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<title>ImpCEvalFun: Evaluation Function for Imp</title>
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<h1 class="libtitle">ImpCEvalFun<span class="subtitle">Evaluation Function for Imp</span></h1>
<div class="code code-tight">
</div>
<div class="doc">
</div>
<div class="code code-tight">
<br/>
<span class="comment">(* $Date: 2013-07-01 18:48:47 -0400 (Mon, 01 Jul 2013) $ *)</span><br/>
<br/>
</div>
<div class="doc">
<a name="lab445"></a><h2 class="section">Evaluation Function</h2>
</div>
<div class="code code-space">
<br/>
<span class="id" type="keyword">Require</span> <span class="id" type="keyword">Import</span> <span class="id" type="var">Imp</span>.<br/>
<br/>
</div>
<div class="doc">
Here's a first try at an evaluation function for commands,
omitting <span class="inlinecode"><span class="id" type="var">WHILE</span></span>.
</div>
<div class="code code-tight">
<br/>
<span class="id" type="keyword">Fixpoint</span> <span class="id" type="var">ceval_step1</span> (<span class="id" type="var">st</span> : <span class="id" type="var">state</span>) (<span class="id" type="var">c</span> : <span class="id" type="var">com</span>) : <span class="id" type="var">state</span> :=<br/>
<span class="id" type="keyword">match</span> <span class="id" type="var">c</span> <span class="id" type="keyword">with</span> <br/>
| <span class="id" type="var">SKIP</span> ⇒ <br/>
<span class="id" type="var">st</span><br/>
| <span class="id" type="var">l</span> ::= <span class="id" type="var">a1</span> ⇒ <br/>
<span class="id" type="var">update</span> <span class="id" type="var">st</span> <span class="id" type="var">l</span> (<span class="id" type="var">aeval</span> <span class="id" type="var">st</span> <span class="id" type="var">a1</span>)<br/>
| <span class="id" type="var">c1</span> ;; <span class="id" type="var">c2</span> ⇒ <br/>
<span class="id" type="keyword">let</span> <span class="id" type="var">st'</span> := <span class="id" type="var">ceval_step1</span> <span class="id" type="var">st</span> <span class="id" type="var">c1</span> <span class="id" type="keyword">in</span><br/>
<span class="id" type="var">ceval_step1</span> <span class="id" type="var">st'</span> <span class="id" type="var">c2</span><br/>
| <span class="id" type="var">IFB</span> <span class="id" type="var">b</span> <span class="id" type="var">THEN</span> <span class="id" type="var">c1</span> <span class="id" type="var">ELSE</span> <span class="id" type="var">c2</span> <span class="id" type="var">FI</span> ⇒ <br/>
<span class="id" type="keyword">if</span> (<span class="id" type="var">beval</span> <span class="id" type="var">st</span> <span class="id" type="var">b</span>) <br/>
<span class="id" type="keyword">then</span> <span class="id" type="var">ceval_step1</span> <span class="id" type="var">st</span> <span class="id" type="var">c1</span> <br/>
<span class="id" type="keyword">else</span> <span class="id" type="var">ceval_step1</span> <span class="id" type="var">st</span> <span class="id" type="var">c2</span><br/>
| <span class="id" type="var">WHILE</span> <span class="id" type="var">b1</span> <span class="id" type="var">DO</span> <span class="id" type="var">c1</span> <span class="id" type="var">END</span> ⇒ <br/>
<span class="id" type="var">st</span> <span class="comment">(* bogus *)</span><br/>
<span class="id" type="keyword">end</span>.<br/>
<br/>
</div>
<div class="doc">
In a traditional functional programming language like ML or
Haskell we could write the WHILE case as follows:
<pre>
| WHILE b1 DO c1 END =>
if (beval st b1)
then ceval_step1 st (c1;; WHILE b1 DO c1 END)
else st
</pre>
Coq doesn't accept such a definition (<span class="inlinecode"><span class="id" type="var">Error</span>:</span> <span class="inlinecode"><span class="id" type="var">Cannot</span></span> <span class="inlinecode"><span class="id" type="var">guess</span></span>
<span class="inlinecode"><span class="id" type="var">decreasing</span></span> <span class="inlinecode"><span class="id" type="var">argument</span></span> <span class="inlinecode"><span class="id" type="var">of</span></span> <span class="inlinecode"><span class="id" type="var">fix</span></span>) because the function we want to
define is not guaranteed to terminate. Indeed, the changed
<span class="inlinecode"><span class="id" type="var">ceval_step1</span></span> function applied to the <span class="inlinecode"><span class="id" type="var">loop</span></span> program from <span class="inlinecode"><span class="id" type="var">Imp.v</span></span> would
never terminate. Since Coq is not just a functional programming
language, but also a consistent logic, any potentially
non-terminating function needs to be rejected. Here is an
invalid(!) Coq program showing what would go wrong if Coq allowed
non-terminating recursive functions:
<pre>
Fixpoint loop_false (n : nat) : False := loop_false n.
