| author | wenzelm |
| Mon, 02 May 2011 22:31:46 +0200 | |
| changeset 42637 | 381fdcab0f36 |
| parent 25330 | 15bf0f47a87d |
| child 43564 | 9864182c6bad |
| permissions | -rw-r--r-- |
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(*<*)theory Even imports Main uses "../../antiquote_setup.ML" begin(*>*) |
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section{* The Set of Even Numbers *}
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text {*
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\index{even numbers!defining inductively|(}%
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The set of even numbers can be inductively defined as the least set |
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containing 0 and closed under the operation $+2$. Obviously, |
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\emph{even} can also be expressed using the divides relation (@{text dvd}).
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We shall prove below that the two formulations coincide. On the way we |
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shall examine the primary means of reasoning about inductively defined |
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sets: rule induction. |
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*} |
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subsection{* Making an Inductive Definition *}
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text {*
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Using \commdx{inductive\protect\_set}, we declare the constant @{text even} to be
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a set of natural numbers with the desired properties. |
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*} |
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inductive_set even :: "nat set" where |
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zero[intro!]: "0 \<in> even" | |
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step[intro!]: "n \<in> even \<Longrightarrow> (Suc (Suc n)) \<in> even" |
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text {*
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An inductive definition consists of introduction rules. The first one |
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above states that 0 is even; the second states that if $n$ is even, then so |
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is~$n+2$. Given this declaration, Isabelle generates a fixed point |
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definition for @{term even} and proves theorems about it,
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thus following the definitional approach (see {\S}\ref{sec:definitional}).
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These theorems |
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include the introduction rules specified in the declaration, an elimination |
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rule for case analysis and an induction rule. We can refer to these |
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theorems by automatically-generated names. Here are two examples: |
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@{named_thms[display,indent=0] even.zero[no_vars] (even.zero) even.step[no_vars] (even.step)}
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The introduction rules can be given attributes. Here |
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both rules are specified as \isa{intro!},%
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\index{intro"!@\isa {intro"!} (attribute)}
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directing the classical reasoner to |
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apply them aggressively. Obviously, regarding 0 as even is safe. The |
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@{text step} rule is also safe because $n+2$ is even if and only if $n$ is
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even. We prove this equivalence later. |
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*} |
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subsection{*Using Introduction Rules*}
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text {*
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Our first lemma states that numbers of the form $2\times k$ are even. |
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Introduction rules are used to show that specific values belong to the |
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inductive set. Such proofs typically involve |
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induction, perhaps over some other inductive set. |
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*} |
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lemma two_times_even[intro!]: "2*k \<in> even" |
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apply (induct_tac k) |
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apply auto |
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done |
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(*<*) |
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lemma "2*k \<in> even" |
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apply (induct_tac k) |
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(*>*) |
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txt {*
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\noindent |
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The first step is induction on the natural number @{text k}, which leaves
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two subgoals: |
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@{subgoals[display,indent=0,margin=65]}
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Here @{text auto} simplifies both subgoals so that they match the introduction
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rules, which are then applied automatically. |
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Our ultimate goal is to prove the equivalence between the traditional |
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definition of @{text even} (using the divides relation) and our inductive
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definition. One direction of this equivalence is immediate by the lemma |
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just proved, whose @{text "intro!"} attribute ensures it is applied automatically.
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*} |
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(*<*)oops(*>*) |
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lemma dvd_imp_even: "2 dvd n \<Longrightarrow> n \<in> even" |
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by (auto simp add: dvd_def) |
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subsection{* Rule Induction \label{sec:rule-induction} *}
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text {*
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\index{rule induction|(}%
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From the definition of the set |
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@{term even}, Isabelle has
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generated an induction rule: |
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@{named_thms [display,indent=0,margin=40] even.induct [no_vars] (even.induct)}
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A property @{term P} holds for every even number provided it
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holds for~@{text 0} and is closed under the operation
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\isa{Suc(Suc \(\cdot\))}. Then @{term P} is closed under the introduction
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rules for @{term even}, which is the least set closed under those rules.
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This type of inductive argument is called \textbf{rule induction}.
