ with $V(x)=n$" |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
911 |
case (smaller n) |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
912 |
then obtain x where vxn: "V x = n " and "V x > 0 \<and> \<not> P x" by auto |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
913 |
with A1 obtain y where "V y < V x \<and> \<not> P y" by auto |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
914 |
with vxn obtain m where "m = V y \<and> m<n \<and> \<not> P y" by auto |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
915 |
then show ?case by auto |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
916 |
qed |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
917 |
ultimately show "P x" by auto |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
918 |
qed |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
919 |
|
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
920 |
text{* Again, without explicit base case: *} |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
921 |
lemma infinite_descent_measure: |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
922 |
assumes "!!x. \<not> P x \<Longrightarrow> \<exists>y. (V::'a\<Rightarrow>nat) y < V x \<and> \<not> P y" shows "P x" |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
923 |
proof - |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
924 |
from assms obtain n where "n = V x" by auto |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
925 |
moreover have "!!x. V x = n \<Longrightarrow> P x" |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
926 |
proof (induct n rule: infinite_descent, auto) |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
927 |
fix x assume "\<not> P x" |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
928 |
with assms show "\<exists>m < V x. \<exists>y. V y = m \<and> \<not> P y" by auto |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
929 |
qed |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
930 |
ultimately show "P x" by auto |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
931 |
qed |
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
932 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
933 |
text {* A [clumsy] way of lifting @{text "<"} |
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
934 |
monotonicity to @{text "\<le>"} monotonicity *} |
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
935 |
lemma less_mono_imp_le_mono: |
24438 | 936 |
"\<lbrakk> !!i j::nat. i < j \<Longrightarrow> f i < f j; i \<le> j \<rbrakk> \<Longrightarrow> f i \<le> ((f j)::nat)" |
937 |
by (simp add: order_le_less) (blast) |
|
938 |
||
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
939 |
|
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
940 |
text {* non-strict, in 1st argument *} |
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
941 |
lemma add_le_mono1: "i \<le> j ==> i + k \<le> j + (k::nat)" |
24438 | 942 |
by (rule add_right_mono) |
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
943 |
|
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
944 |
text {* non-strict, in both arguments *} |
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
945 |
lemma add_le_mono: "[| i \<le> j; k \<le> l |] ==> i + k \<le> j + (l::nat)" |
24438 | 946 |
by (rule add_mono) |
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
947 |
|
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
948 |
lemma le_add2: "n \<le> ((m + n)::nat)" |
24438 | 949 |
by (insert add_right_mono [of 0 m n], simp) |
13449 | 950 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
951 |
lemma le_add1: "n \<le> ((n + m)::nat)" |
24438 | 952 |
by (simp add: add_commute, rule le_add2) |
13449 | 953 |
|
954 |
lemma less_add_Suc1: "i < Suc (i + m)" |
|
24438 | 955 |
by (rule le_less_trans, rule le_add1, rule lessI) |
13449 | 956 |
|
957 |
lemma less_add_Suc2: "i < Suc (m + i)" |
|
24438 | 958 |
by (rule le_less_trans, rule le_add2, rule lessI) |
13449 | 959 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
960 |
lemma less_iff_Suc_add: "(m < n) = (\<exists>k. n = Suc (m + k))" |
24438 | 961 |
by (iprover intro!: less_add_Suc1 less_imp_Suc_add) |
13449 | 962 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
963 |
lemma trans_le_add1: "(i::nat) \<le> j ==> i \<le> j + m" |
24438 | 964 |
by (rule le_trans, assumption, rule le_add1) |
13449 | 965 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
966 |
lemma trans_le_add2: "(i::nat) \<le> j ==> i \<le> m + j" |
24438 | 967 |
by (rule le_trans, assumption, rule le_add2) |
13449 | 968 |
|
969 |
lemma trans_less_add1: "(i::nat) < j ==> i < j + m" |
|
24438 | 970 |
by (rule less_le_trans, assumption, rule le_add1) |
13449 | 971 |
|
972 |
lemma trans_less_add2: "(i::nat) < j ==> i < m + j" |
|
24438 | 973 |
by (rule less_le_trans, assumption, rule le_add2) |
13449 | 974 |
|
975 |
lemma add_lessD1: "i + j < (k::nat) ==> i < k" |
|
24438 | 976 |
apply (rule le_less_trans [of _ "i+j"]) |
977 |
apply (simp_all add: le_add1) |
|
978 |
done |
|
13449 | 979 |
|
980 |
lemma not_add_less1 [iff]: "~ (i + j < (i::nat))" |
|
24438 | 981 |
apply (rule notI) |
26335
961bbcc9d85b
removed redundant Nat.less_not_sym, Nat.less_asym;
wenzelm
parents:
26315
diff
changeset
|
982 |
apply (drule add_lessD1) |
961bbcc9d85b
removed redundant Nat.less_not_sym, Nat.less_asym;
wenzelm
parents:
26315
diff
changeset
|
983 |
apply (erule less_irrefl [THEN notE]) |
24438 | 984 |
done |
13449 | 985 |
|
986 |
lemma not_add_less2 [iff]: "~ (j + i < (i::nat))" |
|
26748
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
987 |
by (simp add: add_commute) |
13449 | 988 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
989 |
lemma add_leD1: "m + k \<le> n ==> m \<le> (n::nat)" |
24438 | 990 |
apply (rule order_trans [of _ "m+k"]) |
991 |
apply (simp_all add: le_add1) |
|
992 |
done |
|
13449 | 993 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
994 |
lemma add_leD2: "m + k \<le> n ==> k \<le> (n::nat)" |
24438 | 995 |
apply (simp add: add_commute) |
996 |
apply (erule add_leD1) |
|
997 |
done |
|
13449 | 998 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
999 |
lemma add_leE: "(m::nat) + k \<le> n ==> (m \<le> n ==> k \<le> n ==> R) ==> R" |
24438 | 1000 |
by (blast dest: add_leD1 add_leD2) |
13449 | 1001 |
|
1002 |
text {* needs @{text "!!k"} for @{text add_ac} to work *} |
|
1003 |
lemma less_add_eq_less: "!!k::nat. k < l ==> m + l = k + n ==> m < n" |
|
24438 | 1004 |
by (force simp del: add_Suc_right |
13449 | 1005 |
simp add: less_iff_Suc_add add_Suc_right [symmetric] add_ac) |
1006 |
||
1007 |
||
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1008 |
subsubsection {* More results about difference *} |
13449 | 1009 |
|
1010 |
text {* Addition is the inverse of subtraction: |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
1011 |
