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src/HOL/Number_Theory/Primes.thy
author traytel
Mon, 24 Oct 2016 16:53:32 +0200
changeset 64378 e9eb0b99a44c
parent 64272 f76b6dda2e56
child 64590 6621d91d3c8a
permissions -rw-r--r--
apply transfer_prover after folding relator_eq
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(*  Authors:    Christophe Tabacznyj, Lawrence C. Paulson, Amine Chaieb,
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                Thomas M. Rasmussen, Jeremy Avigad, Tobias Nipkow,
523b488b15c9 Overhaul of prime/multiplicity/prime_factors
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                Manuel Eberl
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This file deals with properties of primes. Definitions and lemmas are













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proved uniformly for the natural numbers and integers.








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This file combines and revises a number of prior developments.













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The original theories "GCD" and "Primes" were by Christophe Tabacznyj








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and Lawrence C. Paulson, based on @{cite davenport92}. They introduced








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gcd, lcm, and prime for the natural numbers.













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The original theory "IntPrimes" was by Thomas M. Rasmussen, and













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extended gcd, lcm, primes to the integers. Amine Chaieb provided













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another extension of the notions to the integers, and added a number













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of results to "Primes" and "GCD". IntPrimes also defined and developed













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the congruence relations on the integers. The notion was extended to








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the natural numbers by Chaieb.








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Jeremy Avigad combined all of these, made everything uniform for the













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natural numbers and the integers, and added a number of new theorems.













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Tobias Nipkow cleaned up a lot.








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Florian Haftmann and Manuel Eberl put primality and prime factorisation













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onto an algebraic foundation and thus generalised these concepts to 













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other rings, such as polynomials. (see also the Factorial_Ring theory).













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There were also previous formalisations of unique factorisation by 













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Thomas Marthedal Rasmussen, Jeremy Avigad, and David Gray.








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*)













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section \<open>Primes\<close>








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theory Primes








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imports "~~/src/HOL/Binomial" Euclidean_Algorithm








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begin













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(* As a simp or intro rule,













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     prime p \<Longrightarrow> p > 0













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   wreaks havoc here. When the premise includes \<forall>x \<in># M. prime x, it













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   leads to the backchaining













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     x > 0













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     prime x













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     x \<in># M   which is, unfortunately,













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     count M x > 0













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*)













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    54









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declare [[coercion int]]













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declare [[coercion_enabled]]








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lemma prime_elem_nat_iff:













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  "prime_elem (n :: nat) \<longleftrightarrow> (1 < n \<and> (\<forall>m. m dvd n \<longrightarrow> m = 1 \<or> m = n))"








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proof safe








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  assume *: "prime_elem n"








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  from * have "n \<noteq> 0" "n \<noteq> 1" by (intro notI, simp del: One_nat_def)+













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  thus "n > 1" by (cases n) simp_all













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  fix m assume m: "m dvd n" "m \<noteq> n"













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  from * \<open>m dvd n\<close> have "n dvd m \<or> is_unit m"








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    by (intro irreducibleD' prime_elem_imp_irreducible)








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  with m show "m = 1" by (auto dest: dvd_antisym)













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next













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  assume "n > 1" "\<forall>m. m dvd n \<longrightarrow> m = 1 \<or> m = n"








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  thus "prime_elem n"













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    by (auto simp: prime_elem_iff_irreducible irreducible_altdef)








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qed













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lemma prime_nat_iff_prime_elem: "prime (n :: nat) \<longleftrightarrow> prime_elem n"













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  by (simp add: prime_def)








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lemma prime_nat_iff:













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  "prime (n :: nat) \<longleftrightarrow> (1 < n \<and> (\<forall>m. m dvd n \<longrightarrow> m = 1 \<or> m = n))"













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  by (simp add: prime_nat_iff_prime_elem prime_elem_nat_iff)








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lemma prime_elem_int_nat_transfer: "prime_elem (n::int) \<longleftrightarrow> prime_elem (nat (abs n))"








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proof








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  assume "prime_elem n"













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  thus "prime_elem (nat (abs n))" by (auto simp: prime_elem_def nat_dvd_iff)








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next








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  assume "prime_elem (nat (abs n))"













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  thus "prime_elem n"













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    by (auto simp: dvd_int_unfold_dvd_nat prime_elem_def abs_mult nat_mult_distrib)








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qed













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lemma prime_elem_nat_int_transfer [simp]: "prime_elem (int n) \<longleftrightarrow> prime_elem n"













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  by (auto simp: prime_elem_int_nat_transfer)








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lemma prime_nat_int_transfer [simp]: "prime (int n) \<longleftrightarrow> prime n"













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  by (auto simp: prime_elem_int_nat_transfer prime_def)








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lemma prime_int_nat_transfer: "prime (n::int) \<longleftrightarrow> n \<ge> 0 \<and> prime (nat n)"













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  by (auto simp: prime_elem_int_nat_transfer prime_def)








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lemma prime_int_iff:













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  "prime (n::int) \<longleftrightarrow> (1 < n \<and> (\<forall>m. m \<ge> 0 \<and> m dvd n \<longrightarrow> m = 1 \<or> m = n))"








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proof (intro iffI conjI allI impI; (elim conjE)?)








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  assume *: "prime n"













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  hence irred: "irreducible n" by (simp add: prime_elem_imp_irreducible)








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  from * have "n \<ge> 0" "n \<noteq> 0" "n \<noteq> 1" 








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    by (auto simp: prime_def zabs_def not_less split: if_splits)








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  thus "n > 1" by presburger













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  fix m assume "m dvd n" \<open>m \<ge> 0\<close>













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  with irred have "m dvd 1 \<or> n dvd m" by (auto simp: irreducible_altdef)













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  with \<open>m dvd n\<close> \<open>m \<ge> 0\<close> \<open>n > 1\<close> show "m = 1 \<or> m = n"













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    using associated_iff_dvd[of m n] by auto













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   112


next













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  assume n: "1 < n" "\<forall>m. m \<ge> 0 \<and> m dvd n \<longrightarrow> m = 1 \<or> m = n"













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  hence "nat n > 1" by simp













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parents: 
62481

diff
changeset




   115


  moreover have "\<forall>m. m dvd nat n \<longrightarrow> m = 1 \<or> m = nat n"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   116


  proof (intro allI impI)













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   117


    fix m assume "m dvd nat n"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   118


    with \<open>n > 1\<close> have "int m dvd n" by (auto simp: int_dvd_iff)













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   119


    with n(2) have "int m = 1 \<or> int m = n" by auto













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   120


    thus "m = 1 \<or> m = nat n" by auto













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   121


  qed








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   122


  ultimately show "prime n" 













2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   123


    unfolding prime_int_nat_transfer prime_nat_iff by auto








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   124


qed








22027






e4a08629c4bd
A few lemmas about relative primes when dividing trough gcd



chaieb


parents: 
21404

diff
changeset




   125









63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   126














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   127


lemma prime_nat_not_dvd:













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   128


  assumes "prime p" "p > n" "n \<noteq> (1::nat)"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   129


  shows   "\<not>n dvd p"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   130


proof













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   131


  assume "n dvd p"








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   132


  from assms(1) have "irreducible p" by (simp add: prime_elem_imp_irreducible)








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   133


  from irreducibleD'[OF this \<open>n dvd p\<close>] \<open>n dvd p\<close> \<open>p > n\<close> assms show False













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   134


    by (cases "n = 0") (auto dest!: dvd_imp_le)













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   135


qed








22027






e4a08629c4bd
A few lemmas about relative primes when dividing trough gcd



chaieb


parents: 
21404

diff
changeset




   136









63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   137


lemma prime_int_not_dvd:













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   138


  assumes "prime p" "p > n" "n > (1::int)"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   139


  shows   "\<not>n dvd p"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   140


proof













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   141


  assume "n dvd p"








