src/HOL/Library/Discrete.thy
author paulson <lp15@cam.ac.uk>
Mon, 28 Aug 2017 20:33:08 +0100
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sorted out cases in negligible_standard_hyperplane
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(* Author: Florian Haftmann, TU Muenchen *)
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section \<open>Common discrete functions\<close>
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theory Discrete
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imports Complex_Main
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begin
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subsection \<open>Discrete logarithm\<close>
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context
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begin
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qualified fun log :: "nat \<Rightarrow> nat"
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  where [simp del]: "log n = (if n < 2 then 0 else Suc (log (n div 2)))"
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lemma log_induct [consumes 1, case_names one double]:
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  fixes n :: nat
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  assumes "n > 0"
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  assumes one: "P 1"
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  assumes double: "\<And>n. n \<ge> 2 \<Longrightarrow> P (n div 2) \<Longrightarrow> P n"
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  shows "P n"
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using \<open>n > 0\<close> proof (induct n rule: log.induct)
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  fix n
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  assume "\<not> n < 2 \<Longrightarrow>
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          0 < n div 2 \<Longrightarrow> P (n div 2)"
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  then have *: "n \<ge> 2 \<Longrightarrow> P (n div 2)" by simp
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  assume "n > 0"
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  show "P n"
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  proof (cases "n = 1")
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    case True
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    with one show ?thesis by simp
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  next
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    case False
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    with \<open>n > 0\<close> have "n \<ge> 2" by auto
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    with * have "P (n div 2)" .
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    with \<open>n \<ge> 2\<close> show ?thesis by (rule double)
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  qed
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qed
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lemma log_zero [simp]: "log 0 = 0"
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  by (simp add: log.simps)
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lemma log_one [simp]: "log 1 = 0"
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  by (simp add: log.simps)
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lemma log_Suc_zero [simp]: "log (Suc 0) = 0"
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  using log_one by simp
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lemma log_rec: "n \<ge> 2 \<Longrightarrow> log n = Suc (log (n div 2))"
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  by (simp add: log.simps)
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lemma log_twice [simp]: "n \<noteq> 0 \<Longrightarrow> log (2 * n) = Suc (log n)"
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  by (simp add: log_rec)
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lemma log_half [simp]: "log (n div 2) = log n - 1"
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proof (cases "n < 2")
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  case True
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  then have "n = 0 \<or> n = 1" by arith
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  then show ?thesis by (auto simp del: One_nat_def)
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next
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  case False
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  then show ?thesis by (simp add: log_rec)
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qed
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lemma log_exp [simp]: "log (2 ^ n) = n"
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  by (induct n) simp_all
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lemma log_mono: "mono log"
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proof
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  fix m n :: nat
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  assume "m \<le> n"
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  then show "log m \<le> log n"
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  proof (induct m arbitrary: n rule: log.induct)
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    case (1 m)
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    then have mn2: "m div 2 \<le> n div 2" by arith
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    show "log m \<le> log n"
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    proof (cases "m \<ge> 2")
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      case False
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      then have "m = 0 \<or> m = 1" by arith
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      then show ?thesis by (auto simp del: One_nat_def)
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    next
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      case True then have "\<not> m < 2" by simp
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      with mn2 have "n \<ge> 2" by arith
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      from True have m2_0: "m div 2 \<noteq> 0" by arith
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      with mn2 have n2_0: "n div 2 \<noteq> 0" by arith
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      from \<open>\<not> m < 2\<close> "1.hyps" mn2 have "log (m div 2) \<le> log (n div 2)" by blast
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      with m2_0 n2_0 have "log (2 * (m div 2)) \<le> log (2 * (n div 2))" by simp
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      with m2_0 n2_0 \<open>m \<ge> 2\<close> \<open>n \<ge> 2\<close> show ?thesis by (simp only: log_rec [of m] log_rec [of n]) simp
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    qed
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  qed
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qed
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lemma log_exp2_le:
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  assumes "n > 0"
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  shows "2 ^ log n \<le> n"
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  using assms
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proof (induct n rule: log_induct)
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  case one
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  then show ?case by simp
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next
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  case (double n)
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  with log_mono have "log n \<ge> Suc 0"
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    by (simp add: log.simps)
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  assume "2 ^ log (n div 2) \<le> n div 2"
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  with \<open>n \<ge> 2\<close> have "2 ^ (log n - Suc 0) \<le> n div 2" by simp
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  then have "2 ^ (log n - Suc 0) * 2 ^ 1 \<le> n div 2 * 2" by simp
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  with \<open>log n \<ge> Suc 0\<close> have "2 ^ log n \<le> n div 2 * 2"
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    unfolding power_add [symmetric] by simp
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  also have "n div 2 * 2 \<le> n" by (cases "even n") simp_all
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  finally show ?case .
