src/HOL/Library/Nat_Infinity.thy
author wenzelm
Tue Nov 07 11:47:57 2006 +0100 (2006-11-07)
changeset 21210 c17fd2df4e9e
parent 19736 d8d0f8f51d69
child 21404 eb85850d3eb7
permissions -rw-r--r--
renamed 'const_syntax' to 'notation';
     1 (*  Title:      HOL/Library/Nat_Infinity.thy
     2     ID:         $Id$
     3     Author:     David von Oheimb, TU Muenchen
     4 *)
     5 
     6 header {* Natural numbers with infinity *}
     7 
     8 theory Nat_Infinity
     9 imports Main
    10 begin
    11 
    12 subsection "Definitions"
    13 
    14 text {*
    15   We extend the standard natural numbers by a special value indicating
    16   infinity.  This includes extending the ordering relations @{term "op
    17   <"} and @{term "op \<le>"}.
    18 *}
    19 
    20 datatype inat = Fin nat | Infty
    21 
    22 notation (xsymbols)
    23   Infty  ("\<infinity>")
    24 
    25 notation (HTML output)
    26   Infty  ("\<infinity>")
    27 
    28 instance inat :: "{ord, zero}" ..
    29 
    30 definition
    31   iSuc :: "inat => inat"
    32   "iSuc i = (case i of Fin n => Fin (Suc n) | \<infinity> => \<infinity>)"
    33 
    34 defs (overloaded)
    35   Zero_inat_def: "0 == Fin 0"
    36   iless_def: "m < n ==
    37     case m of Fin m1 => (case n of Fin n1 => m1 < n1 | \<infinity> => True)
    38     | \<infinity>  => False"
    39   ile_def: "(m::inat) \<le> n == \<not> (n < m)"
    40 
    41 lemmas inat_defs = Zero_inat_def iSuc_def iless_def ile_def
    42 lemmas inat_splits = inat.split inat.split_asm
    43 
    44 text {*
    45   Below is a not quite complete set of theorems.  Use the method
    46   @{text "(simp add: inat_defs split:inat_splits, arith?)"} to prove
    47   new theorems or solve arithmetic subgoals involving @{typ inat} on
    48   the fly.
    49 *}
    50 
    51 subsection "Constructors"
    52 
    53 lemma Fin_0: "Fin 0 = 0"
    54   by (simp add: inat_defs split:inat_splits, arith?)
    55 
    56 lemma Infty_ne_i0 [simp]: "\<infinity> \<noteq> 0"
    57   by (simp add: inat_defs split:inat_splits, arith?)
    58 
    59 lemma i0_ne_Infty [simp]: "0 \<noteq> \<infinity>"
    60   by (simp add: inat_defs split:inat_splits, arith?)
    61 
    62 lemma iSuc_Fin [simp]: "iSuc (Fin n) = Fin (Suc n)"
    63   by (simp add: inat_defs split:inat_splits, arith?)
    64 
    65 lemma iSuc_Infty [simp]: "iSuc \<infinity> = \<infinity>"
    66   by (simp add: inat_defs split:inat_splits, arith?)
    67 
    68 lemma iSuc_ne_0 [simp]: "iSuc n \<noteq> 0"
    69   by (simp add: inat_defs split:inat_splits, arith?)
    70 
    71 lemma iSuc_inject [simp]: "(iSuc x = iSuc y) = (x = y)"
    72   by (simp add: inat_defs split:inat_splits, arith?)
    73 
    74 
    75 subsection "Ordering relations"
    76 
    77 lemma Infty_ilessE [elim!]: "\<infinity> < Fin m ==> R"
    78   by (simp add: inat_defs split:inat_splits, arith?)
    79 
    80 lemma iless_linear: "m < n \<or> m = n \<or> n < (m::inat)"
    81   by (simp add: inat_defs split:inat_splits, arith?)
    82 
    83 lemma iless_not_refl [simp]: "\<not> n < (n::inat)"
    84   by (simp add: inat_defs split:inat_splits, arith?)
    85 
    86 lemma iless_trans: "i < j ==> j < k ==> i < (k::inat)"
    87   by (simp add: inat_defs split:inat_splits, arith?)
    88 
    89 lemma iless_not_sym: "n < m ==> \<not> m < (n::inat)"
    90   by (simp add: inat_defs split:inat_splits, arith?)
    91 
    92 lemma Fin_iless_mono [simp]: "(Fin n < Fin m) = (n < m)"
    93   by (simp add: inat_defs split:inat_splits, arith?)
    94 
    95 lemma Fin_iless_Infty [simp]: "Fin n < \<infinity>"
    96   by (simp add: inat_defs split:inat_splits, arith?)