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   142


  from assms(1) have "irreducible p" by (simp add: prime_elem_imp_irreducible)








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   143


  from irreducibleD'[OF this \<open>n dvd p\<close>] \<open>n dvd p\<close> \<open>p > n\<close> assms show False













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   144


    by (auto dest!: zdvd_imp_le)













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   145


qed













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   146














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   147


lemma prime_odd_nat: "prime p \<Longrightarrow> p > (2::nat) \<Longrightarrow> odd p"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   148


  by (intro prime_nat_not_dvd) auto













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   149














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   150


lemma prime_odd_int: "prime p \<Longrightarrow> p > (2::int) \<Longrightarrow> odd p"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   151


  by (intro prime_int_not_dvd) auto








22367






6860f09242bf
tuned document;



wenzelm


parents: 
22027

diff
changeset




   152









63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   153


lemma prime_ge_0_int: "prime p \<Longrightarrow> p \<ge> (0::int)"








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   154


  unfolding prime_int_iff by auto








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   155














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   156


lemma prime_gt_0_nat: "prime p \<Longrightarrow> p > (0::nat)"








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   157


  unfolding prime_nat_iff by auto








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   158














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   159


lemma prime_gt_0_int: "prime p \<Longrightarrow> p > (0::int)"








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   160


  unfolding prime_int_iff by auto








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   161














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   162


lemma prime_ge_1_nat: "prime p \<Longrightarrow> p \<ge> (1::nat)"








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   163


  unfolding prime_nat_iff by auto








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   164














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   165


lemma prime_ge_Suc_0_nat: "prime p \<Longrightarrow> p \<ge> Suc 0"








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   166


  unfolding prime_nat_iff by auto








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   167














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   168


lemma prime_ge_1_int: "prime p \<Longrightarrow> p \<ge> (1::int)"








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   169


  unfolding prime_int_iff by auto








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   170














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   171


lemma prime_gt_1_nat: "prime p \<Longrightarrow> p > (1::nat)"








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   172


  unfolding prime_nat_iff by auto








31706






1db0c8f235fb
new GCD library, courtesy of Jeremy Avigad



huffman


parents: 
30738

diff
changeset




   173









61762






d50b993b4fb9
Removal of redundant lemmas (diff_less_iff, diff_le_iff) and of the abbreviation Exp. Addition of some new material.



paulson <lp15@cam.ac.uk>


parents: 
60804

diff
changeset




   174


lemma prime_gt_Suc_0_nat: "prime p \<Longrightarrow> p > Suc 0"








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   175


  unfolding prime_nat_iff by auto








31706






1db0c8f235fb
new GCD library, courtesy of Jeremy Avigad



huffman


parents: 
30738

diff
changeset




   176









63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   177


lemma prime_gt_1_int: "prime p \<Longrightarrow> p > (1::int)"








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   178


  unfolding prime_int_iff by auto








31706






1db0c8f235fb
new GCD library, courtesy of Jeremy Avigad



huffman


parents: 
30738

diff
changeset




   179









63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   180


lemma prime_ge_2_nat: "prime p \<Longrightarrow> p \<ge> (2::nat)"








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   181


  unfolding prime_nat_iff by auto








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   182














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   183


lemma prime_ge_2_int: "prime p \<Longrightarrow> p \<ge> (2::int)"








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   184


  unfolding prime_int_iff by auto








31706






1db0c8f235fb
new GCD library, courtesy of Jeremy Avigad



huffman


parents: 
30738

diff
changeset




   185









59669






de7792ea4090
renaming HOL/Fact.thy -> Binomial.thy



paulson <lp15@cam.ac.uk>


parents: 
59667

diff
changeset




   186


lemma prime_int_altdef:








55242






413ec965f95d
Number_Theory: prime is no longer overloaded, but only for nat. Automatic coercion to int enabled.



paulson <lp15@cam.ac.uk>


parents: 
55238

diff
changeset




   187


  "prime p = (1 < p \<and> (\<forall>m::int. m \<ge> 0 \<longrightarrow> m dvd p \<longrightarrow>













413ec965f95d
Number_Theory: prime is no longer overloaded, but only for nat. Automatic coercion to int enabled.



paulson <lp15@cam.ac.uk>


parents: 
55238

diff
changeset




   188


    m = 1 \<or> m = p))"








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   189


  unfolding prime_int_iff by blast








27568






9949dc7a24de
Theorem names as in IntPrimes.thy, also several theorems moved from there



chaieb


parents: 
27556

diff
changeset




   190









62481






b5d8e57826df
tuned bootstrap order to provide type classes in a more sensible order



haftmann


parents: 
62429

diff
changeset




   191


lemma not_prime_eq_prod_nat:








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   192


  assumes "m > 1" "\<not>prime (m::nat)"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   193


  shows   "\<exists>n k. n = m * k \<and> 1 < m \<and> m < n \<and> 1 < k \<and> k < n"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   194


  using assms irreducible_altdef[of m]








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   195


  by (auto simp: prime_elem_iff_irreducible prime_def irreducible_altdef)








53598






2bd8d459ebae
remove unneeded assumption from prime_dvd_power lemmas;



huffman


parents: 
47108

diff
changeset




   196














2bd8d459ebae
remove unneeded assumption from prime_dvd_power lemmas;



huffman


parents: 
47108

diff
changeset




   197









60526






fad653acf58f
isabelle update_cartouches;



wenzelm


parents: 
59730

diff
changeset




   198


subsubsection \<open>Make prime naively executable\<close>








32007






a2a3685f61c3
Made "prime" executable



nipkow


parents: 
31996

diff
changeset




   199









63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   200


lemma Suc_0_not_prime_nat [simp]: "~prime (Suc 0)"








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   201


  unfolding One_nat_def [symmetric] by (rule not_prime_1)








32007






a2a3685f61c3
Made "prime" executable



nipkow


parents: 
31996

diff
changeset




   202









63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   203


lemma prime_nat_iff':








63535






6887fda4541a
Tuned primes



eberlm <eberlm@in.tum.de>


parents: 
63534

diff
changeset




   204


  "prime (p :: nat) \<longleftrightarrow> p > 1 \<and> (\<forall>n \<in> {1<..<p}. ~ n dvd p)"








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   205


proof safe













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   206


  assume "p > 1" and *: "\<forall>n\<in>{1<..<p}. \<not>n dvd p"








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   207


  show "prime p" unfolding prime_nat_iff








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   208


  proof (intro conjI allI impI)













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   209


    fix m assume "m dvd p"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   210


    with \<open>p > 1\<close> have "m \<noteq> 0" by (intro notI) auto













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   211


    hence "m \<ge> 1" by simp













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   212


    moreover from \<open>m dvd p\<close> and * have "m \<notin> {1<..<p}" by blast













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   213


    with \<open>m dvd p\<close> and \<open>p > 1\<close> have "m \<le> 1 \<or> m = p" by (auto dest: dvd_imp_le)













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   214


    ultimately show "m = 1 \<or> m = p" by simp













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   215


  qed fact+








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   216


qed (auto simp: prime_nat_iff)








32007






a2a3685f61c3
Made "prime" executable



nipkow


parents: 
31996

diff
changeset




   217









63535






6887fda4541a
Tuned primes



eberlm <eberlm@in.tum.de>


parents: 
63534

diff
changeset




   218


lemma prime_nat_code [code_unfold]:













6887fda4541a
Tuned primes



eberlm <eberlm@in.tum.de>


parents: 
63534

diff
changeset




   219


  "(prime :: nat \<Rightarrow> bool) = (\<lambda>p. p > 1 \<and> (\<forall>n \<in> {1<..<p}. ~ n dvd p))"








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   220


  by (rule ext, rule prime_nat_iff')