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Apart from the double application of @{term Suc}, the induction rule above
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resembles the familiar mathematical induction, which indeed is an instance |
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of rule induction; the natural numbers can be defined inductively to be |
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the least set containing @{text 0} and closed under~@{term Suc}.
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Induction is the usual way of proving a property of the elements of an |
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inductively defined set. Let us prove that all members of the set |
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@{term even} are multiples of two.
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*} |
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lemma even_imp_dvd: "n \<in> even \<Longrightarrow> 2 dvd n" |
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txt {*
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We begin by applying induction. Note that @{text even.induct} has the form
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of an elimination rule, so we use the method @{text erule}. We get two
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subgoals: |
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*} |
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apply (erule even.induct) |
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txt {*
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@{subgoals[display,indent=0]}
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We unfold the definition of @{text dvd} in both subgoals, proving the first
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one and simplifying the second: |
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*} |
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apply (simp_all add: dvd_def) |
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txt {*
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@{subgoals[display,indent=0]}
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The next command eliminates the existential quantifier from the assumption |
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and replaces @{text n} by @{text "2 * k"}.
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*} |
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apply clarify |
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txt {*
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@{subgoals[display,indent=0]}
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To conclude, we tell Isabelle that the desired value is |
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@{term "Suc k"}. With this hint, the subgoal falls to @{text simp}.
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*} |
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apply (rule_tac x = "Suc k" in exI, simp) |
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(*<*)done(*>*) |
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text {*
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Combining the previous two results yields our objective, the |
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equivalence relating @{term even} and @{text dvd}.
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% |
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%we don't want [iff]: discuss? |
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*} |
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theorem even_iff_dvd: "(n \<in> even) = (2 dvd n)" |
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by (blast intro: dvd_imp_even even_imp_dvd) |
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subsection{* Generalization and Rule Induction \label{sec:gen-rule-induction} *}
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text {*
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\index{generalizing for induction}%
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Before applying induction, we typically must generalize |
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the induction formula. With rule induction, the required generalization |
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can be hard to find and sometimes requires a complete reformulation of the |
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problem. In this example, our first attempt uses the obvious statement of |
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the result. It fails: |
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*} |
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lemma "Suc (Suc n) \<in> even \<Longrightarrow> n \<in> even" |
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apply (erule even.induct) |
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oops |
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(*<*) |
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lemma "Suc (Suc n) \<in> even \<Longrightarrow> n \<in> even" |
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apply (erule even.induct) |
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(*>*) |
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txt {*
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Rule induction finds no occurrences of @{term "Suc(Suc n)"} in the
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conclusion, which it therefore leaves unchanged. (Look at |
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@{text even.induct} to see why this happens.) We have these subgoals:
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@{subgoals[display,indent=0]}
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The first one is hopeless. Rule induction on |
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a non-variable term discards information, and usually fails. |
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How to deal with such situations |
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in general is described in {\S}\ref{sec:ind-var-in-prems} below.
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In the current case the solution is easy because |
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we have the necessary inverse, subtraction: |
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*} |
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(*<*)oops(*>*) |
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lemma even_imp_even_minus_2: "n \<in> even \<Longrightarrow> n - 2 \<in> even" |
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apply (erule even.induct) |
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apply auto |
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done |
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(*<*) |
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lemma "n \<in> even \<Longrightarrow> n - 2 \<in> even" |
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apply (erule even.induct) |
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(*>*) |
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txt {*
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This lemma is trivially inductive. Here are the subgoals: |
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@{subgoals[display,indent=0]}
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The first is trivial because @{text "0 - 2"} simplifies to @{text 0}, which is
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even. The second is trivial too: @{term "Suc (Suc n) - 2"} simplifies to
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@{term n}, matching the assumption.%
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\index{rule induction|)} %the sequel isn't really about induction
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\medskip |
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Using our lemma, we can easily prove the result we originally wanted: |
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*} |
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(*<*)oops(*>*) |
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lemma Suc_Suc_even_imp_even: "Suc (Suc n) \<in> even \<Longrightarrow> n \<in> even" |
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by (drule even_imp_even_minus_2, simp) |
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text {*
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We have just proved the converse of the introduction rule @{text even.step}.