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qed
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lemma log_exp2_gt: "2 * 2 ^ log n > n"
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proof (cases "n > 0")
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  case True
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  thus ?thesis
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  proof (induct n rule: log_induct)
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    case (double n)
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    thus ?case
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      by (cases "even n") (auto elim!: evenE oddE simp: field_simps log.simps)
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  qed simp_all
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qed simp_all
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lemma log_exp2_ge: "2 * 2 ^ log n \<ge> n"
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  using log_exp2_gt[of n] by simp
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lemma log_le_iff: "m \<le> n \<Longrightarrow> log m \<le> log n"
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  by (rule monoD [OF log_mono])
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lemma log_eqI:
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  assumes "n > 0" "2^k \<le> n" "n < 2 * 2^k"
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  shows   "log n = k"
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proof (rule antisym)
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  from \<open>n > 0\<close> have "2 ^ log n \<le> n" by (rule log_exp2_le)
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  also have "\<dots> < 2 ^ Suc k" using assms by simp
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  finally have "log n < Suc k" by (subst (asm) power_strict_increasing_iff) simp_all
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  thus "log n \<le> k" by simp
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next
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  have "2^k \<le> n" by fact
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  also have "\<dots> < 2^(Suc (log n))" by (simp add: log_exp2_gt)
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  finally have "k < Suc (log n)" by (subst (asm) power_strict_increasing_iff) simp_all
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  thus "k \<le> log n" by simp
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qed
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lemma log_altdef: "log n = (if n = 0 then 0 else nat \<lfloor>Transcendental.log 2 (real_of_nat n)\<rfloor>)"
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proof (cases "n = 0")
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  case False
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   149
  have "\<lfloor>Transcendental.log 2 (real_of_nat n)\<rfloor> = int (log n)"
8c44dfb4ca8a Merged natlog2 into Discrete.log
eberlm <eberlm@in.tum.de>
parents: 63766
diff changeset
   150
  proof (rule floor_unique)
8c44dfb4ca8a Merged natlog2 into Discrete.log
eberlm <eberlm@in.tum.de>
parents: 63766
diff changeset
   151
    from False have "2 powr (real (log n)) \<le> real n"
8c44dfb4ca8a Merged natlog2 into Discrete.log
eberlm <eberlm@in.tum.de>
parents: 63766
diff changeset
   152
      by (simp add: powr_realpow log_exp2_le)
8c44dfb4ca8a Merged natlog2 into Discrete.log
