author | kleing |
Sun, 18 May 2003 16:16:58 +0200 | |
changeset 14037 | 3b7f3eec9684 |
parent 13756 | 41abb61ecce9 |
child 16417 | 9bc16273c2d4 |
permissions | -rw-r--r-- |
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(* ID: $Id$ *) |
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theory Basic = Main: |
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lemma conj_rule: "\<lbrakk> P; Q \<rbrakk> \<Longrightarrow> P \<and> (Q \<and> P)" |
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apply (rule conjI) |
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apply assumption |
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apply (rule conjI) |
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apply assumption |
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apply assumption |
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done |
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lemma disj_swap: "P | Q \<Longrightarrow> Q | P" |
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apply (erule disjE) |
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apply (rule disjI2) |
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apply assumption |
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apply (rule disjI1) |
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apply assumption |
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done |
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lemma conj_swap: "P \<and> Q \<Longrightarrow> Q \<and> P" |
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apply (rule conjI) |
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apply (drule conjunct2) |
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apply assumption |
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apply (drule conjunct1) |
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apply assumption |
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done |
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lemma imp_uncurry: "P \<longrightarrow> Q \<longrightarrow> R \<Longrightarrow> P \<and> Q \<longrightarrow> R" |
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apply (rule impI) |
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apply (erule conjE) |
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apply (drule mp) |
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apply assumption |
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apply (drule mp) |
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apply assumption |
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apply assumption |
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done |
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text {* |
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by eliminates uses of assumption and done |
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*} |
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lemma imp_uncurry': "P \<longrightarrow> Q \<longrightarrow> R \<Longrightarrow> P \<and> Q \<longrightarrow> R" |
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apply (rule impI) |
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apply (erule conjE) |
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apply (drule mp) |
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apply assumption |
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by (drule mp) |
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text {* |
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substitution |
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@{thm[display] ssubst} |
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\rulename{ssubst} |
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*}; |
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lemma "\<lbrakk> x = f x; P(f x) \<rbrakk> \<Longrightarrow> P x" |
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by (erule ssubst) |
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text {* |
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also provable by simp (re-orients) |
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*}; |
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text {* |
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the subst method |
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@{thm[display] mult_commute} |
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\rulename{mult_commute} |
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this would fail: |
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apply (simp add: mult_commute) |
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*}; |
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lemma "\<lbrakk>P x y z; Suc x < y\<rbrakk> \<Longrightarrow> f z = x*y" |
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txt{* |
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@{subgoals[display,indent=0,margin=65]} |
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*}; |
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apply (subst mult_commute) |
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txt{* |
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@{subgoals[display,indent=0,margin=65]} |
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*}; |
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oops |
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(*exercise involving THEN*) |
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lemma "\<lbrakk>P x y z; Suc x < y\<rbrakk> \<Longrightarrow> f z = x*y" |
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apply (rule mult_commute [THEN ssubst]) |
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oops |
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lemma "\<lbrakk>x = f x; triple (f x) (f x) x\<rbrakk> \<Longrightarrow> triple x x x" |
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apply (erule ssubst) |
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--{* @{subgoals[display,indent=0,margin=65]} *} |
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back --{* @{subgoals[display,indent=0,margin=65]} *} |
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back --{* @{subgoals[display,indent=0,margin=65]} *} |
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back --{* @{subgoals[display,indent=0,margin=65]} *} |
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back --{* @{subgoals[display,indent=0,margin=65]} *} |
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apply assumption |
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done |
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lemma "\<lbrakk> x = f x; triple (f x) (f x) x \<rbrakk> \<Longrightarrow> triple x x x" |
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apply (erule ssubst, assumption) |
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done |
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text{* |
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or better still |
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*} |
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lemma "\<lbrakk> x = f x; triple (f x) (f x) x \<rbrakk> \<Longrightarrow> triple x x x" |