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This suggests proving the following equivalence. We give it the |
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\attrdx{iff} attribute because of its obvious value for simplification.
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*} |
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lemma [iff]: "((Suc (Suc n)) \<in> even) = (n \<in> even)" |
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by (blast dest: Suc_Suc_even_imp_even) |
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subsection{* Rule Inversion \label{sec:rule-inversion} *}
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text {*
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\index{rule inversion|(}%
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Case analysis on an inductive definition is called \textbf{rule
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inversion}. It is frequently used in proofs about operational |
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semantics. It can be highly effective when it is applied |
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automatically. Let us look at how rule inversion is done in |
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Isabelle/HOL\@. |
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Recall that @{term even} is the minimal set closed under these two rules:
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@{thm [display,indent=0] even.intros [no_vars]}
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Minimality means that @{term even} contains only the elements that these
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rules force it to contain. If we are told that @{term a}
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belongs to |
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@{term even} then there are only two possibilities. Either @{term a} is @{text 0}
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or else @{term a} has the form @{term "Suc(Suc n)"}, for some suitable @{term n}
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that belongs to |
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@{term even}. That is the gist of the @{term cases} rule, which Isabelle proves
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for us when it accepts an inductive definition: |
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@{named_thms [display,indent=0,margin=40] even.cases [no_vars] (even.cases)}
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This general rule is less useful than instances of it for |
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specific patterns. For example, if @{term a} has the form
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@{term "Suc(Suc n)"} then the first case becomes irrelevant, while the second
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case tells us that @{term n} belongs to @{term even}. Isabelle will generate
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this instance for us: |
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*} |
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inductive_cases Suc_Suc_cases [elim!]: "Suc(Suc n) \<in> even" |
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text {*
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The \commdx{inductive\protect\_cases} command generates an instance of
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the @{text cases} rule for the supplied pattern and gives it the supplied name:
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@{named_thms [display,indent=0] Suc_Suc_cases [no_vars] (Suc_Suc_cases)}
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Applying this as an elimination rule yields one case where @{text even.cases}
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would yield two. Rule inversion works well when the conclusions of the |
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introduction rules involve datatype constructors like @{term Suc} and @{text "#"}
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(list ``cons''); freeness reasoning discards all but one or two cases. |
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In the \isacommand{inductive\_cases} command we supplied an
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attribute, @{text "elim!"},
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\index{elim"!@\isa {elim"!} (attribute)}%
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indicating that this elimination rule can be |
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applied aggressively. The original |
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@{term cases} rule would loop if used in that manner because the
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pattern~@{term a} matches everything.
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The rule @{text Suc_Suc_cases} is equivalent to the following implication:
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@{term [display,indent=0] "Suc (Suc n) \<in> even \<Longrightarrow> n \<in> even"}
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Just above we devoted some effort to reaching precisely |
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this result. Yet we could have obtained it by a one-line declaration, |
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dispensing with the lemma @{text even_imp_even_minus_2}.
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This example also justifies the terminology |
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\textbf{rule inversion}: the new rule inverts the introduction rule
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@{text even.step}. In general, a rule can be inverted when the set of elements
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it introduces is disjoint from those of the other introduction rules. |
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For one-off applications of rule inversion, use the \methdx{ind_cases} method.
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Here is an example: |
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*} |
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(*<*)lemma "Suc(Suc n) \<in> even \<Longrightarrow> P"(*>*) |
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apply (ind_cases "Suc(Suc n) \<in> even") |
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(*<*)oops(*>*) |
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text {*
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The specified instance of the @{text cases} rule is generated, then applied
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as an elimination rule. |
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To summarize, every inductive definition produces a @{text cases} rule. The
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\commdx{inductive\protect\_cases} command stores an instance of the
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@{text cases} rule for a given pattern. Within a proof, the
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@{text ind_cases} method applies an instance of the @{text cases}
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rule. |
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The even numbers example has shown how inductive definitions can be |
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used. Later examples will show that they are actually worth using.% |
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\index{rule inversion|)}%
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\index{even numbers!defining inductively|)}
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*} |
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(*<*)end(*>*) |