eberlm <eberlm@in.tum.de>
parents: 63766
diff changeset
   153
    hence "Transcendental.log 2 (2 powr (real (log n))) \<le> Transcendental.log 2 (real n)"
8c44dfb4ca8a Merged natlog2 into Discrete.log
eberlm <eberlm@in.tum.de>
parents: 63766
diff changeset
   154
      using False by (subst Transcendental.log_le_cancel_iff) simp_all
8c44dfb4ca8a Merged natlog2 into Discrete.log
eberlm <eberlm@in.tum.de>
parents: 63766
diff changeset
   155
    also have "Transcendental.log 2 (2 powr (real (log n))) = real (log n)" by simp
8c44dfb4ca8a Merged natlog2 into Discrete.log
eberlm <eberlm@in.tum.de>
parents: 63766
diff changeset
   156
    finally show "real_of_int (int (log n)) \<le> Transcendental.log 2 (real n)" by simp
8c44dfb4ca8a Merged natlog2 into Discrete.log
eberlm <eberlm@in.tum.de>
parents: 63766
diff changeset
   157
  next
8c44dfb4ca8a Merged natlog2 into Discrete.log
eberlm <eberlm@in.tum.de>
parents: 63766
diff changeset
   158
    have "real n < real (2 * 2 ^ log n)"
8c44dfb4ca8a Merged natlog2 into Discrete.log
eberlm <eberlm@in.tum.de>
parents: 63766
diff changeset
   159
      by (subst of_nat_less_iff) (rule log_exp2_gt)
8c44dfb4ca8a Merged natlog2 into Discrete.log
eberlm <eberlm@in.tum.de>
parents: 63766
diff changeset
   160
    also have "\<dots> = 2 powr (real (log n) + 1)"
8c44dfb4ca8a Merged natlog2 into Discrete.log
eberlm <eberlm@in.tum.de>
parents: 63766
diff changeset
   161
      by (simp add: powr_add powr_realpow)
8c44dfb4ca8a Merged natlog2 into Discrete.log
eberlm <eberlm@in.tum.de>
parents: 63766
diff changeset
   162
    finally have "Transcendental.log 2 (real n) < Transcendental.log 2 \<dots>"
8c44dfb4ca8a Merged natlog2 into Discrete.log
eberlm <eberlm@in.tum.de>
parents: 63766
diff changeset
   163
      using False by (subst Transcendental.log_less_cancel_iff) simp_all
8c44dfb4ca8a Merged natlog2 into Discrete.log
eberlm <eberlm@in.tum.de>
parents: 63766
diff changeset
   164
    also have "\<dots> = real (log n) + 1" by simp
8c44dfb4ca8a Merged natlog2 into Discrete.log
eberlm <eberlm@in.tum.de>
parents: 63766
diff changeset
   165
    finally show "Transcendental.log 2 (real n) < real_of_int (int (log n)) + 1" by simp
8c44dfb4ca8a Merged natlog2 into Discrete.log
eberlm <eberlm@in.tum.de>
parents: 63766
diff changeset
   166
  qed
8c44dfb4ca8a Merged natlog2 into Discrete.log
eberlm <eberlm@in.tum.de>
parents: 63766
diff changeset
   167
  thus ?thesis by simp
8c44dfb4ca8a Merged natlog2 into Discrete.log
eberlm <eberlm@in.tum.de>
parents: 63766
diff changeset
   168
qed simp_all
8c44dfb4ca8a Merged natlog2 into Discrete.log
eberlm <eberlm@in.tum.de>
parents: 63766
diff changeset
   169
51174
071674018df9 fundamentals about discrete logarithm and square root
haftmann
parents:
diff changeset
   170
60500
903bb1495239 isabelle update_cartouches;
wenzelm
parents: 59349
diff changeset
   171
subsection \<open>Discrete square root\<close>
51174
071674018df9 fundamentals about discrete logarithm and square root
haftmann
parents:
diff changeset
   172
61115
3a4400985780 modernized name space management -- more uniform qualification;
wenzelm
parents: 60500
diff changeset
   173
qualified definition sqrt :: "nat \<Rightarrow> nat"
59349
3bde948f439c tuned -- more Sidekick-friendly layout;
wenzelm
parents: 58881
diff changeset
   174
  where "sqrt n = Max {m. m\<^sup>2 \<le> n}"
51263
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   175
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   176
lemma sqrt_aux:
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   177
  fixes n :: nat
53015
a1119cf551e8 standardized symbols via "isabelle update_sub_sup", excluding src/Pure and src/Tools/WWW_Find;
wenzelm
parents: 51263
diff changeset
   178
  shows "finite {m. m\<^sup>2 \<le> n}" and "{m. m\<^sup>2 \<le> n} \<noteq> {}"
51263
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   179
proof -
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   180
  { fix m
53015
a1119cf551e8 standardized symbols via "isabelle update_sub_sup", excluding src/Pure and src/Tools/WWW_Find;
wenzelm
parents: 51263
diff changeset
   181
    assume "m\<^sup>2 \<le> n"
51263
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   182
    then have "m \<le> n"
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   183
      by (cases m) (simp_all add: power2_eq_square)
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   184
  } note ** = this
53015
a1119cf551e8 standardized symbols via "isabelle update_sub_sup", excluding src/Pure and src/Tools/WWW_Find;
wenzelm
parents: 51263
diff changeset
   185
  then have "{m. m\<^sup>2 \<le> n} \<subseteq> {m. m \<le> n}" by auto
a1119cf551e8 standardized symbols via "isabelle update_sub_sup", excluding src/Pure and src/Tools/WWW_Find;
wenzelm
parents: 51263
diff changeset
   186
  then show "finite {m. m\<^sup>2 \<le> n}" by (rule finite_subset) rule
a1119cf551e8 standardized symbols via "isabelle update_sub_sup", excluding src/Pure and src/Tools/WWW_Find;
wenzelm
parents: 51263
diff changeset
   187
  have "0\<^sup>2 \<le> n" by simp
a1119cf551e8 standardized symbols via "isabelle update_sub_sup", excluding src/Pure and src/Tools/WWW_Find;
wenzelm
parents: 51263
diff changeset
   188
  then show *: "{m. m\<^sup>2 \<le> n} \<noteq> {}" by blast
51263
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   189
qed
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   190
63766
695d60817cb1 Some facts about factorial and binomial coefficients
Manuel Eberl <eberlm@in.tum.de>
parents: 63540
diff changeset
   191
lemma sqrt_unique:
695d60817cb1 Some facts about factorial and binomial coefficients
Manuel Eberl <eberlm@in.tum.de>
parents: 63540
diff changeset
   192
  assumes "m^2 \<le> n" "n < (Suc m)^2"
695d60817cb1 Some facts about factorial and binomial coefficients
Manuel Eberl <eberlm@in.tum.de>
parents: 63540
diff changeset
   193
  shows   "Discrete.sqrt n = m"
695d60817cb1 Some facts about factorial and binomial coefficients
Manuel Eberl <eberlm@in.tum.de>
parents: 63540
diff changeset
   194
proof -
695d60817cb1 Some facts about factorial and binomial coefficients
Manuel Eberl <eberlm@in.tum.de>
parents: 63540
diff changeset
   195
  have "m' \<le> m" if "m'^2 \<le> n" for m'
695d60817cb1 Some facts about factorial and binomial coefficients
Manuel Eberl <eberlm@in.tum.de>
parents: 63540
diff changeset
   196
  proof -
695d60817cb1 Some facts about factorial and binomial coefficients
Manuel Eberl <eberlm@in.tum.de>
parents: 63540
diff changeset
   197
    note that
695d60817cb1 Some facts about factorial and binomial coefficients
Manuel Eberl <eberlm@in.tum.de>
parents: 63540
diff changeset
   198
    also note assms(2)
695d60817cb1 Some facts about factorial and binomial coefficients
Manuel Eberl <eberlm@in.tum.de>
parents: 63540
diff changeset
   199
    finally have "m' < Suc m" by (rule power_less_imp_less_base) simp_all
695d60817cb1 Some facts about factorial and binomial coefficients
Manuel Eberl <eberlm@in.tum.de>