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by (erule ssubst) |
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lemma "\<lbrakk> x = f x; triple (f x) (f x) x \<rbrakk> \<Longrightarrow> triple x x x" |
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apply (erule_tac P="\<lambda>u. triple u u x" in ssubst) |
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apply (assumption) |
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done |
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lemma "\<lbrakk> x = f x; triple (f x) (f x) x \<rbrakk> \<Longrightarrow> triple x x x" |
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by (erule_tac P="\<lambda>u. triple u u x" in ssubst) |
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text {* |
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negation |
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@{thm[display] notI} |
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\rulename{notI} |
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@{thm[display] notE} |
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\rulename{notE} |
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@{thm[display] classical} |
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\rulename{classical} |
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@{thm[display] contrapos_pp} |
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\rulename{contrapos_pp} |
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@{thm[display] contrapos_pn} |
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\rulename{contrapos_pn} |
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@{thm[display] contrapos_np} |
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\rulename{contrapos_np} |
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@{thm[display] contrapos_nn} |
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\rulename{contrapos_nn} |
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*}; |
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lemma "\<lbrakk>\<not>(P\<longrightarrow>Q); \<not>(R\<longrightarrow>Q)\<rbrakk> \<Longrightarrow> R" |
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apply (erule_tac Q="R\<longrightarrow>Q" in contrapos_np) |
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--{* @{subgoals[display,indent=0,margin=65]} *} |
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apply (intro impI) |
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--{* @{subgoals[display,indent=0,margin=65]} *} |
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by (erule notE) |
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text {* |
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@{thm[display] disjCI} |
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\rulename{disjCI} |
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*}; |
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lemma "(P \<or> Q) \<and> R \<Longrightarrow> P \<or> Q \<and> R" |
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apply (intro disjCI conjI) |
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--{* @{subgoals[display,indent=0,margin=65]} *} |
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apply (elim conjE disjE) |
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apply assumption |
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--{* @{subgoals[display,indent=0,margin=65]} *} |
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by (erule contrapos_np, rule conjI) |
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text{* |
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proof\ {\isacharparenleft}prove{\isacharparenright}{\isacharcolon}\ step\ {\isadigit{6}}\isanewline |
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\isanewline |
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goal\ {\isacharparenleft}lemma{\isacharparenright}{\isacharcolon}\isanewline |
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{\isacharparenleft}P\ {\isasymor}\ Q{\isacharparenright}\ {\isasymand}\ R\ {\isasymLongrightarrow}\ P\ {\isasymor}\ Q\ {\isasymand}\ R\isanewline |
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\ {\isadigit{1}}{\isachardot}\ {\isasymlbrakk}R{\isacharsemicolon}\ Q{\isacharsemicolon}\ {\isasymnot}\ P{\isasymrbrakk}\ {\isasymLongrightarrow}\ Q\isanewline |
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\ {\isadigit{2}}{\isachardot}\ {\isasymlbrakk}R{\isacharsemicolon}\ Q{\isacharsemicolon}\ {\isasymnot}\ P{\isasymrbrakk}\ {\isasymLongrightarrow}\ R |
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*} |
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text{*rule_tac, etc.*} |
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lemma "P&Q" |
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apply (rule_tac P=P and Q=Q in conjI) |
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oops |
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text{*unification failure trace *} |
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ML "set trace_unify_fail" |
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lemma "P(a, f(b, g(e,a), b), a) \<Longrightarrow> P(a, f(b, g(c,a), b), a)" |
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txt{* |
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@{subgoals[display,indent=0,margin=65]} |
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apply assumption |
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Clash: e =/= c |
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Clash: == =/= Trueprop |
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*} |
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oops |
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lemma "\<forall>x y. P(x,y) --> P(y,x)" |
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apply auto |
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txt{* |
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@{subgoals[display,indent=0,margin=65]} |
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apply assumption |
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Clash: bound variable x (depth 1) =/= bound variable y (depth 0) |
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Clash: == =/= Trueprop |
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Clash: == =/= Trueprop |
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*} |
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oops |
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ML "reset trace_unify_fail" |
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text{*Quantifiers*} |
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text {* |
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@{thm[display] allI} |
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\rulename{allI} |
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@{thm[display] allE} |
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\rulename{allE} |
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@{thm[display] spec} |
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\rulename{spec} |
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*}; |
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lemma "\<forall>x. P x \<longrightarrow> P x" |