63535






6887fda4541a
Tuned primes



eberlm <eberlm@in.tum.de>


parents: 
63534

diff
changeset




   221









63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   222


lemma prime_int_iff':








63535






6887fda4541a
Tuned primes



eberlm <eberlm@in.tum.de>


parents: 
63534

diff
changeset




   223


  "prime (p :: int) \<longleftrightarrow> p > 1 \<and> (\<forall>n \<in> {1<..<p}. ~ n dvd p)" (is "?lhs = ?rhs")








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   224


proof













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   225


  assume "?lhs"








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   226


  thus "?rhs" by (auto simp: prime_int_nat_transfer dvd_int_unfold_dvd_nat prime_nat_code)








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   227


next













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   228


  assume "?rhs"








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   229


  thus "?lhs" by (auto simp: prime_int_nat_transfer zdvd_int prime_nat_code)








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   230


qed








32007






a2a3685f61c3
Made "prime" executable



nipkow


parents: 
31996

diff
changeset




   231









63535






6887fda4541a
Tuned primes



eberlm <eberlm@in.tum.de>


parents: 
63534

diff
changeset




   232


lemma prime_int_code [code_unfold]:













6887fda4541a
Tuned primes



eberlm <eberlm@in.tum.de>


parents: 
63534

diff
changeset




   233


  "(prime :: int \<Rightarrow> bool) = (\<lambda>p. p > 1 \<and> (\<forall>n \<in> {1<..<p}. ~ n dvd p))" 








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   234


  by (rule ext, rule prime_int_iff')








63535






6887fda4541a
Tuned primes



eberlm <eberlm@in.tum.de>


parents: 
63534

diff
changeset




   235









32007






a2a3685f61c3
Made "prime" executable



nipkow


parents: 
31996

diff
changeset




   236


lemma prime_nat_simp:








55242






413ec965f95d
Number_Theory: prime is no longer overloaded, but only for nat. Automatic coercion to int enabled.



paulson <lp15@cam.ac.uk>


parents: 
55238

diff
changeset




   237


    "prime p \<longleftrightarrow> p > 1 \<and> (\<forall>n \<in> set [2..<p]. \<not> n dvd p)"








44872






a98ef45122f3
misc tuning;



wenzelm


parents: 
44821

diff
changeset




   238


  by (auto simp add: prime_nat_code)








32007






a2a3685f61c3
Made "prime" executable



nipkow


parents: 
31996

diff
changeset




   239









63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   240


lemma prime_int_simp:













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   241


    "prime (p::int) \<longleftrightarrow> p > 1 \<and> (\<forall>n \<in> {2..<p}. \<not> n dvd p)"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   242


  by (auto simp add: prime_int_code)













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   243









47108






2a1953f0d20d
merged fork with new numeral representation (see NEWS)



huffman


parents: 
45605

diff
changeset




   244


lemmas prime_nat_simp_numeral [simp] = prime_nat_simp [of "numeral m"] for m








32007






a2a3685f61c3
Made "prime" executable



nipkow


parents: 
31996

diff
changeset




   245









63635






858a225ebb62
Tuned primes



eberlm <eberlm@in.tum.de>


parents: 
63633

diff
changeset




   246


lemma two_is_prime_nat [simp]: "prime (2::nat)"








44872






a98ef45122f3
misc tuning;



wenzelm


parents: 
44821

diff
changeset




   247


  by simp








32007






a2a3685f61c3
Made "prime" executable



nipkow


parents: 
31996

diff
changeset




   248









63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   249


declare prime_int_nat_transfer[of "numeral m" for m, simp]








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   250














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   251









60526






fad653acf58f
isabelle update_cartouches;



wenzelm


parents: 
59730

diff
changeset




   252


text\<open>A bit of regression testing:\<close>








32111






7c39fcfffd61
Tests for executability of "prime"



nipkow


parents: 
32045

diff
changeset




   253









58954






18750e86d5b8
reverted 1ebf0a1f12a4 after successful re-tuning of simp rules for divisibility



haftmann


parents: 
58898

diff
changeset




   254


lemma "prime(97::nat)" by simp








44872






a98ef45122f3
misc tuning;



wenzelm


parents: 
44821

diff
changeset




   255


lemma "prime(997::nat)" by eval








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   256


lemma "prime(97::int)" by simp













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   257


lemma "prime(997::int)" by eval








31706






1db0c8f235fb
new GCD library, courtesy of Jeremy Avigad



huffman


parents: 
30738

diff
changeset




   258









63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   259


lemma prime_factor_nat: 













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   260


  "n \<noteq> (1::nat) \<Longrightarrow> \<exists>p. prime p \<and> p dvd n"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   261


  using prime_divisor_exists[of n]













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   262


  by (cases "n = 0") (auto intro: exI[of _ "2::nat"])








23983






79dc793bec43
Added lemmas



nipkow


parents: 
23951

diff
changeset




   263









44872






a98ef45122f3
misc tuning;



wenzelm


parents: 
44821

diff
changeset




   264









60526






fad653acf58f
isabelle update_cartouches;



wenzelm


parents: 
59730

diff
changeset




   265


subsection \<open>Infinitely many primes\<close>








32036






8a9228872fbd
Moved factorial lemmas from Binomial.thy to Fact.thy and merged.



avigad


parents: 
31952

diff
changeset




   266









63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   267


lemma next_prime_bound: "\<exists>p::nat. prime p \<and> n < p \<and> p \<le> fact n + 1"








32036






8a9228872fbd
Moved factorial lemmas from Binomial.thy to Fact.thy and merged.



avigad


parents: 
31952

diff
changeset




   268


proof-








59730






b7c394c7a619
The factorial function, "fact", now has type "nat => 'a"



paulson <lp15@cam.ac.uk>


parents: 
59669

diff
changeset




   269


  have f1: "fact n + 1 \<noteq> (1::nat)" using fact_ge_1 [of n, where 'a=nat] by arith








32036






8a9228872fbd
Moved factorial lemmas from Binomial.thy to Fact.thy and merged.



avigad


parents: 
31952

diff
changeset




   270


  from prime_factor_nat [OF f1]








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   271


  obtain p :: nat where "prime p" and "p dvd fact n + 1" by auto








44872






a98ef45122f3
misc tuning;



wenzelm


parents: 
44821

diff
changeset




   272


  then have "p \<le> fact n + 1" apply (intro dvd_imp_le) apply auto done













a98ef45122f3
misc tuning;



wenzelm


parents: 
44821

diff
changeset




   273


  { assume "p \<le> n"








60526






fad653acf58f
isabelle update_cartouches;



wenzelm


parents: 
59730

diff
changeset




   274


    from \<open>prime p\<close> have "p \<ge> 1"








32036






8a9228872fbd
Moved factorial lemmas from Binomial.thy to Fact.thy and merged.



avigad


parents: 
31952

diff
changeset




   275


      by (cases p, simp_all)








60526






fad653acf58f
isabelle update_cartouches;



wenzelm


parents: 
59730

diff
changeset




   276


    with \<open>p <= n\<close> have "p dvd fact n"








59730






b7c394c7a619
The factorial function, "fact", now has type "nat => 'a"



paulson <lp15@cam.ac.uk>


parents: 
59669

diff
changeset




   277


      by (intro dvd_fact)








60526






fad653acf58f
isabelle update_cartouches;



wenzelm


parents: 
59730

diff
changeset




   278


    with \<open>p dvd fact n + 1\<close> have "p dvd fact n + 1 - fact n"








32036






8a9228872fbd
Moved factorial lemmas from Binomial.thy to Fact.thy and merged.



avigad


parents: 
31952

diff
changeset




   279


      by (rule dvd_diff_nat)