parents: 63540
diff changeset
   200
    thus "m' \<le> m" by simp
695d60817cb1 Some facts about factorial and binomial coefficients
Manuel Eberl <eberlm@in.tum.de>
parents: 63540
diff changeset
   201
  qed
695d60817cb1 Some facts about factorial and binomial coefficients
Manuel Eberl <eberlm@in.tum.de>
parents: 63540
diff changeset
   202
  with \<open>m^2 \<le> n\<close> sqrt_aux[of n] show ?thesis unfolding Discrete.sqrt_def
695d60817cb1 Some facts about factorial and binomial coefficients
Manuel Eberl <eberlm@in.tum.de>
parents: 63540
diff changeset
   203
    by (intro antisym Max.boundedI Max.coboundedI) simp_all
695d60817cb1 Some facts about factorial and binomial coefficients
Manuel Eberl <eberlm@in.tum.de>
parents: 63540
diff changeset
   204
qed
695d60817cb1 Some facts about factorial and binomial coefficients
Manuel Eberl <eberlm@in.tum.de>
parents: 63540
diff changeset
   205
695d60817cb1 Some facts about factorial and binomial coefficients
Manuel Eberl <eberlm@in.tum.de>
parents: 63540
diff changeset
   206
695d60817cb1 Some facts about factorial and binomial coefficients
Manuel Eberl <eberlm@in.tum.de>
parents: 63540
diff changeset
   207
lemma sqrt_code[code]: "sqrt n = Max (Set.filter (\<lambda>m. m\<^sup>2 \<le> n) {0..n})"
51263
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   208
proof -
53015
a1119cf551e8 standardized symbols via "isabelle update_sub_sup", excluding src/Pure and src/Tools/WWW_Find;
wenzelm
parents: 51263
diff changeset
   209
  from power2_nat_le_imp_le [of _ n] have "{m. m \<le> n \<and> m\<^sup>2 \<le> n} = {m. m\<^sup>2 \<le> n}" by auto
51263
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   210
  then show ?thesis by (simp add: sqrt_def Set.filter_def)
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   211
qed
51174
071674018df9 fundamentals about discrete logarithm and square root
haftmann
parents:
diff changeset
   212
59349
3bde948f439c tuned -- more Sidekick-friendly layout;
wenzelm
parents: 58881
diff changeset
   213
lemma sqrt_inverse_power2 [simp]: "sqrt (n\<^sup>2) = n"
51174
071674018df9 fundamentals about discrete logarithm and square root
haftmann
parents:
diff changeset
   214
proof -
071674018df9 fundamentals about discrete logarithm and square root
haftmann
parents:
diff changeset
   215
  have "{m. m \<le> n} \<noteq> {}" by auto
071674018df9 fundamentals about discrete logarithm and square root
haftmann
parents:
diff changeset
   216
  then have "Max {m. m \<le> n} \<le> n" by auto
071674018df9 fundamentals about discrete logarithm and square root
haftmann
parents:
diff changeset
   217
  then show ?thesis
071674018df9 fundamentals about discrete logarithm and square root
haftmann
parents:
diff changeset
   218
    by (auto simp add: sqrt_def power2_nat_le_eq_le intro: antisym)
071674018df9 fundamentals about discrete logarithm and square root
haftmann
parents:
diff changeset
   219
qed
071674018df9 fundamentals about discrete logarithm and square root
haftmann
parents:
diff changeset
   220
59349
3bde948f439c tuned -- more Sidekick-friendly layout;
wenzelm
parents: 58881
diff changeset
   221
lemma sqrt_zero [simp]: "sqrt 0 = 0"
58787
af9eb5e566dd eliminated redundancies;
haftmann
parents: 57514
diff changeset
   222
  using sqrt_inverse_power2 [of 0] by simp
af9eb5e566dd eliminated redundancies;
haftmann
parents: 57514
diff changeset
   223
59349
3bde948f439c tuned -- more Sidekick-friendly layout;
wenzelm
parents: 58881
diff changeset
   224
lemma sqrt_one [simp]: "sqrt 1 = 1"