if @{term "n \<le> m"} then @{term "n + (m - n) = m"}. *} |
13449 | 1012 |
lemma add_diff_inverse: "~ m < n ==> n + (m - n) = (m::nat)" |
24438 | 1013 |
by (induct m n rule: diff_induct) simp_all |
13449 | 1014 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
1015 |
lemma le_add_diff_inverse [simp]: "n \<le> m ==> n + (m - n) = (m::nat)" |
24438 | 1016 |
by (simp add: add_diff_inverse linorder_not_less) |
13449 | 1017 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
1018 |
lemma le_add_diff_inverse2 [simp]: "n \<le> m ==> (m - n) + n = (m::nat)" |
26748
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
1019 |
by (simp add: add_commute) |
13449 | 1020 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
1021 |
lemma Suc_diff_le: "n \<le> m ==> Suc m - n = Suc (m - n)" |
24438 | 1022 |
by (induct m n rule: diff_induct) simp_all |
13449 | 1023 |
|
1024 |
lemma diff_less_Suc: "m - n < Suc m" |
|
24438 | 1025 |
apply (induct m n rule: diff_induct) |
1026 |
apply (erule_tac [3] less_SucE) |
|
1027 |
apply (simp_all add: less_Suc_eq) |
|
1028 |
done |
|
13449 | 1029 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
1030 |
lemma diff_le_self [simp]: "m - n \<le> (m::nat)" |
24438 | 1031 |
by (induct m n rule: diff_induct) (simp_all add: le_SucI) |
13449 | 1032 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1033 |
lemma le_iff_add: "(m::nat) \<le> n = (\<exists>k. n = m + k)" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1034 |
by (auto simp: le_add1 dest!: le_add_diff_inverse sym [of _ n]) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1035 |
|
13449 | 1036 |
lemma less_imp_diff_less: "(j::nat) < k ==> j - n < k" |
24438 | 1037 |
by (rule le_less_trans, rule diff_le_self) |
13449 | 1038 |
|
1039 |
lemma diff_Suc_less [simp]: "0<n ==> n - Suc i < n" |
|
24438 | 1040 |
by (cases n) (auto simp add: le_simps) |
13449 | 1041 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
1042 |
lemma diff_add_assoc: "k \<le> (j::nat) ==> (i + j) - k = i + (j - k)" |
24438 | 1043 |
by (induct j k rule: diff_induct) simp_all |
13449 | 1044 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
1045 |
lemma diff_add_assoc2: "k \<le> (j::nat) ==> (j + i) - k = (j - k) + i" |
24438 | 1046 |
by (simp add: add_commute diff_add_assoc) |
13449 | 1047 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
1048 |
lemma le_imp_diff_is_add: "i \<le> (j::nat) ==> (j - i = k) = (j = k + i)" |
24438 | 1049 |
by (auto simp add: diff_add_inverse2) |
13449 | 1050 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
1051 |
lemma diff_is_0_eq [simp]: "((m::nat) - n = 0) = (m \<le> n)" |
24438 | 1052 |
by (induct m n rule: diff_induct) simp_all |
13449 | 1053 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
1054 |
lemma diff_is_0_eq' [simp]: "m \<le> n ==> (m::nat) - n = 0" |
24438 | 1055 |
by (rule iffD2, rule diff_is_0_eq) |
13449 | 1056 |
|
1057 |
lemma zero_less_diff [simp]: "(0 < n - (m::nat)) = (m < n)" |
|
24438 | 1058 |
by (induct m n rule: diff_induct) simp_all |
13449 | 1059 |
|
22718 | 1060 |
lemma less_imp_add_positive: |
1061 |
assumes "i < j" |
|
1062 |
shows "\<exists>k::nat. 0 < k & i + k = j" |
|
1063 |
proof |
|
1064 |
from assms show "0 < j - i & i + (j - i) = j" |
|
23476 | 1065 |
by (simp add: order_less_imp_le) |
22718 | 1066 |
qed |
9436
62bb04ab4b01
rearranged setup of arithmetic procedures, avoiding global reference values;
wenzelm
parents:
7702
diff
changeset
|
1067 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1068 |
text {* a nice rewrite for bounded subtraction *} |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1069 |
lemma nat_minus_add_max: |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1070 |
fixes n m :: nat |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1071 |
shows "n - m + m = max n m" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1072 |
by (simp add: max_def not_le order_less_imp_le) |
13449 | 1073 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1074 |
lemma nat_diff_split: |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1075 |
"P(a - b::nat) = ((a<b --> P 0) & (ALL d. a = b + d --> P d))" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1076 |
-- {* elimination of @{text -} on @{text nat} *} |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1077 |
by (cases "a < b") |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1078 |
(auto simp add: diff_is_0_eq [THEN iffD2] diff_add_inverse |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1079 |
not_less le_less dest!: sym [of a] sym [of b] add_eq_self_zero) |
13449 | 1080 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1081 |
lemma nat_diff_split_asm: |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1082 |
"P(a - b::nat) = (~ (a < b & ~ P 0 | (EX d. a = b + d & ~ P d)))" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1083 |
-- {* elimination of @{text -} on @{text nat} in assumptions *} |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1084 |
by (auto split: nat_diff_split) |
13449 | 1085 |
|
1086 |
||
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1087 |
subsubsection {* Monotonicity of Multiplication *} |
13449 | 1088 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
1089 |
lemma mult_le_mono1: "i \<le> (j::nat) ==> i * k \<le> j * k" |
24438 | 1090 |
by (simp add: mult_right_mono) |
13449 | 1091 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
1092 |
lemma mult_le_mono2: "i \<le> (j::nat) ==> k * i \<le> k * j" |
24438 | 1093 |
by (simp add: mult_left_mono) |
13449 | 1094 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
1095 |
text {* @{text "\<le>"} monotonicity, BOTH arguments *} |
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
1096 |
lemma mult_le_mono: "i \<le> (j::nat) ==> k \<le> l ==> i * k \<le> j * l" |
24438 | 1097 |
by (simp add: mult_mono) |
13449 | 1098 |
|
1099 |
lemma mult_less_mono1: "(i::nat) < j ==> 0 < k ==> i * k < j * k" |
|
24438 | 1100 |
by (simp add: mult_strict_right_mono) |
13449 | 1101 |
|
14266 | 1102 |
text{*Differs from the standard @{text zero_less_mult_iff} in that |
1103 |
there are no negative numbers.*} |
|
1104 |
lemma nat_0_less_mult_iff [simp]: "(0 < (m::nat) * n) = (0 < m & 0 < n)" |
|
13449 | 1105 |
apply (induct m) |
22718 | 1106 |
apply simp |
1107 |
apply (case_tac n) |
|
1108 |
apply simp_all |
|
13449 | 1109 |
done |
1110 |
||
30079
293b896b9c25
make proofs work whether or not One_nat_def is a simp rule; replace 1 with Suc 0 in the rhs of some simp rules
huffman
parents:
30056
diff
changeset
|
1111 |
lemma one_le_mult_iff [simp]: "(Suc 0 \<le> m * n) = (Suc 0 \<le> m & Suc 0 \<le> n)" |
13449 | 1112 |
apply (induct m) |
22718 | 1113 |
apply simp |
1114 |
apply (case_tac n) |
|
1115 |
apply simp_all |
|
13449 | 1116 |
done |
1117 |
||
14341
a09441bd4f1e
Ring_and_Field now requires axiom add_left_imp_eq for semirings.