44872






a98ef45122f3
misc tuning;



wenzelm


parents: 
44821

diff
changeset




   280


    then have "p dvd 1" by simp













a98ef45122f3
misc tuning;



wenzelm


parents: 
44821

diff
changeset




   281


    then have "p <= 1" by auto








61762






d50b993b4fb9
Removal of redundant lemmas (diff_less_iff, diff_le_iff) and of the abbreviation Exp. Addition of some new material.



paulson <lp15@cam.ac.uk>


parents: 
60804

diff
changeset




   282


    moreover from \<open>prime p\<close> have "p > 1"








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   283


      using prime_nat_iff by blast








32036






8a9228872fbd
Moved factorial lemmas from Binomial.thy to Fact.thy and merged.



avigad


parents: 
31952

diff
changeset




   284


    ultimately have False by auto}








44872






a98ef45122f3
misc tuning;



wenzelm


parents: 
44821

diff
changeset




   285


  then have "n < p" by presburger








60526






fad653acf58f
isabelle update_cartouches;



wenzelm


parents: 
59730

diff
changeset




   286


  with \<open>prime p\<close> and \<open>p <= fact n + 1\<close> show ?thesis by auto








32036






8a9228872fbd
Moved factorial lemmas from Binomial.thy to Fact.thy and merged.



avigad


parents: 
31952

diff
changeset




   287


qed













8a9228872fbd
Moved factorial lemmas from Binomial.thy to Fact.thy and merged.



avigad


parents: 
31952

diff
changeset




   288









59669






de7792ea4090
renaming HOL/Fact.thy -> Binomial.thy



paulson <lp15@cam.ac.uk>


parents: 
59667

diff
changeset




   289


lemma bigger_prime: "\<exists>p. prime p \<and> p > (n::nat)"








44872






a98ef45122f3
misc tuning;



wenzelm


parents: 
44821

diff
changeset




   290


  using next_prime_bound by auto








32036






8a9228872fbd
Moved factorial lemmas from Binomial.thy to Fact.thy and merged.



avigad


parents: 
31952

diff
changeset




   291














8a9228872fbd
Moved factorial lemmas from Binomial.thy to Fact.thy and merged.



avigad


parents: 
31952

diff
changeset




   292


lemma primes_infinite: "\<not> (finite {(p::nat). prime p})"













8a9228872fbd
Moved factorial lemmas from Binomial.thy to Fact.thy and merged.



avigad


parents: 
31952

diff
changeset




   293


proof













8a9228872fbd
Moved factorial lemmas from Binomial.thy to Fact.thy and merged.



avigad


parents: 
31952

diff
changeset




   294


  assume "finite {(p::nat). prime p}"













8a9228872fbd
Moved factorial lemmas from Binomial.thy to Fact.thy and merged.



avigad


parents: 
31952

diff
changeset




   295


  with Max_ge have "(EX b. (ALL x : {(p::nat). prime p}. x <= b))"













8a9228872fbd
Moved factorial lemmas from Binomial.thy to Fact.thy and merged.



avigad


parents: 
31952

diff
changeset




   296


    by auto













8a9228872fbd
Moved factorial lemmas from Binomial.thy to Fact.thy and merged.



avigad


parents: 
31952

diff
changeset




   297


  then obtain b where "ALL (x::nat). prime x \<longrightarrow> x <= b"













8a9228872fbd
Moved factorial lemmas from Binomial.thy to Fact.thy and merged.



avigad


parents: 
31952

diff
changeset




   298


    by auto








44872






a98ef45122f3
misc tuning;



wenzelm


parents: 
44821

diff
changeset




   299


  with bigger_prime [of b] show False













a98ef45122f3
misc tuning;



wenzelm


parents: 
44821

diff
changeset




   300


    by auto








32036






8a9228872fbd
Moved factorial lemmas from Binomial.thy to Fact.thy and merged.



avigad


parents: 
31952

diff
changeset




   301


qed













8a9228872fbd
Moved factorial lemmas from Binomial.thy to Fact.thy and merged.



avigad


parents: 
31952

diff
changeset




   302









60526






fad653acf58f
isabelle update_cartouches;



wenzelm


parents: 
59730

diff
changeset




   303


subsection\<open>Powers of Primes\<close>








55215






b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   304









60526






fad653acf58f
isabelle update_cartouches;



wenzelm


parents: 
59730

diff
changeset




   305


text\<open>Versions for type nat only\<close>








55215






b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   306









59669






de7792ea4090
renaming HOL/Fact.thy -> Binomial.thy



paulson <lp15@cam.ac.uk>


parents: 
59667

diff
changeset




   307


lemma prime_product:








55215






b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   308


  fixes p::nat













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   309


  assumes "prime (p * q)"













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   310


  shows "p = 1 \<or> q = 1"













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   311


proof -








59669






de7792ea4090
renaming HOL/Fact.thy -> Binomial.thy



paulson <lp15@cam.ac.uk>


parents: 
59667

diff
changeset




   312


  from assms have








55215






b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   313


    "1 < p * q" and P: "\<And>m. m dvd p * q \<Longrightarrow> m = 1 \<or> m = p * q"








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   314


    unfolding prime_nat_iff by auto








60526






fad653acf58f
isabelle update_cartouches;



wenzelm


parents: 
59730

diff
changeset




   315


  from \<open>1 < p * q\<close> have "p \<noteq> 0" by (cases p) auto








55215






b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   316


  then have Q: "p = p * q \<longleftrightarrow> q = 1" by auto













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   317


  have "p dvd p * q" by simp













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   318


  then have "p = 1 \<or> p = p * q" by (rule P)













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   319


  then show ?thesis by (simp add: Q)













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   320


qed













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   321









63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   322


(* TODO: Generalise? *)













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   323


lemma prime_power_mult_nat:








55215






b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   324


  fixes p::nat













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   325


  assumes p: "prime p" and xy: "x * y = p ^ k"













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   326


  shows "\<exists>i j. x = p ^i \<and> y = p^ j"













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   327


using xy













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   328


proof(induct k arbitrary: x y)













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   329


  case 0 thus ?case apply simp by (rule exI[where x="0"], simp)













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   330


next













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   331


  case (Suc k x y)













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   332


  from Suc.prems have pxy: "p dvd x*y" by auto








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   333


  from prime_dvd_multD [OF p pxy] have pxyc: "p dvd x \<or> p dvd y" .








59669






de7792ea4090
renaming HOL/Fact.thy -> Binomial.thy



paulson <lp15@cam.ac.uk>


parents: 
59667

diff
changeset




   334


  from p have p0: "p \<noteq> 0" by - (rule ccontr, simp)








55215






b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   335


  {assume px: "p dvd x"













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   336


    then obtain d where d: "x = p*d" unfolding dvd_def by blast













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   337


    from Suc.prems d  have "p*d*y = p^Suc k" by simp













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   338


    hence th: "d*y = p^k" using p0 by simp













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   339


    from Suc.hyps[OF th] obtain i j where ij: "d = p^i" "y = p^j" by blast








59669






de7792ea4090
renaming HOL/Fact.thy -> Binomial.thy



paulson <lp15@cam.ac.uk>


parents: 
59667

diff
changeset




   340


    with d have "x = p^Suc i" by simp








55215






b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   341


    with ij(2) have ?case by blast}








59669






de7792ea4090
renaming HOL/Fact.thy -> Binomial.thy



paulson <lp15@cam.ac.uk>


parents: 
59667

diff
changeset




   342


  moreover








55215






b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   343


  {assume px: "p dvd y"













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   344


    then obtain d where d: "y = p*d" unfolding dvd_def by blast








57512






cc97b347b301
reduced name variants for assoc and commute on plus and mult



haftmann


parents: 
55337

diff
changeset




   345


    from Suc.prems d  have "p*d*x = p^Suc k" by (simp add: mult.commute)








