src/HOL/Probability/Discrete_Topology.thy
 author hoelzl Tue Mar 05 15:43:14 2013 +0100 (2013-03-05) changeset 51343 b61b32f62c78 parent 51000 c9adb50f74ad child 61808 fc1556774cfe permissions -rw-r--r--
use generate_topology for second countable topologies, does not require intersection stable basis
```     1 (*  Title:      HOL/Probability/Discrete_Topology.thy
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```     2     Author:     Fabian Immler, TU München
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```     3 *)
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```     4
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```     5 theory Discrete_Topology
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```     6 imports "~~/src/HOL/Multivariate_Analysis/Multivariate_Analysis"
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```     7 begin
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```     8
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```     9 text {* Copy of discrete types with discrete topology. This space is polish. *}
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```    10
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```    11 typedef 'a discrete = "UNIV::'a set"
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```    12 morphisms of_discrete discrete
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```    13 ..
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```    14
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```    15 instantiation discrete :: (type) topological_space
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```    16 begin
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```    17
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```    18 definition open_discrete::"'a discrete set \<Rightarrow> bool"
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```    19   where "open_discrete s = True"
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```    20
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```    21 instance proof qed (auto simp: open_discrete_def)
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```    22 end
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```    23
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```    24 instantiation discrete :: (type) metric_space
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```    25 begin
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```    26
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```    27 definition dist_discrete::"'a discrete \<Rightarrow> 'a discrete \<Rightarrow> real"
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```    28   where "dist_discrete n m = (if n = m then 0 else 1)"
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```    29
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```    30 instance proof qed (auto simp: open_discrete_def dist_discrete_def intro: exI[where x=1])
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```    31 end
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```    32
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```    33 instance discrete :: (type) complete_space
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```    34 proof
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```    35   fix X::"nat\<Rightarrow>'a discrete" assume "Cauchy X"
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```    36   hence "\<exists>n. \<forall>m\<ge>n. X n = X m"
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```    37     by (force simp: dist_discrete_def Cauchy_def split: split_if_asm dest:spec[where x=1])
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```    38   then guess n ..
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```    39   thus "convergent X"
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```    40     by (intro convergentI[where L="X n"] tendstoI eventually_sequentiallyI[of n])
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```    41        (simp add: dist_discrete_def)
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```    42 qed
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```    43
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```    44 instance discrete :: (countable) countable
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```    45 proof
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```    46   have "inj (\<lambda>c::'a discrete. to_nat (of_discrete c))"
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```    47     by (simp add: inj_on_def of_discrete_inject)
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```    48   thus "\<exists>f::'a discrete \<Rightarrow> nat. inj f" by blast
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```    49 qed
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```    50
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```    51 instance discrete :: (countable) second_countable_topology
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```    52 proof
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```    53   let ?B = "range (\<lambda>n::'a discrete. {n})"
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```    54   have "\<And>S. generate_topology ?B (\<Union>x\<in>S. {x})"
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```    55     by (intro generate_topology_Union) (auto intro: generate_topology.intros)
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```    56   then have "open = generate_topology ?B"
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```    57     by (auto intro!: ext simp: open_discrete_def)
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```    58   moreover have "countable ?B" by simp
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```    59   ultimately show "\<exists>B::'a discrete set set. countable B \<and> open = generate_topology B" by blast
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```    60 qed
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```    61
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```    62 instance discrete :: (countable) polish_space ..
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```    63
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```    64 end
```