paulson
parents:
14331
diff
changeset
|
1118 |
lemma mult_less_cancel2 [simp]: "((m::nat) * k < n * k) = (0 < k & m < n)" |
13449 | 1119 |
apply (safe intro!: mult_less_mono1) |
14208 | 1120 |
apply (case_tac k, auto) |
13449 | 1121 |
apply (simp del: le_0_eq add: linorder_not_le [symmetric]) |
1122 |
apply (blast intro: mult_le_mono1) |
|
1123 |
done |
|
1124 |
||
1125 |
lemma mult_less_cancel1 [simp]: "(k * (m::nat) < k * n) = (0 < k & m < n)" |
|
24438 | 1126 |
by (simp add: mult_commute [of k]) |
13449 | 1127 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
1128 |
lemma mult_le_cancel1 [simp]: "(k * (m::nat) \<le> k * n) = (0 < k --> m \<le> n)" |
24438 | 1129 |
by (simp add: linorder_not_less [symmetric], auto) |
13449 | 1130 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
1131 |
lemma mult_le_cancel2 [simp]: "((m::nat) * k \<le> n * k) = (0 < k --> m \<le> n)" |
24438 | 1132 |
by (simp add: linorder_not_less [symmetric], auto) |
13449 | 1133 |
|
1134 |
lemma Suc_mult_less_cancel1: "(Suc k * m < Suc k * n) = (m < n)" |
|
24438 | 1135 |
by (subst mult_less_cancel1) simp |
13449 | 1136 |
|
14267
b963e9cee2a0
More refinements to Ring_and_Field and numerics. Conversion of Divides_lemmas
paulson
parents:
14266
diff
changeset
|
1137 |
lemma Suc_mult_le_cancel1: "(Suc k * m \<le> Suc k * n) = (m \<le> n)" |
24438 | 1138 |
by (subst mult_le_cancel1) simp |
13449 | 1139 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1140 |
lemma le_square: "m \<le> m * (m::nat)" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1141 |
by (cases m) (auto intro: le_add1) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1142 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1143 |
lemma le_cube: "(m::nat) \<le> m * (m * m)" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1144 |
by (cases m) (auto intro: le_add1) |
13449 | 1145 |
|
1146 |
text {* Lemma for @{text gcd} *} |
|
30128
365ee7319b86
revert some Suc 0 lemmas back to their original forms; added some simp rules for (1::nat)
huffman
parents:
30093
diff
changeset
|
1147 |
lemma mult_eq_self_implies_10: "(m::nat) = m * n ==> n = 1 | m = 0" |
13449 | 1148 |
apply (drule sym) |
1149 |
apply (rule disjCI) |
|
1150 |
apply (rule nat_less_cases, erule_tac [2] _) |
|
25157 | 1151 |
apply (drule_tac [2] mult_less_mono2) |
25162 | 1152 |
apply (auto) |
13449 | 1153 |
done |
9436
62bb04ab4b01
rearranged setup of arithmetic procedures, avoiding global reference values;
wenzelm
parents:
7702
diff
changeset
|
1154 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1155 |
text {* the lattice order on @{typ nat} *} |
24995 | 1156 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1157 |
instantiation nat :: distrib_lattice |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1158 |
begin |
24995 | 1159 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1160 |
definition |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1161 |
"(inf \<Colon> nat \<Rightarrow> nat \<Rightarrow> nat) = min" |
24995 | 1162 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1163 |
definition |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1164 |
"(sup \<Colon> nat \<Rightarrow> nat \<Rightarrow> nat) = max" |
24995 | 1165 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1166 |
instance by intro_classes |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1167 |
(auto simp add: inf_nat_def sup_nat_def max_def not_le min_def |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1168 |
intro: order_less_imp_le antisym elim!: order_trans order_less_trans) |
24995 | 1169 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1170 |
end |
24995 | 1171 |
|
1172 |
||
30954
cf50e67bc1d1
power operation on functions in theory Nat; power operation on relations in theory Transitive_Closure
haftmann
parents:
30686
diff
changeset
|
1173 |
subsection {* Natural operation of natural numbers on functions *} |
cf50e67bc1d1
power operation on functions in theory Nat; power operation on relations in theory Transitive_Closure
haftmann
parents:
30686
diff
changeset
|
1174 |
|
30971 | 1175 |
text {* |
1176 |
We use the same logical constant for the power operations on |
|
1177 |
functions and relations, in order to share the same syntax. |
|
1178 |
*} |
|
1179 |
||
1180 |
consts compow :: "nat \<Rightarrow> ('a \<Rightarrow> 'b) \<Rightarrow> ('a \<Rightarrow> 'b)" |
|
1181 |
||
1182 |
abbreviation compower :: "('a \<Rightarrow> 'b) \<Rightarrow> nat \<Rightarrow> 'a \<Rightarrow> 'b" (infixr "^^" 80) where |
|
1183 |
"f ^^ n \<equiv> compow n f" |
|
1184 |
||
1185 |
notation (latex output) |
|
1186 |
compower ("(_\<^bsup>_\<^esup>)" [1000] 1000) |
|
1187 |
||
1188 |
notation (HTML output) |
|
1189 |
compower ("(_\<^bsup>_\<^esup>)" [1000] 1000) |
|
1190 |
||
1191 |
text {* @{text "f ^^ n = f o ... o f"}, the n-fold composition of @{text f} *} |
|
1192 |
||
1193 |
overloading |
|
1194 |
funpow == "compow :: nat \<Rightarrow> ('a \<Rightarrow> 'a) \<Rightarrow> ('a \<Rightarrow> 'a)" |
|
1195 |
begin |
|
30954
cf50e67bc1d1
power operation on functions in theory Nat; power operation on relations in theory Transitive_Closure
haftmann
parents:
30686
diff
changeset
|
1196 |
|
cf50e67bc1d1
power operation on functions in theory Nat; power operation on relations in theory Transitive_Closure
haftmann
parents:
30686
diff
changeset
|
1197 |
primrec funpow :: "nat \<Rightarrow> ('a \<Rightarrow> 'a) \<Rightarrow> 'a \<Rightarrow> 'a" where |
cf50e67bc1d1
power operation on functions in theory Nat; power operation on relations in theory Transitive_Closure
haftmann
parents:
30686
diff
changeset
|
1198 |
"funpow 0 f = id" |
cf50e67bc1d1
power operation on functions in theory Nat; power operation on relations in theory Transitive_Closure
haftmann
parents:
30686
diff
changeset
|
1199 |
| "funpow (Suc n) f = f o funpow n f" |
cf50e67bc1d1
power operation on functions in theory Nat; power operation on relations in theory Transitive_Closure
haftmann
parents:
30686
diff
changeset
|
1200 |
|
30971 | 1201 |
end |
1202 |
||
1203 |
text {* for code generation *} |
|
1204 |
||
1205 |
definition funpow :: "nat \<Rightarrow> ('a \<Rightarrow> 'a) \<Rightarrow> 'a \<Rightarrow> 'a" where |
|
31998
2c7a24f74db9
code attributes use common underscore convention
haftmann
parents:
31714
diff
changeset
|
1206 |
funpow_code_def [code_post]: "funpow = compow" |
30954
cf50e67bc1d1
power operation on functions in theory Nat; power operation on relations in theory Transitive_Closure
haftmann
parents:
30686
diff
changeset
|
1207 |
|
31998
2c7a24f74db9
code attributes use common underscore convention
haftmann
parents:
31714
diff
changeset
|
1208 |
lemmas [code_unfold] = funpow_code_def [symmetric] |
30954
cf50e67bc1d1
power operation on functions in theory Nat; power operation on relations in theory Transitive_Closure
haftmann