58787
af9eb5e566dd eliminated redundancies;
haftmann
parents: 57514
diff changeset
   225
  using sqrt_inverse_power2 [of 1] by simp
af9eb5e566dd eliminated redundancies;
haftmann
parents: 57514
diff changeset
   226
59349
3bde948f439c tuned -- more Sidekick-friendly layout;
wenzelm
parents: 58881
diff changeset
   227
lemma mono_sqrt: "mono sqrt"
51263
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   228
proof
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   229
  fix m n :: nat
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   230
  have *: "0 * 0 \<le> m" by simp
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   231
  assume "m \<le> n"
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   232
  then show "sqrt m \<le> sqrt n"
60500
903bb1495239 isabelle update_cartouches;
wenzelm
parents: 59349
diff changeset
   233
    by (auto intro!: Max_mono \<open>0 * 0 \<le> m\<close> finite_less_ub simp add: power2_eq_square sqrt_def)
51263
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   234
qed
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   235
63766
695d60817cb1 Some facts about factorial and binomial coefficients
Manuel Eberl <eberlm@in.tum.de>
parents: 63540
diff changeset
   236
lemma mono_sqrt': "m \<le> n \<Longrightarrow> Discrete.sqrt m \<le> Discrete.sqrt n"
695d60817cb1 Some facts about factorial and binomial coefficients
Manuel Eberl <eberlm@in.tum.de>
parents: 63540
diff changeset
   237
  using mono_sqrt unfolding mono_def by auto
695d60817cb1 Some facts about factorial and binomial coefficients
Manuel Eberl <eberlm@in.tum.de>
parents: 63540
diff changeset
   238
59349
3bde948f439c tuned -- more Sidekick-friendly layout;
wenzelm
parents: 58881
diff changeset
   239
lemma sqrt_greater_zero_iff [simp]: "sqrt n > 0 \<longleftrightarrow> n > 0"
51174
071674018df9 fundamentals about discrete logarithm and square root
haftmann
parents:
diff changeset
   240
proof -
53015
a1119cf551e8 standardized symbols via "isabelle update_sub_sup", excluding src/Pure and src/Tools/WWW_Find;
wenzelm
parents: 51263
diff changeset
   241
  have *: "0 < Max {m. m\<^sup>2 \<le> n} \<longleftrightarrow> (\<exists>a\<in>{m. m\<^sup>2 \<le> n}. 0 < a)"
51263
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   242
    by (rule Max_gr_iff) (fact sqrt_aux)+
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   243
  show ?thesis
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   244
  proof
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   245
    assume "0 < sqrt n"
53015
a1119cf551e8 standardized symbols via "isabelle update_sub_sup", excluding src/Pure and src/Tools/WWW_Find;
wenzelm
parents: 51263
diff changeset
   246
    then have "0 < Max {m. m\<^sup>2 \<le> n}" by (simp add: sqrt_def)
51263
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   247
    with * show "0 < n" by (auto dest: power2_nat_le_imp_le)
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   248
  next
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   249
    assume "0 < n"
53015
a1119cf551e8 standardized symbols via "isabelle update_sub_sup", excluding src/Pure and src/Tools/WWW_Find;
wenzelm
parents: 51263
diff changeset
   250
    then have "1\<^sup>2 \<le> n \<and> 0 < (1::nat)" by simp
a1119cf551e8 standardized symbols via "isabelle update_sub_sup", excluding src/Pure and src/Tools/WWW_Find;
wenzelm
parents: 51263
diff changeset
   251
    then have "\<exists>q. q\<^sup>2 \<le> n \<and> 0 < q" ..