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apply (rule allI) |
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by (rule impI) |
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lemma "(\<forall>x. P \<longrightarrow> Q x) \<Longrightarrow> P \<longrightarrow> (\<forall>x. Q x)" |
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apply (rule impI, rule allI) |
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apply (drule spec) |
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by (drule mp) |
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text{*rename_tac*} |
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lemma "x < y \<Longrightarrow> \<forall>x y. P x (f y)" |
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apply (intro allI) |
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--{* @{subgoals[display,indent=0,margin=65]} *} |
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apply (rename_tac v w) |
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--{* @{subgoals[display,indent=0,margin=65]} *} |
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oops |
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lemma "\<lbrakk>\<forall>x. P x \<longrightarrow> P (h x); P a\<rbrakk> \<Longrightarrow> P(h (h a))" |
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apply (frule spec) |
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--{* @{subgoals[display,indent=0,margin=65]} *} |
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apply (drule mp, assumption) |
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apply (drule spec) |
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--{* @{subgoals[display,indent=0,margin=65]} *} |
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by (drule mp) |
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lemma "\<lbrakk>\<forall>x. P x \<longrightarrow> P (f x); P a\<rbrakk> \<Longrightarrow> P(f (f a))" |
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by blast |
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text{* |
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the existential quantifier*} |
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text {* |
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@{thm[display]"exI"} |
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\rulename{exI} |
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@{thm[display]"exE"} |
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\rulename{exE} |
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*}; |
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text{* |
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instantiating quantifiers explicitly by rule_tac and erule_tac*} |
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lemma "\<lbrakk>\<forall>x. P x \<longrightarrow> P (h x); P a\<rbrakk> \<Longrightarrow> P(h (h a))" |
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apply (frule spec) |
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--{* @{subgoals[display,indent=0,margin=65]} *} |
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apply (drule mp, assumption) |
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--{* @{subgoals[display,indent=0,margin=65]} *} |
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apply (drule_tac x = "h a" in spec) |
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--{* @{subgoals[display,indent=0,margin=65]} *} |
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by (drule mp) |
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text {* |
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@{thm[display]"dvd_def"} |
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\rulename{dvd_def} |
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*}; |
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lemma mult_dvd_mono: "\<lbrakk>i dvd m; j dvd n\<rbrakk> \<Longrightarrow> i*j dvd (m*n :: nat)" |
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apply (simp add: dvd_def) |
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--{* @{subgoals[display,indent=0,margin=65]} *} |
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apply (erule exE) |
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--{* @{subgoals[display,indent=0,margin=65]} *} |
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apply (erule exE) |
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--{* @{subgoals[display,indent=0,margin=65]} *} |
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apply (rename_tac l) |
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--{* @{subgoals[display,indent=0,margin=65]} *} |
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apply (rule_tac x="k*l" in exI) |
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--{* @{subgoals[display,indent=0,margin=65]} *} |
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apply simp |
303 |
done |
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text{* |
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Hilbert-epsilon theorems*} |
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text{* |
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@{thm[display] the_equality[no_vars]} |
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\rulename{the_equality} |
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@{thm[display] some_equality[no_vars]} |
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\rulename{some_equality} |
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@{thm[display] someI[no_vars]} |
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\rulename{someI} |
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@{thm[display] someI2[no_vars]} |
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\rulename{someI2} |
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@{thm[display] someI_ex[no_vars]} |
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\rulename{someI_ex} |
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needed for examples |
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@{thm[display] inv_def[no_vars]} |
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\rulename{inv_def} |
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@{thm[display] Least_def[no_vars]} |
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\rulename{Least_def} |
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@{thm[display] order_antisym[no_vars]} |
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\rulename{order_antisym} |
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*} |
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lemma "inv Suc (Suc n) = n" |
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by (simp add: inv_def) |
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text{*but we know nothing about inv Suc 0*} |
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theorem Least_equality: |
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"\<lbrakk> P (k::nat); \<forall>x. P x \<longrightarrow> k \<le> x \<rbrakk> \<Longrightarrow> (LEAST x. P(x)) = k" |
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apply (simp add: Least_def) |
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txt{* |