parents:
30686
diff
changeset
|
1209 |
|
30971 | 1210 |
lemma [code]: |
1211 |
"funpow 0 f = id" |
|
1212 |
"funpow (Suc n) f = f o funpow n f" |
|
1213 |
unfolding funpow_code_def by simp_all |
|
1214 |
||
30975
b2fa60d56735
some jokes are just too bad to appear in a theory file
haftmann
parents:
30971
diff
changeset
|
1215 |
hide (open) const funpow |
30954
cf50e67bc1d1
power operation on functions in theory Nat; power operation on relations in theory Transitive_Closure
haftmann
parents:
30686
diff
changeset
|
1216 |
|
cf50e67bc1d1
power operation on functions in theory Nat; power operation on relations in theory Transitive_Closure
haftmann
parents:
30686
diff
changeset
|
1217 |
lemma funpow_add: |
30971 | 1218 |
"f ^^ (m + n) = f ^^ m \<circ> f ^^ n" |
30954
cf50e67bc1d1
power operation on functions in theory Nat; power operation on relations in theory Transitive_Closure
haftmann
parents:
30686
diff
changeset
|
1219 |
by (induct m) simp_all |
cf50e67bc1d1
power operation on functions in theory Nat; power operation on relations in theory Transitive_Closure
haftmann
parents:
30686
diff
changeset
|
1220 |
|
cf50e67bc1d1
power operation on functions in theory Nat; power operation on relations in theory Transitive_Closure
haftmann
parents:
30686
diff
changeset
|
1221 |
lemma funpow_swap1: |
30971 | 1222 |
"f ((f ^^ n) x) = (f ^^ n) (f x)" |
30954
cf50e67bc1d1
power operation on functions in theory Nat; power operation on relations in theory Transitive_Closure
haftmann
parents:
30686
diff
changeset
|
1223 |
proof - |
30971 | 1224 |
have "f ((f ^^ n) x) = (f ^^ (n + 1)) x" by simp |
1225 |
also have "\<dots> = (f ^^ n o f ^^ 1) x" by (simp only: funpow_add) |
|
1226 |
also have "\<dots> = (f ^^ n) (f x)" by simp |
|
30954
cf50e67bc1d1
power operation on functions in theory Nat; power operation on relations in theory Transitive_Closure
haftmann
parents:
30686
diff
changeset
|
1227 |
finally show ?thesis . |
cf50e67bc1d1
power operation on functions in theory Nat; power operation on relations in theory Transitive_Closure
haftmann
parents:
30686
diff
changeset
|
1228 |
qed |
cf50e67bc1d1
power operation on functions in theory Nat; power operation on relations in theory Transitive_Closure
haftmann
parents:
30686
diff
changeset
|
1229 |
|
cf50e67bc1d1
power operation on functions in theory Nat; power operation on relations in theory Transitive_Closure
haftmann
parents:
30686
diff
changeset
|
1230 |
|
25193 | 1231 |
subsection {* Embedding of the Naturals into any |
1232 |
@{text semiring_1}: @{term of_nat} *} |
|
24196 | 1233 |
|
1234 |
context semiring_1 |
|
1235 |
begin |
|
1236 |
||
25559 | 1237 |
primrec |
1238 |
of_nat :: "nat \<Rightarrow> 'a" |
|
1239 |
where |
|
1240 |
of_nat_0: "of_nat 0 = 0" |
|
1241 |
| of_nat_Suc: "of_nat (Suc m) = 1 + of_nat m" |
|
25193 | 1242 |
|
1243 |
lemma of_nat_1 [simp]: "of_nat 1 = 1" |
|
30079
293b896b9c25
make proofs work whether or not One_nat_def is a simp rule; replace 1 with Suc 0 in the rhs of some simp rules
huffman
parents:
30056
diff
changeset
|
1244 |
unfolding One_nat_def by simp |
25193 | 1245 |
|
1246 |
lemma of_nat_add [simp]: "of_nat (m + n) = of_nat m + of_nat n" |
|
1247 |
by (induct m) (simp_all add: add_ac) |
|
1248 |
||
1249 |
lemma of_nat_mult: "of_nat (m * n) = of_nat m * of_nat n" |
|
1250 |
by (induct m) (simp_all add: add_ac left_distrib) |
|
1251 |
||
28514 | 1252 |
primrec of_nat_aux :: "('a \<Rightarrow> 'a) \<Rightarrow> nat \<Rightarrow> 'a \<Rightarrow> 'a" where |
1253 |
"of_nat_aux inc 0 i = i" |
|
1254 |
| "of_nat_aux inc (Suc n) i = of_nat_aux inc n (inc i)" -- {* tail recursive *} |
|
25928 | 1255 |
|
30966 | 1256 |
lemma of_nat_code: |
28514 | 1257 |
"of_nat n = of_nat_aux (\<lambda>i. i + 1) n 0" |
1258 |
proof (induct n) |
|
1259 |
case 0 then show ?case by simp |
|
1260 |
next |
|
1261 |
case (Suc n) |
|
1262 |
have "\<And>i. of_nat_aux (\<lambda>i. i + 1) n (i + 1) = of_nat_aux (\<lambda>i. i + 1) n i + 1" |
|
1263 |
by (induct n) simp_all |
|
1264 |
from this [of 0] have "of_nat_aux (\<lambda>i. i + 1) n 1 = of_nat_aux (\<lambda>i. i + 1) n 0 + 1" |
|
1265 |
by simp |
|
1266 |
with Suc show ?case by (simp add: add_commute) |
|
1267 |
qed |
|
30966 | 1268 |
|
24196 | 1269 |
end |
1270 |
||
31998
2c7a24f74db9
code attributes use common underscore convention
haftmann
parents:
31714
diff
changeset
|
1271 |
declare of_nat_code [code, code_unfold, code_inline del] |
30966 | 1272 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1273 |
text{*Class for unital semirings with characteristic zero. |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1274 |
Includes non-ordered rings like the complex numbers.*} |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1275 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1276 |
class semiring_char_0 = semiring_1 + |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1277 |
assumes of_nat_eq_iff [simp]: "of_nat m = of_nat n \<longleftrightarrow> m = n" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1278 |
begin |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1279 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1280 |
text{*Special cases where either operand is zero*} |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1281 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1282 |
lemma of_nat_0_eq_iff [simp, noatp]: "0 = of_nat n \<longleftrightarrow> 0 = n" |
31024
0fdf666e08bf
reimplement reorientation simproc using theory data
huffman
parents:
30975
diff
changeset
|
1283 |
by (rule of_nat_eq_iff [of 0 n, unfolded of_nat_0]) |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1284 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1285 |
lemma of_nat_eq_0_iff [simp, noatp]: "of_nat m = 0 \<longleftrightarrow> m = 0" |
31024
0fdf666e08bf
reimplement reorientation simproc using theory data
huffman
parents:
30975
diff
changeset
|
1286 |
by (rule of_nat_eq_iff [of m 0, unfolded of_nat_0]) |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1287 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1288 |
lemma inj_of_nat: "inj of_nat" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1289 |
by (simp add: inj_on_def) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1290 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1291 |
end |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1292 |
|
35028
108662d50512
more consistent naming of type classes involving orderings (and lattices) -- c.f. NEWS
haftmann
parents:
34208
diff
changeset
|
1293 |
context linordered_semidom |
25193 | 1294 |
begin |
1295 |
||
1296 |
lemma zero_le_imp_of_nat: "0 \<le> of_nat m" |
|
1297 |
apply (induct m, simp_all) |
|
1298 |
apply (erule order_trans) |
|
1299 |
apply (rule ord_le_eq_trans [OF _ add_commute]) |
|
1300 |
apply (rule less_add_one [THEN less_imp_le]) |
|
1301 |
done |
|
1302 |
||