a1119cf551e8 standardized symbols via "isabelle update_sub_sup", excluding src/Pure and src/Tools/WWW_Find;
wenzelm
parents: 51263
diff changeset
   252
    with * have "0 < Max {m. m\<^sup>2 \<le> n}" by blast
51263
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   253
    then show "0 < sqrt n" by  (simp add: sqrt_def)
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   254
  qed
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   255
qed
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   256
59349
3bde948f439c tuned -- more Sidekick-friendly layout;
wenzelm
parents: 58881
diff changeset
   257
lemma sqrt_power2_le [simp]: "(sqrt n)\<^sup>2 \<le> n" (* FIXME tune proof *)
51263
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   258
proof (cases "n > 0")
58787
af9eb5e566dd eliminated redundancies;
haftmann
parents: 57514
diff changeset
   259
  case False then show ?thesis by simp
51263
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   260
next
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   261
  case True then have "sqrt n > 0" by simp
53015
a1119cf551e8 standardized symbols via "isabelle update_sub_sup", excluding src/Pure and src/Tools/WWW_Find;
wenzelm
parents: 51263
diff changeset
   262
  then have "mono (times (Max {m. m\<^sup>2 \<le> n}))" by (auto intro: mono_times_nat simp add: sqrt_def)
a1119cf551e8 standardized symbols via "isabelle update_sub_sup", excluding src/Pure and src/Tools/WWW_Find;
wenzelm
parents: 51263
diff changeset
   263
  then have *: "Max {m. m\<^sup>2 \<le> n} * Max {m. m\<^sup>2 \<le> n} = Max (times (Max {m. m\<^sup>2 \<le> n}) ` {m. m\<^sup>2 \<le> n})"
51263
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   264
    using sqrt_aux [of n] by (rule mono_Max_commute)
64919
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   265
  have "\<And>a. a * a \<le> n \<Longrightarrow> Max {m. m * m \<le> n} * a \<le> n"
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   266
  proof -
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   267
    fix q
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   268
    assume "q * q \<le> n"
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   269
    show "Max {m. m * m \<le> n} * q \<le> n"
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   270
    proof (cases "q > 0")
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   271
      case False then show ?thesis by simp
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   272
    next
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   273
      case True then have "mono (times q)" by (rule mono_times_nat)
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   274
      then have "q * Max {m. m * m \<le> n} = Max (times q ` {m. m * m \<le> n})"
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   275
        using sqrt_aux [of n] by (auto simp add: power2_eq_square intro: mono_Max_commute)
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   276
      then have "Max {m. m * m \<le> n} * q = Max (times q ` {m. m * m \<le> n})" by (simp add: ac_simps)
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   277
      moreover have "finite (op * q ` {m. m * m \<le> n})"
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   278
        by (metis (mono_tags) finite_imageI finite_less_ub le_square)
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   279
      moreover have "\<exists>x. x * x \<le> n"
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   280
        by (metis \<open>q * q \<le> n\<close>)
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   281
      ultimately show ?thesis
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   282
        by simp (metis \<open>q * q \<le> n\<close> le_cases mult_le_mono1 mult_le_mono2 order_trans)
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   283
    qed
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   284
  qed
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   285
  then have "Max (op * (Max {m. m * m \<le> n}) ` {m. m * m \<le> n}) \<le> n"
51263
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   286
    apply (subst Max_le_iff)
64919
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   287
      apply (metis (mono_tags) finite_imageI finite_less_ub le_square)
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   288
     apply auto
51263
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   289
    apply (metis le0 mult_0_right)
64919
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   290
    done
51263
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   291
  with * show ?thesis by (simp add: sqrt_def power2_eq_square)
51174
071674018df9 fundamentals about discrete logarithm and square root
haftmann
parents:
diff changeset
   292
qed
071674018df9 fundamentals about discrete logarithm and square root
haftmann
parents:
diff changeset
   293
59349
3bde948f439c tuned -- more Sidekick-friendly layout;
wenzelm
parents: 58881
diff changeset
   294
lemma sqrt_le: "sqrt n \<le> n"
51263
31e786e0e6a7 turned example into library for comparing growth of functions
haftmann
parents: 51174
diff changeset
   295
  using sqrt_aux [of n] by (auto simp add: sqrt_def intro: power2_nat_le_imp_le)
51174
071674018df9 fundamentals about discrete logarithm and square root
haftmann
parents:
diff changeset
   296
64919
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   297
text \<open>Additional facts about the discrete square root, thanks to Julian Biendarra, Manuel Eberl\<close>
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   298
  
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   299
lemma Suc_sqrt_power2_gt: "n < (Suc (Discrete.sqrt n))^2"
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   300
  using Max_ge[OF Discrete.sqrt_aux(1), of "Discrete.sqrt n + 1" n]
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   301
  by (cases "n < (Suc (Discrete.sqrt n))^2") (simp_all add: Discrete.sqrt_def)
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   302
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   303
lemma le_sqrt_iff: "x \<le> Discrete.sqrt y \<longleftrightarrow> x^2 \<le> y"
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   304
proof -
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   305
  have "x \<le> Discrete.sqrt y \<longleftrightarrow> (\<exists>z. z\<^sup>2 \<le> y \<and> x \<le> z)"    
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   306
    using Max_ge_iff[OF Discrete.sqrt_aux, of x y] by (simp add: Discrete.sqrt_def)
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   307
  also have "\<dots> \<longleftrightarrow> x^2 \<le> y"
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   308
  proof safe
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   309
    fix z assume "x \<le> z" "z ^ 2 \<le> y"
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   310
    thus "x^2 \<le> y" by (intro le_trans[of "x^2" "z^2" y]) (simp_all add: power2_nat_le_eq_le)
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   311
  qed auto
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   312
  finally show ?thesis .