55215






b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   346


    hence th: "d*x = p^k" using p0 by simp













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   347


    from Suc.hyps[OF th] obtain i j where ij: "d = p^i" "x = p^j" by blast








59669






de7792ea4090
renaming HOL/Fact.thy -> Binomial.thy



paulson <lp15@cam.ac.uk>


parents: 
59667

diff
changeset




   348


    with d have "y = p^Suc i" by simp








55215






b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   349


    with ij(2) have ?case by blast}













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   350


  ultimately show ?case  using pxyc by blast













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   351


qed













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   352









63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   353


lemma prime_power_exp_nat:








55215






b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   354


  fixes p::nat








59669






de7792ea4090
renaming HOL/Fact.thy -> Binomial.thy



paulson <lp15@cam.ac.uk>


parents: 
59667

diff
changeset




   355


  assumes p: "prime p" and n: "n \<noteq> 0"








55215






b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   356


    and xn: "x^n = p^k" shows "\<exists>i. x = p^i"













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   357


  using n xn













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   358


proof(induct n arbitrary: k)













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   359


  case 0 thus ?case by simp













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   360


next













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   361


  case (Suc n k) hence th: "x*x^n = p^k" by simp













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   362


  {assume "n = 0" with Suc have ?case by simp (rule exI[where x="k"], simp)}













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   363


  moreover













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   364


  {assume n: "n \<noteq> 0"








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   365


    from prime_power_mult_nat[OF p th]








55215






b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   366


    obtain i j where ij: "x = p^i" "x^n = p^j"by blast













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   367


    from Suc.hyps[OF n ij(2)] have ?case .}













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   368


  ultimately show ?case by blast













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   369


qed













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   370









63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   371


lemma divides_primepow_nat:








55215






b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   372


  fixes p::nat








59669






de7792ea4090
renaming HOL/Fact.thy -> Binomial.thy



paulson <lp15@cam.ac.uk>


parents: 
59667

diff
changeset




   373


  assumes p: "prime p"








55215






b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   374


  shows "d dvd p^k \<longleftrightarrow> (\<exists> i. i \<le> k \<and> d = p ^i)"













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   375


proof








59669






de7792ea4090
renaming HOL/Fact.thy -> Binomial.thy



paulson <lp15@cam.ac.uk>


parents: 
59667

diff
changeset




   376


  assume H: "d dvd p^k" then obtain e where e: "d*e = p^k"








57512






cc97b347b301
reduced name variants for assoc and commute on plus and mult



haftmann


parents: 
55337

diff
changeset




   377


    unfolding dvd_def  apply (auto simp add: mult.commute) by blast








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   378


  from prime_power_mult_nat[OF p e] obtain i j where ij: "d = p^i" "e=p^j" by blast








55215






b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   379


  from e ij have "p^(i + j) = p^k" by (simp add: power_add)








59669






de7792ea4090
renaming HOL/Fact.thy -> Binomial.thy



paulson <lp15@cam.ac.uk>


parents: 
59667

diff
changeset




   380


  hence "i + j = k" using p prime_gt_1_nat power_inject_exp[of p "i+j" k] by simp








55215






b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   381


  hence "i \<le> k" by arith













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   382


  with ij(1) show "\<exists>i\<le>k. d = p ^ i" by blast













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   383


next













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   384


  {fix i assume H: "i \<le> k" "d = p^i"













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   385


    then obtain j where j: "k = i + j"













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   386


      by (metis le_add_diff_inverse)













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   387


    hence "p^k = p^j*d" using H(2) by (simp add: power_add)













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   388


    hence "d dvd p^k" unfolding dvd_def by auto}













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   389


  thus "\<exists>i\<le>k. d = p ^ i \<Longrightarrow> d dvd p ^ k" by blast













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   390


qed













b6c926e67350
Restoring some proofs from the equivalent file in Old_Number_Theory.



paulson <lp15@cam.ac.uk>


parents: 
55130

diff
changeset




   391









63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   392









60526






fad653acf58f
isabelle update_cartouches;



wenzelm


parents: 
59730

diff
changeset




   393


subsection \<open>Chinese Remainder Theorem Variants\<close>








55238






7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   394














7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   395


lemma bezout_gcd_nat:













7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   396


  fixes a::nat shows "\<exists>x y. a * x - b * y = gcd a b \<or> b * x - a * y = gcd a b"













7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   397


  using bezout_nat[of a b]








62429






25271ff79171
Tuned Euclidean Rings/GCD rings



Manuel Eberl <eberlm@in.tum.de>


parents: 
62410

diff
changeset




   398


by (metis bezout_nat diff_add_inverse gcd_add_mult gcd.commute








59669






de7792ea4090
renaming HOL/Fact.thy -> Binomial.thy



paulson <lp15@cam.ac.uk>


parents: 
59667

diff
changeset




   399


  gcd_nat.right_neutral mult_0)








55238






7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   400














7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   401


lemma gcd_bezout_sum_nat:








59669






de7792ea4090
renaming HOL/Fact.thy -> Binomial.thy



paulson <lp15@cam.ac.uk>


parents: 
59667

diff
changeset




   402


  fixes a::nat













de7792ea4090
renaming HOL/Fact.thy -> Binomial.thy



paulson <lp15@cam.ac.uk>


parents: 
59667

diff
changeset




   403


  assumes "a * x + b * y = d"








55238






7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   404


  shows "gcd a b dvd d"













7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   405


proof-













7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   406


  let ?g = "gcd a b"








59669






de7792ea4090
renaming HOL/Fact.thy -> Binomial.thy



paulson <lp15@cam.ac.uk>


parents: 
59667

diff
changeset




   407


    have dv: "?g dvd a*x" "?g dvd b * y"








55238






7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   408


      by simp_all













7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   409


    from dvd_add[OF dv] assms













7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   410


    show ?thesis by auto













7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   411


qed













7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   412














7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   413









60526






fad653acf58f
isabelle update_cartouches;



wenzelm


parents: 
59730

diff
changeset




   414


text \<open>A binary form of the Chinese Remainder Theorem.\<close>








55238






7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   415









63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   416


(* TODO: Generalise? *)








59669






de7792ea4090
renaming HOL/Fact.thy -> Binomial.thy



paulson <lp15@cam.ac.uk>


parents: 
59667

diff
changeset




   417


lemma chinese_remainder:








55238






7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   418


  fixes a::nat  assumes ab: "coprime a b" and a: "a \<noteq> 0" and b: "b \<noteq> 0"













7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   419


  shows "\<exists>x q1 q2. x = u + q1 * a \<and> x = v + q2 * b"













7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   420


proof-













7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   421


  from bezout_add_strong_nat[OF a, of b] bezout_add_strong_nat[OF b, of a]








59669






de7792ea4090
renaming HOL/Fact.thy -> Binomial.thy



paulson <lp15@cam.ac.uk>


parents: 
59667

diff
changeset




   422


  obtain d1 x1 y1 d2 x2 y2 where dxy1: "d1 dvd a" "d1 dvd b" "a * x1 = b * y1 + d1"








55238






7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   423


    and dxy2: "d2 dvd b" "d2 dvd a" "b * x2 = a * y2 + d2" by blast













7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   424


  then have d12: "d1 = 1" "d2 =1"













7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   425


    by (metis ab coprime_nat)+













7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   426


  let ?x = "v * a * x1 + u * b * x2"













7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   427


  let ?q1 = "v * x1 + u * y2"













7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   428


  let ?q2 = "v * y1 + u * x2"








59669






de7792ea4090
renaming HOL/Fact.thy -> Binomial.thy



paulson <lp15@cam.ac.uk>


parents: 
59667

diff
changeset




   429


  from dxy2(3)[simplified d12] dxy1(3)[simplified d12]








55238






7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   430


  have "?x = u + ?q1 * a" "?x = v + ?q2 * b"








55337






5d45fb978d5a
Number_Theory no longer introduces One_nat_def as a simprule. Tidied some proofs.