1303 |
lemma less_imp_of_nat_less: "m < n \<Longrightarrow> of_nat m < of_nat n" |
|
1304 |
apply (induct m n rule: diff_induct, simp_all) |
|
1305 |
apply (insert add_less_le_mono [OF zero_less_one zero_le_imp_of_nat], force) |
|
1306 |
done |
|
1307 |
||
1308 |
lemma of_nat_less_imp_less: "of_nat m < of_nat n \<Longrightarrow> m < n" |
|
1309 |
apply (induct m n rule: diff_induct, simp_all) |
|
1310 |
apply (insert zero_le_imp_of_nat) |
|
1311 |
apply (force simp add: not_less [symmetric]) |
|
1312 |
done |
|
1313 |
||
1314 |
lemma of_nat_less_iff [simp]: "of_nat m < of_nat n \<longleftrightarrow> m < n" |
|
1315 |
by (blast intro: of_nat_less_imp_less less_imp_of_nat_less) |
|
1316 |
||
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1317 |
lemma of_nat_le_iff [simp]: "of_nat m \<le> of_nat n \<longleftrightarrow> m \<le> n" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1318 |
by (simp add: not_less [symmetric] linorder_not_less [symmetric]) |
25193 | 1319 |
|
35028
108662d50512
more consistent naming of type classes involving orderings (and lattices) -- c.f. NEWS
haftmann
parents:
34208
diff
changeset
|
1320 |
text{*Every @{text linordered_semidom} has characteristic zero.*} |
25193 | 1321 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1322 |
subclass semiring_char_0 |
28823 | 1323 |
proof qed (simp add: eq_iff order_eq_iff) |
25193 | 1324 |
|
1325 |
text{*Special cases where either operand is zero*} |
|
1326 |
||
1327 |
lemma of_nat_0_le_iff [simp]: "0 \<le> of_nat n" |
|
1328 |
by (rule of_nat_le_iff [of 0, simplified]) |
|
1329 |
||
1330 |
lemma of_nat_le_0_iff [simp, noatp]: "of_nat m \<le> 0 \<longleftrightarrow> m = 0" |
|
1331 |
by (rule of_nat_le_iff [of _ 0, simplified]) |
|
1332 |
||
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1333 |
lemma of_nat_0_less_iff [simp]: "0 < of_nat n \<longleftrightarrow> 0 < n" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1334 |
by (rule of_nat_less_iff [of 0, simplified]) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1335 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1336 |
lemma of_nat_less_0_iff [simp]: "\<not> of_nat m < 0" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1337 |
by (rule of_nat_less_iff [of _ 0, simplified]) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1338 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1339 |
end |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1340 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1341 |
context ring_1 |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1342 |
begin |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1343 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1344 |
lemma of_nat_diff: "n \<le> m \<Longrightarrow> of_nat (m - n) = of_nat m - of_nat n" |
29667 | 1345 |
by (simp add: algebra_simps of_nat_add [symmetric]) |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1346 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1347 |
end |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1348 |
|
35028
108662d50512
more consistent naming of type classes involving orderings (and lattices) -- c.f. NEWS
haftmann
parents:
34208
diff
changeset
|
1349 |
context linordered_idom |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1350 |
begin |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1351 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1352 |
lemma abs_of_nat [simp]: "\<bar>of_nat n\<bar> = of_nat n" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1353 |
unfolding abs_if by auto |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1354 |
|
25193 | 1355 |
end |
1356 |
||
1357 |
lemma of_nat_id [simp]: "of_nat n = n" |
|
35216 | 1358 |
by (induct n) simp_all |
25193 | 1359 |
|
1360 |
lemma of_nat_eq_id [simp]: "of_nat = id" |
|
1361 |
by (auto simp add: expand_fun_eq) |
|
1362 |
||
1363 |
||
26149 | 1364 |
subsection {* The Set of Natural Numbers *} |
25193 | 1365 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1366 |
context semiring_1 |
25193 | 1367 |
begin |
1368 |
||
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1369 |
definition |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1370 |
Nats :: "'a set" where |
28562 | 1371 |
[code del]: "Nats = range of_nat" |
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1372 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1373 |
notation (xsymbols) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1374 |
Nats ("\<nat>") |
25193 | 1375 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1376 |
lemma of_nat_in_Nats [simp]: "of_nat n \<in> \<nat>" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1377 |
by (simp add: Nats_def) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1378 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1379 |
lemma Nats_0 [simp]: "0 \<in> \<nat>" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1380 |
apply (simp add: Nats_def) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1381 |
apply (rule range_eqI) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1382 |
apply (rule of_nat_0 [symmetric]) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1383 |
done |
25193 | 1384 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1385 |
lemma Nats_1 [simp]: "1 \<in> \<nat>" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1386 |
apply (simp add: Nats_def) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1387 |
apply (rule range_eqI) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1388 |
apply (rule of_nat_1 [symmetric]) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1389 |
done |
25193 | 1390 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1391 |
lemma Nats_add [simp]: "a \<in> \<nat> \<Longrightarrow> b \<in> \<nat> \<Longrightarrow> a + b \<in> \<nat>" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1392 |
apply (auto simp add: Nats_def) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1393 |
apply (rule range_eqI) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1394 |
apply (rule of_nat_add [symmetric]) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1395 |
done |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1396 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1397 |
lemma Nats_mult [simp]: "a \<in> \<nat> \<Longrightarrow> b \<in> \<nat> \<Longrightarrow> a * b \<in> \<nat>" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1398 |
apply (auto simp add: Nats_def) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1399 |
apply (rule range_eqI) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1400 |
apply (rule of_nat_mult [symmetric]) |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1401 |
done |
25193 | 1402 |
|
1403 |
end |
|
1404 |
||
1405 |
||
21243 | 1406 |
subsection {* Further Arithmetic Facts Concerning the Natural Numbers *} |
1407 |
||