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@{subgoals[display,indent=0,margin=65]} |
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*}; |
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apply (rule the_equality) |
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txt{* |
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@{subgoals[display,indent=0,margin=65]} |
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first subgoal is existence; second is uniqueness |
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*}; |
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by (auto intro: order_antisym) |
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theorem axiom_of_choice: |
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"(\<forall>x. \<exists>y. P x y) \<Longrightarrow> \<exists>f. \<forall>x. P x (f x)" |
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apply (rule exI, rule allI) |
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txt{* |
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@{subgoals[display,indent=0,margin=65]} |
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state after intro rules |
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*}; |
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apply (drule spec, erule exE) |
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txt{* |
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@{subgoals[display,indent=0,margin=65]} |
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applying @text{someI} automatically instantiates |
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@{term f} to @{term "\<lambda>x. SOME y. P x y"} |
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*}; |
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by (rule someI) |
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(*both can be done by blast, which however hasn't been introduced yet*) |
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lemma "[| P (k::nat); \<forall>x. P x \<longrightarrow> k \<le> x |] ==> (LEAST x. P(x)) = k"; |
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apply (simp add: Least_def LeastM_def) |
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by (blast intro: some_equality order_antisym); |
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theorem axiom_of_choice': "(\<forall>x. \<exists>y. P x y) \<Longrightarrow> \<exists>f. \<forall>x. P x (f x)" |
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apply (rule exI [of _ "\<lambda>x. SOME y. P x y"]) |
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by (blast intro: someI); |
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text{*end of Epsilon section*} |
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lemma "(\<exists>x. P x) \<or> (\<exists>x. Q x) \<Longrightarrow> \<exists>x. P x \<or> Q x" |
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apply (elim exE disjE) |
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apply (intro exI disjI1) |
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apply assumption |
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apply (intro exI disjI2) |
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apply assumption |
398 |
done |
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lemma "(P\<longrightarrow>Q) \<or> (Q\<longrightarrow>P)" |
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apply (intro disjCI impI) |
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apply (elim notE) |
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apply (intro impI) |
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apply assumption |
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done |
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406 |
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lemma "(P\<or>Q)\<and>(P\<or>R) \<Longrightarrow> P \<or> (Q\<and>R)" |
|
12390 | 408 |
apply (intro disjCI conjI) |
10295 | 409 |
apply (elim conjE disjE) |
410 |
apply blast |
|
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apply blast |
|
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apply blast |
|
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apply blast |
|
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(*apply elim*) |
|
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done |
|
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||
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lemma "(\<exists>x. P \<and> Q x) \<Longrightarrow> P \<and> (\<exists>x. Q x)" |
|
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apply (erule exE) |
|
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apply (erule conjE) |
|
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apply (rule conjI) |
|
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apply assumption |
|
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apply (rule exI) |
|
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apply assumption |
|
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done |
|
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||
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lemma "(\<exists>x. P x) \<and> (\<exists>x. Q x) \<Longrightarrow> \<exists>x. P x \<and> Q x" |
|
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apply (erule conjE) |
|
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apply (erule exE) |
|
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apply (erule exE) |
|
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apply (rule exI) |
|
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apply (rule conjI) |
|
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apply assumption |
|
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oops |
|
434 |
||
11407 | 435 |
lemma "\<forall>y. R y y \<Longrightarrow> \<exists>x. \<forall>y. R x y" |
11080
22855d091249
various revisions in response to comments from Tobias
paulson
parents:
10957
diff
changeset
|
436 |
apply (rule exI) |
22855d091249
various revisions in response to comments from Tobias
paulson
parents:
10957
diff
changeset
|
437 |
--{* @{subgoals[display,indent=0,margin=65]} *} |
22855d091249
various revisions in response to comments from Tobias
paulson
parents:
10957
diff
changeset
|
438 |
apply (rule allI) |
22855d091249
various revisions in response to comments from Tobias
paulson
parents:
10957
diff
changeset
|
439 |
--{* @{subgoals[display,indent=0,margin=65]} *} |
22855d091249
various revisions in response to comments from Tobias
paulson
parents:
10957
diff
changeset
|
440 |
apply (drule spec) |
22855d091249
various revisions in response to comments from Tobias
paulson
parents:
10957
diff
changeset
|
441 |
--{* @{subgoals[display,indent=0,margin=65]} *} |
10295 | 442 |
oops |
443 |
||
11407 | 444 |
lemma "\<forall>x. \<exists>y. x=y" |
10295 | 445 |
apply (rule allI) |
446 |
apply (rule exI) |
|
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apply (rule refl) |
|
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done |
|
449 |
||
11407 | 450 |
lemma "\<exists>x. \<forall>y. x=y" |
10295 | 451 |
apply (rule exI) |
452 |
apply (rule allI) |
|
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oops |
|
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||
455 |
end |