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   313
qed
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   314
  
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   315
lemma le_sqrtI: "x^2 \<le> y \<Longrightarrow> x \<le> Discrete.sqrt y"
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   316
  by (simp add: le_sqrt_iff)
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   317
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   318
lemma sqrt_le_iff: "Discrete.sqrt y \<le> x \<longleftrightarrow> (\<forall>z. z^2 \<le> y \<longrightarrow> z \<le> x)"
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   319
  using Max.bounded_iff[OF Discrete.sqrt_aux] by (simp add: Discrete.sqrt_def)
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   320
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   321
lemma sqrt_leI:
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   322
  "(\<And>z. z^2 \<le> y \<Longrightarrow> z \<le> x) \<Longrightarrow> Discrete.sqrt y \<le> x"
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   323
  by (simp add: sqrt_le_iff)
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   324
    
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   325
lemma sqrt_Suc:
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   326
  "Discrete.sqrt (Suc n) = (if \<exists>m. Suc n = m^2 then Suc (Discrete.sqrt n) else Discrete.sqrt n)"
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   327
proof cases
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   328
  assume "\<exists> m. Suc n = m^2"
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   329
  then obtain m where m_def: "Suc n = m^2" by blast
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   330
  then have lhs: "Discrete.sqrt (Suc n) = m" by simp
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   331
  from m_def sqrt_power2_le[of n] 
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   332
    have "(Discrete.sqrt n)^2 < m^2" by linarith
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   333
  with power2_less_imp_less have lt_m: "Discrete.sqrt n < m" by blast
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   334
  from m_def Suc_sqrt_power2_gt[of "n"]
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   335
    have "m^2 \<le> (Suc(Discrete.sqrt n))^2" by simp
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   336
  with power2_nat_le_eq_le have "m \<le> Suc (Discrete.sqrt n)" by blast
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   337
  with lt_m have "m = Suc (Discrete.sqrt n)" by simp
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   338
  with lhs m_def show ?thesis by fastforce
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   339
next
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   340
  assume asm: "\<not> (\<exists> m. Suc n = m^2)"
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   341
  hence "Suc n \<noteq> (Discrete.sqrt (Suc n))^2" by simp
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   342
  with sqrt_power2_le[of "Suc n"] 
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   343
    have "Discrete.sqrt (Suc n) \<le> Discrete.sqrt n" by (intro le_sqrtI) linarith
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   344
  moreover have "Discrete.sqrt (Suc n) \<ge> Discrete.sqrt n"
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   345
    by (intro monoD[OF mono_sqrt]) simp_all
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   346
  ultimately show ?thesis using asm by simp
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   347
qed
7e0c8924dfda New material from Bertrand's postulate (file Bertrand_Discrete_Sqrt), and tidied an old messy proof
paulson <lp15@cam.ac.uk>
parents: 64449
diff changeset
   348
51174
071674018df9 fundamentals about discrete logarithm and square root
haftmann
parents:
diff changeset
   349
end
071674018df9 fundamentals about discrete logarithm and square root
haftmann
parents:
diff changeset
   350
62390
842917225d56 more canonical names
nipkow
parents: 61975
diff changeset
   351
end