22845 | 1408 |
lemma subst_equals: |
1409 |
assumes 1: "t = s" and 2: "u = t" |
|
1410 |
shows "u = s" |
|
1411 |
using 2 1 by (rule trans) |
|
1412 |
||
30686
47a32dd1b86e
moved generic arith_tac (formerly silent_arith_tac), verbose_arith_tac (formerly arith_tac) to Arith_Data; simple_arith-tac now named linear_arith_tac
haftmann
parents:
30496
diff
changeset
|
1413 |
setup Arith_Data.setup |
47a32dd1b86e
moved generic arith_tac (formerly silent_arith_tac), verbose_arith_tac (formerly arith_tac) to Arith_Data; simple_arith-tac now named linear_arith_tac
haftmann
parents:
30496
diff
changeset
|
1414 |
|
30496
7cdcc9dd95cb
vague cleanup in arith proof tools setup: deleted dead code, more proper structures, clearer arrangement
haftmann
parents:
30242
diff
changeset
|
1415 |
use "Tools/nat_arith.ML" |
7cdcc9dd95cb
vague cleanup in arith proof tools setup: deleted dead code, more proper structures, clearer arrangement
haftmann
parents:
30242
diff
changeset
|
1416 |
declaration {* K Nat_Arith.setup *} |
24091 | 1417 |
|
1418 |
use "Tools/lin_arith.ML" |
|
31100 | 1419 |
setup {* Lin_Arith.global_setup *} |
30686
47a32dd1b86e
moved generic arith_tac (formerly silent_arith_tac), verbose_arith_tac (formerly arith_tac) to Arith_Data; simple_arith-tac now named linear_arith_tac
haftmann
parents:
30496
diff
changeset
|
1420 |
declaration {* K Lin_Arith.setup *} |
24091 | 1421 |
|
21243 | 1422 |
lemmas [arith_split] = nat_diff_split split_min split_max |
1423 |
||
27625 | 1424 |
context order |
1425 |
begin |
|
1426 |
||
1427 |
lemma lift_Suc_mono_le: |
|
27627 | 1428 |
assumes mono: "!!n. f n \<le> f(Suc n)" and "n\<le>n'" |
1429 |
shows "f n \<le> f n'" |
|
1430 |
proof (cases "n < n'") |
|
1431 |
case True |
|
1432 |
thus ?thesis |
|
1433 |
by (induct n n' rule: less_Suc_induct[consumes 1]) (auto intro: mono) |
|
1434 |
qed (insert `n \<le> n'`, auto) -- {*trivial for @{prop "n = n'"} *} |
|
27625 | 1435 |
|
1436 |
lemma lift_Suc_mono_less: |
|
27627 | 1437 |
assumes mono: "!!n. f n < f(Suc n)" and "n < n'" |
1438 |
shows "f n < f n'" |
|
1439 |
using `n < n'` |
|
1440 |
by (induct n n' rule: less_Suc_induct[consumes 1]) (auto intro: mono) |
|
27625 | 1441 |
|
27789 | 1442 |
lemma lift_Suc_mono_less_iff: |
1443 |
"(!!n. f n < f(Suc n)) \<Longrightarrow> f(n) < f(m) \<longleftrightarrow> n<m" |
|
1444 |
by(blast intro: less_asym' lift_Suc_mono_less[of f] |
|
1445 |
dest: linorder_not_less[THEN iffD1] le_eq_less_or_eq[THEN iffD1]) |
|
1446 |
||
27625 | 1447 |
end |
1448 |
||
29879 | 1449 |
lemma mono_iff_le_Suc: "mono f = (\<forall>n. f n \<le> f (Suc n))" |
1450 |
unfolding mono_def |
|
1451 |
by (auto intro:lift_Suc_mono_le[of f]) |
|
27625 | 1452 |
|
27789 | 1453 |
lemma mono_nat_linear_lb: |
1454 |
"(!!m n::nat. m<n \<Longrightarrow> f m < f n) \<Longrightarrow> f(m)+k \<le> f(m+k)" |
|
1455 |
apply(induct_tac k) |
|
1456 |
apply simp |
|
1457 |
apply(erule_tac x="m+n" in meta_allE) |
|
30079
293b896b9c25
make proofs work whether or not One_nat_def is a simp rule; replace 1 with Suc 0 in the rhs of some simp rules
huffman
parents:
30056
diff
changeset
|
1458 |
apply(erule_tac x="Suc(m+n)" in meta_allE) |
27789 | 1459 |
apply simp |
1460 |
done |
|
1461 |
||
1462 |
||
21243 | 1463 |
text{*Subtraction laws, mostly by Clemens Ballarin*} |
1464 |
||
1465 |
lemma diff_less_mono: "[| a < (b::nat); c \<le> a |] ==> a-c < b-c" |
|
24438 | 1466 |
by arith |
21243 | 1467 |
|
1468 |
lemma less_diff_conv: "(i < j-k) = (i+k < (j::nat))" |
|
24438 | 1469 |
by arith |
21243 | 1470 |
|
1471 |
lemma le_diff_conv: "(j-k \<le> (i::nat)) = (j \<le> i+k)" |
|
24438 | 1472 |
by arith |
21243 | 1473 |
|
1474 |
lemma le_diff_conv2: "k \<le> j ==> (i \<le> j-k) = (i+k \<le> (j::nat))" |
|
24438 | 1475 |
by arith |
21243 | 1476 |
|
1477 |
lemma diff_diff_cancel [simp]: "i \<le> (n::nat) ==> n - (n - i) = i" |
|
24438 | 1478 |
by arith |
21243 | 1479 |
|
1480 |
lemma le_add_diff: "k \<le> (n::nat) ==> m \<le> n + m - k" |
|
24438 | 1481 |
by arith |
21243 | 1482 |
|
1483 |
(*Replaces the previous diff_less and le_diff_less, which had the stronger |
|
1484 |
second premise n\<le>m*) |
|
1485 |
lemma diff_less[simp]: "!!m::nat. [| 0<n; 0<m |] ==> m - n < m" |
|
24438 | 1486 |
by arith |
21243 | 1487 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1488 |
text {* Simplification of relational expressions involving subtraction *} |
21243 | 1489 |
|
1490 |
lemma diff_diff_eq: "[| k \<le> m; k \<le> (n::nat) |] ==> ((m-k) - (n-k)) = (m-n)" |
|
24438 | 1491 |
by (simp split add: nat_diff_split) |
21243 | 1492 |
|
35064
1bdef0c013d3
hide fact names clashing with fact names from Group.thy
haftmann
parents:
35047
diff
changeset
|
1493 |
hide (open) fact diff_diff_eq |
1bdef0c013d3
hide fact names clashing with fact names from Group.thy
haftmann
parents:
35047
diff
changeset
|
1494 |
|
21243 | 1495 |
lemma eq_diff_iff: "[| k \<le> m; k \<le> (n::nat) |] ==> (m-k = n-k) = (m=n)" |
24438 | 1496 |
by (auto split add: nat_diff_split) |
21243 | 1497 |
|
1498 |
lemma less_diff_iff: "[| k \<le> m; k \<le> (n::nat) |] ==> (m-k < n-k) = (m<n)" |
|
24438 | 1499 |
by (auto split add: nat_diff_split) |
21243 | 1500 |
|
1501 |
lemma le_diff_iff: "[| k \<le> m; k \<le> (n::nat) |] ==> (m-k \<le> n-k) = (m\<le>n)" |
|
24438 | 1502 |
by (auto split add: nat_diff_split) |
21243 | 1503 |
|
1504 |
text{*(Anti)Monotonicity of subtraction -- by Stephan Merz*} |
|
1505 |
||
1506 |
(* Monotonicity of subtraction in first argument *) |
|
1507 |
lemma diff_le_mono: "m \<le> (n::nat) ==> (m-l) \<le> (n-l)" |
|
24438 | 1508 |
by (simp split add: nat_diff_split) |
21243 | 1509 |
|
1510 |
lemma diff_le_mono2: "m \<le> (n::nat) ==> (l-n) \<le> (l-m)" |
|
24438 | 1511 |
by (simp split add: nat_diff_split) |
21243 | 1512 |
|
1513 |
lemma diff_less_mono2: "[| m < (n::nat); m<l |] ==> (l-n) < (l-m)" |
|
24438 | 1514 |
by (simp split add: nat_diff_split) |
21243 | 1515 |
|
1516 |
lemma diffs0_imp_equal: "!!m::nat. [| m-n = 0; n-m = 0 |] ==> m=n" |
|
24438 | 1517 |
by (simp split add: nat_diff_split) |
21243 | 1518 |
|
26143
314c0bcb7df7
Added useful general lemmas from the work with the HeapMonad
bulwahn
parents:
26101
diff
changeset
|
1519 |
lemma min_diff: "min (m - (i::nat)) (n - i) = min m n - i" |
32437 | 1520 |
by auto |
26143
314c0bcb7df7
Added useful general lemmas from the work with the HeapMonad
bulwahn
parents:
26101
diff
changeset
|
1521 |
|
314c0bcb7df7
Added useful general lemmas from the work with the HeapMonad
bulwahn
parents:
26101
diff
changeset
|
1522 |
lemma inj_on_diff_nat: |
314c0bcb7df7
Added useful general lemmas from the work with the HeapMonad
bulwahn
parents:
26101
diff
changeset
|
1523 |
assumes k_le_n: "\<forall>n \<in> N. k \<le> (n::nat)" |
314c0bcb7df7
Added useful general lemmas from the work with the HeapMonad
bulwahn
parents:
26101
diff
changeset
|
1524 |