paulson <lp15@cam.ac.uk>


parents: 
55242

diff
changeset




   431


    by algebra+








55238






7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   432


  thus ?thesis by blast













7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   433


qed













7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   434









60526






fad653acf58f
isabelle update_cartouches;



wenzelm


parents: 
59730

diff
changeset




   435


text \<open>Primality\<close>








55238






7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   436














7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   437


lemma coprime_bezout_strong:













7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   438


  fixes a::nat assumes "coprime a b"  "b \<noteq> 1"













7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   439


  shows "\<exists>x y. a * x = b * y + 1"













7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   440


by (metis assms bezout_nat gcd_nat.left_neutral)













7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   441









59669






de7792ea4090
renaming HOL/Fact.thy -> Binomial.thy



paulson <lp15@cam.ac.uk>


parents: 
59667

diff
changeset




   442


lemma bezout_prime:








55238






7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   443


  assumes p: "prime p" and pa: "\<not> p dvd a"













7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   444


  shows "\<exists>x y. a*x = Suc (p*y)"








62349






7c23469b5118
cleansed junk-producing interpretations for gcd/lcm on nat altogether



haftmann


parents: 
62348

diff
changeset




   445


proof -








55238






7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   446


  have ap: "coprime a p"








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   447


    by (metis gcd.commute p pa prime_imp_coprime)








62349






7c23469b5118
cleansed junk-producing interpretations for gcd/lcm on nat altogether



haftmann


parents: 
62348

diff
changeset




   448


  moreover from p have "p \<noteq> 1" by auto













7c23469b5118
cleansed junk-producing interpretations for gcd/lcm on nat altogether



haftmann


parents: 
62348

diff
changeset




   449


  ultimately have "\<exists>x y. a * x = p * y + 1"













7c23469b5118
cleansed junk-producing interpretations for gcd/lcm on nat altogether



haftmann


parents: 
62348

diff
changeset




   450


    by (rule coprime_bezout_strong)













7c23469b5118
cleansed junk-producing interpretations for gcd/lcm on nat altogether



haftmann


parents: 
62348

diff
changeset




   451


  then show ?thesis by simp    








55238






7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   452


qed








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   453


(* END TODO *)








55238






7ddb889e23bd
Added material from Old_Number_Theory related to the Chinese Remainder Theorem



paulson <lp15@cam.ac.uk>


parents: 
55215

diff
changeset




   454









63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   455














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   456














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   457


subsection \<open>Multiplicity and primality for natural numbers and integers\<close>













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   458














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   459


lemma prime_factors_gt_0_nat:













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   460


  "p \<in> prime_factors x \<Longrightarrow> p > (0::nat)"








63905






1c3dcb5fe6cb
prefer abbreviation for trivial set conversion



haftmann


parents: 
63904

diff
changeset




   461


  by (simp add: in_prime_factors_imp_prime prime_gt_0_nat)








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   462














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   463


lemma prime_factors_gt_0_int:













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   464


  "p \<in> prime_factors x \<Longrightarrow> p > (0::int)"








63905






1c3dcb5fe6cb
prefer abbreviation for trivial set conversion



haftmann


parents: 
63904

diff
changeset




   465


  by (simp add: in_prime_factors_imp_prime prime_gt_0_int)








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   466









63905






1c3dcb5fe6cb
prefer abbreviation for trivial set conversion



haftmann


parents: 
63904

diff
changeset




   467


lemma prime_factors_ge_0_int [elim]: (* FIXME !? *)








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   468


  fixes n :: int













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   469


  shows "p \<in> prime_factors n \<Longrightarrow> p \<ge> 0"








63905






1c3dcb5fe6cb
prefer abbreviation for trivial set conversion



haftmann


parents: 
63904

diff
changeset




   470


  by (drule prime_factors_gt_0_int) simp













1c3dcb5fe6cb
prefer abbreviation for trivial set conversion



haftmann


parents: 
63904

diff
changeset




   471


  








63830






2ea3725a34bd
msetsum -> set_mset, msetprod -> prod_mset



nipkow


parents: 
63766

diff
changeset




   472


lemma prod_mset_prime_factorization_int:








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   473


  fixes n :: int













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   474


  assumes "n > 0"








63830






2ea3725a34bd
msetsum -> set_mset, msetprod -> prod_mset



nipkow


parents: 
63766

diff
changeset




   475


  shows   "prod_mset (prime_factorization n) = n"













2ea3725a34bd
msetsum -> set_mset, msetprod -> prod_mset



nipkow


parents: 
63766

diff
changeset




   476


  using assms by (simp add: prod_mset_prime_factorization)








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   477














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   478


lemma prime_factorization_exists_nat:













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   479


  "n > 0 \<Longrightarrow> (\<exists>M. (\<forall>p::nat \<in> set_mset M. prime p) \<and> n = (\<Prod>i \<in># M. i))"








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   480


  using prime_factorization_exists[of n] by (auto simp: prime_def)








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   481









63830






2ea3725a34bd
msetsum -> set_mset, msetprod -> prod_mset



nipkow


parents: 
63766

diff
changeset




   482


lemma prod_mset_prime_factorization_nat [simp]: 













2ea3725a34bd
msetsum -> set_mset, msetprod -> prod_mset



nipkow


parents: 
63766

diff
changeset




   483


  "(n::nat) > 0 \<Longrightarrow> prod_mset (prime_factorization n) = n"













2ea3725a34bd
msetsum -> set_mset, msetprod -> prod_mset



nipkow


parents: 
63766

diff
changeset




   484


  by (subst prod_mset_prime_factorization) simp_all








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   485














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   486


lemma prime_factorization_nat:













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   487


    "n > (0::nat) \<Longrightarrow> n = (\<Prod>p \<in> prime_factors n. p ^ multiplicity p n)"








64272






f76b6dda2e56
setprod -> prod



nipkow


parents: 
63905

diff
changeset




   488


  by (simp add: prod_prime_factors)








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   489














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   490


lemma prime_factorization_int:













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   491


    "n > (0::int) \<Longrightarrow> n = (\<Prod>p \<in> prime_factors n. p ^ multiplicity p n)"








64272






f76b6dda2e56
setprod -> prod



nipkow


parents: 
63905

diff
changeset




   492


  by (simp add: prod_prime_factors)








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   493














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   494


lemma prime_factorization_unique_nat:













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   495


  fixes f :: "nat \<Rightarrow> _"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   496


  assumes S_eq: "S = {p. 0 < f p}"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   497


    and "finite S"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   498


    and S: "\<forall>p\<in>S. prime p" "n = (\<Prod>p\<in>S. p ^ f p)"








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   499


  shows "S = prime_factors n \<and> (\<forall>p. prime p \<longrightarrow> f p = multiplicity p n)"








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   500


  using assms by (intro prime_factorization_unique'') auto













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   501














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   502


lemma prime_factorization_unique_int:













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   503


  fixes f :: "int \<Rightarrow> _"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   504


  assumes S_eq: "S = {p. 0 < f p}"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   505


    and "finite S"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   506


    and S: "\<forall>p\<in>S. prime p" "abs n = (\<Prod>p\<in>S. p ^ f p)"








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   507


  shows "S = prime_factors n \<and> (\<forall>p. prime p \<longrightarrow> f p = multiplicity p n)"








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   508


  using assms by (intro prime_factorization_unique'') auto













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   509














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   510


lemma prime_factors_characterization_nat:













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   511


  "S = {p. 0 < f (p::nat)} \<Longrightarrow>













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   512


    finite S \<Longrightarrow> \<forall>p\<in>S. prime p \<Longrightarrow> n = (\<Prod>p\<in>S. p ^ f p) \<Longrightarrow> prime_factors n = S"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   513


  by (rule prime_factorization_unique_nat [THEN conjunct1, symmetric])













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   514














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   515


lemma prime_factors_characterization'_nat:













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   516


  "finite {p. 0 < f (p::nat)} \<Longrightarrow>













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   517


    (\<forall>p. 0 < f p \<longrightarrow> prime p) \<Longrightarrow>













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   518


      prime_factors (\<Prod>p | 0 < f p. p ^ f p) = {p. 0 < f p}"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   519


  by (rule prime_factors_characterization_nat) auto













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   520














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   521


lemma prime_factors_characterization_int:













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   522


  "S = {p. 0 < f (p::int)} \<Longrightarrow> finite S \<Longrightarrow>













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   523


    \<forall>p\<in>S. prime p \<Longrightarrow> abs n = (\<Prod>p\<in>S. p ^ f p) \<Longrightarrow> prime_factors n = S"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   524


  by (rule prime_factorization_unique_int [THEN conjunct1, symmetric])













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   525














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   526


(* TODO Move *)








64272






f76b6dda2e56
setprod -> prod



nipkow


parents: 
63905

diff
changeset




   527


lemma abs_prod: "abs (prod f A :: 'a :: linordered_idom) = prod (\<lambda>x. abs (f x)) A"








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   528


  by (cases "finite A", induction A rule: finite_induct) (simp_all add: abs_mult)













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   529














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   530


lemma primes_characterization'_int [rule_format]:













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   531


  "finite {p. p \<ge> 0 \<and> 0 < f (p::int)} \<Longrightarrow> \<forall>p. 0 < f p \<longrightarrow> prime p \<Longrightarrow>













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   532


      prime_factors (\<Prod>p | p \<ge> 0 \<and> 0 < f p. p ^ f p) = {p. p \<ge> 0 \<and> 0 < f p}"








64272






f76b6dda2e56
setprod -> prod



nipkow


parents: 
63905

diff
changeset




   533


  by (rule prime_factors_characterization_int) (auto simp: abs_prod prime_ge_0_int)








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   534














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   535


lemma multiplicity_characterization_nat:








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   536


  "S = {p. 0 < f (p::nat)} \<Longrightarrow> finite S \<Longrightarrow> \<forall>p\<in>S. prime p \<Longrightarrow> prime p \<Longrightarrow>








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   537


    n = (\<Prod>p\<in>S. p ^ f p) \<Longrightarrow> multiplicity p n = f p"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   538


  by (frule prime_factorization_unique_nat [of S f n, THEN conjunct2, rule_format, symmetric]) auto













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   539














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   540


lemma multiplicity_characterization'_nat: "finite {p. 0 < f (p::nat)} \<longrightarrow>








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   541


    (\<forall>p. 0 < f p \<longrightarrow> prime p) \<longrightarrow> prime p \<longrightarrow>








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   542


      multiplicity p (\<Prod>p | 0 < f p. p ^ f p) = f p"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   543


  by (intro impI, rule multiplicity_characterization_nat) auto













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   544














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   545


lemma multiplicity_characterization_int: "S = {p. 0 < f (p::int)} \<Longrightarrow>








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   546


    finite S \<Longrightarrow> \<forall>p\<in>S. prime p \<Longrightarrow> prime p \<Longrightarrow> n = (\<Prod>p\<in>S. p ^ f p) \<Longrightarrow> multiplicity p n = f p"








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   547


  by (frule prime_factorization_unique_int [of S f n, THEN conjunct2, rule_format, symmetric]) 








64272






f76b6dda2e56
setprod -> prod



nipkow


parents: 
63905

diff
changeset




   548


     (auto simp: abs_prod power_abs prime_ge_0_int intro!: prod.cong)








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   549














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   550


lemma multiplicity_characterization'_int [rule_format]:













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   551


  "finite {p. p \<ge> 0 \<and> 0 < f (p::int)} \<Longrightarrow>








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   552


    (\<forall>p. 0 < f p \<longrightarrow> prime p) \<Longrightarrow> prime p \<Longrightarrow>








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   553


      multiplicity p (\<Prod>p | p \<ge> 0 \<and> 0 < f p. p ^ f p) = f p"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   554


  by (rule multiplicity_characterization_int) (auto simp: prime_ge_0_int)













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   555














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   556


lemma multiplicity_one_nat [simp]: "multiplicity p (Suc 0) = 0"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   557


  unfolding One_nat_def [symmetric] by (rule multiplicity_one)













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   558














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   559


lemma multiplicity_eq_nat:













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   560


  fixes x and y::nat








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   561


  assumes "x > 0" "y > 0" "\<And>p. prime p \<Longrightarrow> multiplicity p x = multiplicity p y"








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   562


  shows "x = y"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   563


  using multiplicity_eq_imp_eq[of x y] assms by simp













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   564














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   565


lemma multiplicity_eq_int:













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   566


  fixes x y :: int








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   567


  assumes "x > 0" "y > 0" "\<And>p. prime p \<Longrightarrow> multiplicity p x = multiplicity p y"








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   568


  shows "x = y"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   569


  using multiplicity_eq_imp_eq[of x y] assms by simp













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   570














523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   571


lemma multiplicity_prod_prime_powers:








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   572


  assumes "finite S" "\<And>x. x \<in> S \<Longrightarrow> prime x" "prime p"








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   573


  shows   "multiplicity p (\<Prod>p \<in> S. p ^ f p) = (if p \<in> S then f p else 0)"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   574


proof -













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   575


  define g where "g = (\<lambda>x. if x \<in> S then f x else 0)"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   576


  define A where "A = Abs_multiset g"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   577


  have "{x. g x > 0} \<subseteq> S" by (auto simp: g_def)













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   578


  from finite_subset[OF this assms(1)] have [simp]: "g :  multiset"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   579


    by (simp add: multiset_def)













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   580


  from assms have count_A: "count A x = g x" for x unfolding A_def













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   581


    by simp













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   582


  have set_mset_A: "set_mset A = {x\<in>S. f x > 0}"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   583


    unfolding set_mset_def count_A by (auto simp: g_def)













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   584


  with assms have prime: "prime x" if "x \<in># A" for x using that by auto













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   585


  from set_mset_A assms have "(\<Prod>p \<in> S. p ^ f p) = (\<Prod>p \<in> S. p ^ g p) "








64272






f76b6dda2e56
setprod -> prod



nipkow


parents: 
63905

diff
changeset




   586


    by (intro prod.cong) (auto simp: g_def)








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   587


  also from set_mset_A assms have "\<dots> = (\<Prod>p \<in> set_mset A. p ^ g p)"








64272






f76b6dda2e56
setprod -> prod



nipkow


parents: 
63905

diff
changeset




   588


    by (intro prod.mono_neutral_right) (auto simp: g_def set_mset_A)








63830






2ea3725a34bd
msetsum -> set_mset, msetprod -> prod_mset



nipkow


parents: 
63766

diff
changeset




   589


  also have "\<dots> = prod_mset A"








64272






f76b6dda2e56
setprod -> prod



nipkow


parents: 
63905

diff
changeset




   590


    by (auto simp: prod_mset_multiplicity count_A set_mset_A intro!: prod.cong)








63830






2ea3725a34bd
msetsum -> set_mset, msetprod -> prod_mset



nipkow


parents: 
63766

diff
changeset




   591


  also from assms have "multiplicity p \<dots> = sum_mset (image_mset (multiplicity p) A)"













2ea3725a34bd
msetsum -> set_mset, msetprod -> prod_mset



nipkow


parents: 
63766

diff
changeset




   592


    by (subst prime_elem_multiplicity_prod_mset_distrib) (auto dest: prime)








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   593


  also from assms have "image_mset (multiplicity p) A = image_mset (\<lambda>x. if x = p then 1 else 0) A"













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   594


    by (intro image_mset_cong) (auto simp: prime_multiplicity_other dest: prime)








63830






2ea3725a34bd
msetsum -> set_mset, msetprod -> prod_mset



nipkow


parents: 
63766

diff
changeset




   595


  also have "sum_mset \<dots> = (if p \<in> S then f p else 0)" by (simp add: sum_mset_delta count_A g_def)








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   596


  finally show ?thesis .