    97 
    98 lemma Infty_eq [simp]: "(n < \<infinity>) = (n \<noteq> \<infinity>)"
    99   by (simp add: inat_defs split:inat_splits, arith?)
   100 
   101 lemma i0_eq [simp]: "((0::inat) < n) = (n \<noteq> 0)"
   102   by (simp add: inat_defs split:inat_splits, arith?)
   103 
   104 lemma i0_iless_iSuc [simp]: "0 < iSuc n"
   105   by (simp add: inat_defs split:inat_splits, arith?)
   106 
   107 lemma not_ilessi0 [simp]: "\<not> n < (0::inat)"
   108   by (simp add: inat_defs split:inat_splits, arith?)
   109 
   110 lemma Fin_iless: "n < Fin m ==> \<exists>k. n = Fin k"
   111   by (simp add: inat_defs split:inat_splits, arith?)
   112 
   113 lemma iSuc_mono [simp]: "(iSuc n < iSuc m) = (n < m)"
   114   by (simp add: inat_defs split:inat_splits, arith?)
   115 
   116 
   117 
   118 lemma ile_def2: "(m \<le> n) = (m < n \<or> m = (n::inat))"
   119   by (simp add: inat_defs split:inat_splits, arith?)
   120 
   121 lemma ile_refl [simp]: "n \<le> (n::inat)"
   122   by (simp add: inat_defs split:inat_splits, arith?)
   123 
   124 lemma ile_trans: "i \<le> j ==> j \<le> k ==> i \<le> (k::inat)"
   125   by (simp add: inat_defs split:inat_splits, arith?)
   126 
   127 lemma ile_iless_trans: "i \<le> j ==> j < k ==> i < (k::inat)"
   128   by (simp add: inat_defs split:inat_splits, arith?)
   129 
   130 lemma iless_ile_trans: "i < j ==> j \<le> k ==> i < (k::inat)"
   131   by (simp add: inat_defs split:inat_splits, arith?)
   132 
   133 lemma Infty_ub [simp]: "n \<le> \<infinity>"
   134   by (simp add: inat_defs split:inat_splits, arith?)
   135 
   136 lemma i0_lb [simp]: "(0::inat) \<le> n"
   137   by (simp add: inat_defs split:inat_splits, arith?)
   138 
   139 lemma Infty_ileE [elim!]: "\<infinity> \<le> Fin m ==> R"
   140   by (simp add: inat_defs split:inat_splits, arith?)
   141 
   142 lemma Fin_ile_mono [simp]: "(Fin n \<le> Fin m) = (n \<le> m)"
   143   by (simp add: inat_defs split:inat_splits, arith?)
   144 
   145 lemma ilessI1: "n \<le> m ==> n \<noteq> m ==> n < (m::inat)"
   146   by (simp add: inat_defs split:inat_splits, arith?)
   147 
   148 lemma ileI1: "m < n ==> iSuc m \<le> n"
   149   by (simp add: inat_defs split:inat_splits, arith?)
   150 
   151 lemma Suc_ile_eq: "(Fin (Suc m) \<le> n) = (Fin m < n)"
   152   by (simp add: inat_defs split:inat_splits, arith?)
   153 
   154 lemma iSuc_ile_mono [simp]: "(iSuc n \<le> iSuc m) = (n \<le> m)"
   155   by (simp add: inat_defs split:inat_splits, arith?)
   156 
   157 lemma iless_Suc_eq [simp]: "(Fin m < iSuc n) = (Fin m \<le> n)"
   158   by (simp add: inat_defs split:inat_splits, arith?)
   159 
   160 lemma not_iSuc_ilei0 [simp]: "\<not> iSuc n \<le> 0"
   161   by (simp add: inat_defs split:inat_splits, arith?)
   162 
   163 lemma ile_iSuc [simp]: "n \<le> iSuc n"
   164   by (simp add: inat_defs split:inat_splits, arith?)
   165 
   166 lemma Fin_ile: "n \<le> Fin m ==> \<exists>k. n = Fin k"
   167   by (simp add: inat_defs split:inat_splits, arith?)
   168 
   169 lemma chain_incr: "\<forall>i. \<exists>j. Y i < Y j ==> \<exists>j. Fin k < Y j"
   170   apply (induct_tac k)
   171    apply (simp (no_asm) only: Fin_0)
   172    apply (fast intro: ile_iless_trans i0_lb)
   173   apply (erule exE)
   174   apply (drule spec)
   175   apply (erule exE)
   176   apply (drule ileI1)
   177   apply (rule iSuc_Fin [THEN subst])
   178   apply (rule exI)
   179   apply (erule (1) ile_iless_trans)
   180   done
   181 
   182 end