shows "inj_on (\<lambda>n. n - k) N" |
314c0bcb7df7
Added useful general lemmas from the work with the HeapMonad
bulwahn
parents:
26101
diff
changeset
|
1525 |
proof (rule inj_onI) |
314c0bcb7df7
Added useful general lemmas from the work with the HeapMonad
bulwahn
parents:
26101
diff
changeset
|
1526 |
fix x y |
314c0bcb7df7
Added useful general lemmas from the work with the HeapMonad
bulwahn
parents:
26101
diff
changeset
|
1527 |
assume a: "x \<in> N" "y \<in> N" "x - k = y - k" |
314c0bcb7df7
Added useful general lemmas from the work with the HeapMonad
bulwahn
parents:
26101
diff
changeset
|
1528 |
with k_le_n have "x - k + k = y - k + k" by auto |
314c0bcb7df7
Added useful general lemmas from the work with the HeapMonad
bulwahn
parents:
26101
diff
changeset
|
1529 |
with a k_le_n show "x = y" by auto |
314c0bcb7df7
Added useful general lemmas from the work with the HeapMonad
bulwahn
parents:
26101
diff
changeset
|
1530 |
qed |
314c0bcb7df7
Added useful general lemmas from the work with the HeapMonad
bulwahn
parents:
26101
diff
changeset
|
1531 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1532 |
text{*Rewriting to pull differences out*} |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1533 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1534 |
lemma diff_diff_right [simp]: "k\<le>j --> i - (j - k) = i + (k::nat) - j" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1535 |
by arith |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1536 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1537 |
lemma diff_Suc_diff_eq1 [simp]: "k \<le> j ==> m - Suc (j - k) = m + k - Suc j" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1538 |
by arith |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1539 |
|
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1540 |
lemma diff_Suc_diff_eq2 [simp]: "k \<le> j ==> Suc (j - k) - m = Suc j - (k + m)" |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1541 |
by arith |
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1542 |
|
21243 | 1543 |
text{*Lemmas for ex/Factorization*} |
1544 |
||
1545 |
lemma one_less_mult: "[| Suc 0 < n; Suc 0 < m |] ==> Suc 0 < m*n" |
|
24438 | 1546 |
by (cases m) auto |
21243 | 1547 |
|
1548 |
lemma n_less_m_mult_n: "[| Suc 0 < n; Suc 0 < m |] ==> n<m*n" |
|
24438 | 1549 |
by (cases m) auto |
21243 | 1550 |
|
1551 |
lemma n_less_n_mult_m: "[| Suc 0 < n; Suc 0 < m |] ==> n<n*m" |
|
24438 | 1552 |
by (cases m) auto |
21243 | 1553 |
|
23001
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1554 |
text {* Specialized induction principles that work "backwards": *} |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1555 |
|
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1556 |
lemma inc_induct[consumes 1, case_names base step]: |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1557 |
assumes less: "i <= j" |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1558 |
assumes base: "P j" |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1559 |
assumes step: "!!i. [| i < j; P (Suc i) |] ==> P i" |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1560 |
shows "P i" |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1561 |
using less |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1562 |
proof (induct d=="j - i" arbitrary: i) |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1563 |
case (0 i) |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1564 |
hence "i = j" by simp |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1565 |
with base show ?case by simp |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1566 |
next |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1567 |
case (Suc d i) |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1568 |
hence "i < j" "P (Suc i)" |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1569 |
by simp_all |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1570 |
thus "P i" by (rule step) |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1571 |
qed |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1572 |
|
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1573 |
lemma strict_inc_induct[consumes 1, case_names base step]: |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1574 |
assumes less: "i < j" |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1575 |
assumes base: "!!i. j = Suc i ==> P i" |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1576 |
assumes step: "!!i. [| i < j; P (Suc i) |] ==> P i" |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1577 |
shows "P i" |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1578 |
using less |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1579 |
proof (induct d=="j - i - 1" arbitrary: i) |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1580 |
case (0 i) |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1581 |
with `i < j` have "j = Suc i" by simp |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1582 |
with base show ?case by simp |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1583 |
next |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1584 |
case (Suc d i) |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1585 |
hence "i < j" "P (Suc i)" |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1586 |
by simp_all |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1587 |
thus "P i" by (rule step) |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1588 |
qed |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1589 |
|
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1590 |
lemma zero_induct_lemma: "P k ==> (!!n. P (Suc n) ==> P n) ==> P (k - i)" |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1591 |
using inc_induct[of "k - i" k P, simplified] by blast |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1592 |
|
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1593 |
lemma zero_induct: "P k ==> (!!n. P (Suc n) ==> P n) ==> P 0" |
3608f0362a91
added induction principles for induction "backwards": P (Suc n) ==> P n
krauss
parents:
22920
diff
changeset
|
1594 |
using inc_induct[of 0 k P] by blast |
21243 | 1595 |
|
1596 |
(*The others are |
|
1597 |
i - j - k = i - (j + k), |
|
1598 |
k \<le> j ==> j - k + i = j + i - k, |
|
1599 |
k \<le> j ==> i + (j - k) = i + j - k *) |
|
1600 |
lemmas add_diff_assoc = diff_add_assoc [symmetric] |
|
1601 |
lemmas add_diff_assoc2 = diff_add_assoc2[symmetric] |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1602 |
declare diff_diff_left [simp] add_diff_assoc [simp] add_diff_assoc2[simp] |
21243 | 1603 |
|
1604 |
text{*At present we prove no analogue of @{text not_less_Least} or @{text |
|
1605 |
Least_Suc}, since there appears to be no need.*} |
|
1606 |
||
27625 | 1607 |
|
33274
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1608 |