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   597


qed













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   598









63904






b8482e12a2a8
more lemmas



haftmann


parents: 
63830

diff
changeset




   599


lemma prime_factorization_prod_mset:













b8482e12a2a8
more lemmas



haftmann


parents: 
63830

diff
changeset




   600


  assumes "0 \<notin># A"













b8482e12a2a8
more lemmas



haftmann


parents: 
63830

diff
changeset




   601


  shows "prime_factorization (prod_mset A) = \<Union>#(image_mset prime_factorization A)"













b8482e12a2a8
more lemmas



haftmann


parents: 
63830

diff
changeset




   602


  using assms by (induct A) (auto simp add: prime_factorization_mult)













b8482e12a2a8
more lemmas



haftmann


parents: 
63830

diff
changeset




   603









64272






f76b6dda2e56
setprod -> prod



nipkow


parents: 
63905

diff
changeset




   604


lemma prime_factors_prod:








63904






b8482e12a2a8
more lemmas



haftmann


parents: 
63830

diff
changeset




   605


  assumes "finite A" and "0 \<notin> f ` A"








64272






f76b6dda2e56
setprod -> prod



nipkow


parents: 
63905

diff
changeset




   606


  shows "prime_factors (prod f A) = UNION A (prime_factors \<circ> f)"













f76b6dda2e56
setprod -> prod



nipkow


parents: 
63905

diff
changeset




   607


  using assms by (simp add: prod_unfold_prod_mset prime_factorization_prod_mset)








63904






b8482e12a2a8
more lemmas



haftmann


parents: 
63830

diff
changeset




   608














b8482e12a2a8
more lemmas



haftmann


parents: 
63830

diff
changeset




   609


lemma prime_factors_fact:













b8482e12a2a8
more lemmas



haftmann


parents: 
63830

diff
changeset




   610


  "prime_factors (fact n) = {p \<in> {2..n}. prime p}" (is "?M = ?N")













b8482e12a2a8
more lemmas



haftmann


parents: 
63830

diff
changeset




   611


proof (rule set_eqI)













b8482e12a2a8
more lemmas



haftmann


parents: 
63830

diff
changeset




   612


  fix p













b8482e12a2a8
more lemmas



haftmann


parents: 
63830

diff
changeset




   613


  { fix m :: nat













b8482e12a2a8
more lemmas



haftmann


parents: 
63830

diff
changeset




   614


    assume "p \<in> prime_factors m"













b8482e12a2a8
more lemmas



haftmann


parents: 
63830

diff
changeset




   615


    then have "prime p" and "p dvd m" by auto













b8482e12a2a8
more lemmas



haftmann


parents: 
63830

diff
changeset




   616


    moreover assume "m > 0" 













b8482e12a2a8
more lemmas



haftmann


parents: 
63830

diff
changeset




   617


    ultimately have "2 \<le> p" and "p \<le> m"













b8482e12a2a8
more lemmas



haftmann


parents: 
63830

diff
changeset




   618


      by (auto intro: prime_ge_2_nat dest: dvd_imp_le)













b8482e12a2a8
more lemmas



haftmann


parents: 
63830

diff
changeset




   619


    moreover assume "m \<le> n"













b8482e12a2a8
more lemmas



haftmann


parents: 
63830

diff
changeset




   620


    ultimately have "2 \<le> p" and "p \<le> n"













b8482e12a2a8
more lemmas



haftmann


parents: 
63830

diff
changeset




   621


      by (auto intro: order_trans)













b8482e12a2a8
more lemmas



haftmann


parents: 
63830

diff
changeset




   622


  } note * = this













b8482e12a2a8
more lemmas



haftmann


parents: 
63830

diff
changeset




   623


  show "p \<in> ?M \<longleftrightarrow> p \<in> ?N"








64272






f76b6dda2e56
setprod -> prod



nipkow


parents: 
63905

diff
changeset




   624


    by (auto simp add: fact_prod prime_factors_prod Suc_le_eq dest!: prime_prime_factors intro: *)








63904






b8482e12a2a8
more lemmas



haftmann


parents: 
63830

diff
changeset




   625


qed













b8482e12a2a8
more lemmas



haftmann


parents: 
63830

diff
changeset




   626









63766






695d60817cb1
Some facts about factorial and binomial coefficients



Manuel Eberl <eberlm@in.tum.de>


parents: 
63635

diff
changeset




   627


lemma prime_dvd_fact_iff:













695d60817cb1
Some facts about factorial and binomial coefficients



Manuel Eberl <eberlm@in.tum.de>


parents: 
63635

diff
changeset




   628


  assumes "prime p"








63904






b8482e12a2a8
more lemmas



haftmann


parents: 
63830

diff
changeset




   629


  shows "p dvd fact n \<longleftrightarrow> p \<le> n"













b8482e12a2a8
more lemmas



haftmann


parents: 
63830

diff
changeset




   630


  using assms













b8482e12a2a8
more lemmas



haftmann


parents: 
63830

diff
changeset




   631


  by (auto simp add: prime_factorization_subset_iff_dvd [symmetric]








63905






1c3dcb5fe6cb
prefer abbreviation for trivial set conversion



haftmann


parents: 
63904

diff
changeset




   632


    prime_factorization_prime prime_factors_fact prime_ge_2_nat)








63766






695d60817cb1
Some facts about factorial and binomial coefficients



Manuel Eberl <eberlm@in.tum.de>


parents: 
63635

diff
changeset




   633









63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   634


(* TODO Legacy names *)








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   635


lemmas prime_imp_coprime_nat = prime_imp_coprime[where ?'a = nat]













2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   636


lemmas prime_imp_coprime_int = prime_imp_coprime[where ?'a = int]













2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   637


lemmas prime_dvd_mult_nat = prime_dvd_mult_iff[where ?'a = nat]













2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   638


lemmas prime_dvd_mult_int = prime_dvd_mult_iff[where ?'a = int]













2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   639


lemmas prime_dvd_mult_eq_nat = prime_dvd_mult_iff[where ?'a = nat]













2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   640


lemmas prime_dvd_mult_eq_int = prime_dvd_mult_iff[where ?'a = int]













2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   641


lemmas prime_dvd_power_nat = prime_dvd_power[where ?'a = nat]













2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   642


lemmas prime_dvd_power_int = prime_dvd_power[where ?'a = int]













2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   643


lemmas prime_dvd_power_nat_iff = prime_dvd_power_iff[where ?'a = nat]













2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   644


lemmas prime_dvd_power_int_iff = prime_dvd_power_iff[where ?'a = int]













2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   645


lemmas prime_imp_power_coprime_nat = prime_imp_power_coprime[where ?'a = nat]













2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   646


lemmas prime_imp_power_coprime_int = prime_imp_power_coprime[where ?'a = int]








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   647


lemmas primes_coprime_nat = primes_coprime[where ?'a = nat]













523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   648


lemmas primes_coprime_int = primes_coprime[where ?'a = nat]








63633






2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   649


lemmas prime_divprod_pow_nat = prime_elem_divprod_pow[where ?'a = nat]













2accfb71e33b
is_prime -> prime



eberlm <eberlm@in.tum.de>


parents: 
63535

diff
changeset




   650


lemmas prime_exp = prime_elem_power_iff[where ?'a = nat]








63534






523b488b15c9
Overhaul of prime/multiplicity/prime_factors



eberlm <eberlm@in.tum.de>


parents: 
62481

diff
changeset




   651









63635






858a225ebb62
Tuned primes



eberlm <eberlm@in.tum.de>


parents: 
63633

diff
changeset




   652


end















isabelle