subsection {* The divides relation on @{typ nat} *} |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1609 |
|
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1610 |
lemma dvd_1_left [iff]: "Suc 0 dvd k" |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1611 |
unfolding dvd_def by simp |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1612 |
|
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1613 |
lemma dvd_1_iff_1 [simp]: "(m dvd Suc 0) = (m = Suc 0)" |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1614 |
by (simp add: dvd_def) |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1615 |
|
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1616 |
lemma nat_dvd_1_iff_1 [simp]: "m dvd (1::nat) \<longleftrightarrow> m = 1" |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1617 |
by (simp add: dvd_def) |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1618 |
|
33657 | 1619 |
lemma dvd_antisym: "[| m dvd n; n dvd m |] ==> m = (n::nat)" |
33274
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1620 |
unfolding dvd_def |
35216 | 1621 |
by (force dest: mult_eq_self_implies_10 simp add: mult_assoc) |
33274
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1622 |
|
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1623 |
text {* @{term "op dvd"} is a partial order *} |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1624 |
|
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1625 |
interpretation dvd: order "op dvd" "\<lambda>n m \<Colon> nat. n dvd m \<and> \<not> m dvd n" |
33657 | 1626 |
proof qed (auto intro: dvd_refl dvd_trans dvd_antisym) |
33274
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1627 |
|
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1628 |
lemma dvd_diff_nat[simp]: "[| k dvd m; k dvd n |] ==> k dvd (m-n :: nat)" |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1629 |
unfolding dvd_def |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1630 |
by (blast intro: diff_mult_distrib2 [symmetric]) |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1631 |
|
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1632 |
lemma dvd_diffD: "[| k dvd m-n; k dvd n; n\<le>m |] ==> k dvd (m::nat)" |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1633 |
apply (erule linorder_not_less [THEN iffD2, THEN add_diff_inverse, THEN subst]) |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1634 |
apply (blast intro: dvd_add) |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1635 |
done |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1636 |
|
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1637 |
lemma dvd_diffD1: "[| k dvd m-n; k dvd m; n\<le>m |] ==> k dvd (n::nat)" |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1638 |
by (drule_tac m = m in dvd_diff_nat, auto) |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1639 |
|
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1640 |
lemma dvd_reduce: "(k dvd n + k) = (k dvd (n::nat))" |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1641 |
apply (rule iffI) |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1642 |
apply (erule_tac [2] dvd_add) |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1643 |
apply (rule_tac [2] dvd_refl) |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1644 |
apply (subgoal_tac "n = (n+k) -k") |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1645 |
prefer 2 apply simp |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1646 |
apply (erule ssubst) |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1647 |
apply (erule dvd_diff_nat) |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1648 |
apply (rule dvd_refl) |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1649 |
done |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1650 |
|
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1651 |
lemma dvd_mult_cancel: "!!k::nat. [| k*m dvd k*n; 0<k |] ==> m dvd n" |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1652 |
unfolding dvd_def |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1653 |
apply (erule exE) |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1654 |
apply (simp add: mult_ac) |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1655 |
done |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1656 |
|
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1657 |
lemma dvd_mult_cancel1: "0<m ==> (m*n dvd m) = (n = (1::nat))" |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1658 |
apply auto |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1659 |
apply (subgoal_tac "m*n dvd m*1") |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1660 |
apply (drule dvd_mult_cancel, auto) |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1661 |
done |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1662 |
|
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1663 |
lemma dvd_mult_cancel2: "0<m ==> (n*m dvd m) = (n = (1::nat))" |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1664 |
apply (subst mult_commute) |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1665 |
apply (erule dvd_mult_cancel1) |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1666 |
done |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1667 |
|
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1668 |
lemma dvd_imp_le: "[| k dvd n; 0 < n |] ==> k \<le> (n::nat)" |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1669 |
by (auto elim!: dvdE) (auto simp add: gr0_conv_Suc) |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1670 |
|
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1671 |
lemma nat_dvd_not_less: |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1672 |
fixes m n :: nat |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1673 |
shows "0 < m \<Longrightarrow> m < n \<Longrightarrow> \<not> n dvd m" |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1674 |
by (auto elim!: dvdE) (auto simp add: gr0_conv_Suc) |
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1675 |
|
b6ff7db522b5
moved lemmas for dvd on nat to theories Nat and Power
haftmann
parents:
32772
diff
changeset
|
1676 |
|
26072
f65a7fa2da6c
<= and < on nat no longer depend on wellfounded relations
haftmann
parents:
25928
diff
changeset
|
1677 |
subsection {* size of a datatype value *} |
25193 | 1678 |
|
29608 | 1679 |
class size = |
26748
4d51ddd6aa5c
Merged theories about wellfoundedness into one: Wellfounded.thy
krauss
parents:
26335
diff
changeset
|
1680 |
fixes size :: "'a \<Rightarrow> nat" -- {* see further theory @{text Wellfounded} *} |
23852 | 1681 |
|
33364 | 1682 |
|
1683 |
subsection {* code module namespace *} |
|
1684 |
||
1685 |
code_modulename SML |
|
1686 |
Nat Arith |
|
1687 |
||
1688 |
code_modulename OCaml |
|
1689 |
Nat Arith |
|
1690 |
||
1691 |
code_modulename Haskell |
|
1692 |
Nat Arith |
|
1693 |
||
25193 | 1694 |
end |