</pre>
That is, propositions like <span class="inlinecode"><span class="id" type="var">False</span></span> would become
provable (e.g. <span class="inlinecode"><span class="id" type="var">loop_false</span></span> <span class="inlinecode">0</span> would be a proof of <span class="inlinecode"><span class="id" type="var">False</span></span>), which
would be a disaster for Coq's logical consistency.
<div class="paragraph"> </div>
Thus, because it doesn't terminate on all inputs, the full version
of <span class="inlinecode"><span class="id" type="var">ceval_step1</span></span> cannot be written in Coq — at least not
without one additional trick...
<div class="paragraph"> </div>
Second try, using an extra numeric argument as a "step index" to
ensure that evaluation always terminates.
</div>
<div class="code code-tight">
<br/>
<span class="id" type="keyword">Fixpoint</span> <span class="id" type="var">ceval_step2</span> (<span class="id" type="var">st</span> : <span class="id" type="var">state</span>) (<span class="id" type="var">c</span> : <span class="id" type="var">com</span>) (<span class="id" type="var">i</span> : <span class="id" type="var">nat</span>) : <span class="id" type="var">state</span> :=<br/>
<span class="id" type="keyword">match</span> <span class="id" type="var">i</span> <span class="id" type="keyword">with</span> <br/>
| <span class="id" type="var">O</span> ⇒ <span class="id" type="var">empty_state</span><br/>
| <span class="id" type="var">S</span> <span class="id" type="var">i'</span> ⇒<br/>
<span class="id" type="keyword">match</span> <span class="id" type="var">c</span> <span class="id" type="keyword">with</span> <br/>
| <span class="id" type="var">SKIP</span> ⇒ <br/>
<span class="id" type="var">st</span><br/>
| <span class="id" type="var">l</span> ::= <span class="id" type="var">a1</span> ⇒ <br/>
<span class="id" type="var">update</span> <span class="id" type="var">st</span> <span class="id" type="var">l</span> (<span class="id" type="var">aeval</span> <span class="id" type="var">st</span> <span class="id" type="var">a1</span>)<br/>
| <span class="id" type="var">c1</span> ;; <span class="id" type="var">c2</span> ⇒ <br/>
<span class="id" type="keyword">let</span> <span class="id" type="var">st'</span> := <span class="id" type="var">ceval_step2</span> <span class="id" type="var">st</span> <span class="id" type="var">c1</span> <span class="id" type="var">i'</span> <span class="id" type="keyword">in</span><br/>
<span class="id" type="var">ceval_step2</span> <span class="id" type="var">st'</span> <span class="id" type="var">c2</span> <span class="id" type="var">i'</span> <br/>
| <span class="id" type="var">IFB</span> <span class="id" type="var">b</span> <span class="id" type="var">THEN</span> <span class="id" type="var">c1</span> <span class="id" type="var">ELSE</span> <span class="id" type="var">c2</span> <span class="id" type="var">FI</span> ⇒ <br/>
<span class="id" type="keyword">if</span> (<span class="id" type="var">beval</span> <span class="id" type="var">st</span> <span class="id" type="var">b</span>) <br/>
<span class="id" type="keyword">then</span> <span class="id" type="var">ceval_step2</span> <span class="id" type="var">st</span> <span class="id" type="var">c1</span> <span class="id" type="var">i'</span> <br/>
<span class="id" type="keyword">else</span> <span class="id" type="var">ceval_step2</span> <span class="id" type="var">st</span> <span class="id" type="var">c2</span> <span class="id" type="var">i'</span><br/>
| <span class="id" type="var">WHILE</span> <span class="id" type="var">b1</span> <span class="id" type="var">DO</span> <span class="id" type="var">c1</span> <span class="id" type="var">END</span> ⇒ <br/>
<span class="id" type="keyword">if</span> (<span class="id" type="var">beval</span> <span class="id" type="var">st</span> <span class="id" type="var">b1</span>) <br/>
<span class="id" type="keyword">then</span> <span class="id" type="keyword">let</span> <span class="id" type="var">st'</span> := <span class="id" type="var">ceval_step2</span> <span class="id" type="var">st</span> <span class="id" type="var">c1</span> <span class="id" type="var">i'</span> <span class="id" type="keyword">in</span><br/>
<span class="id" type="var">ceval_step2</span> <span class="id" type="var">st'</span> <span class="id" type="var">c</span> <span class="id" type="var">i'</span><br/>
<span class="id" type="keyword">else</span> <span class="id" type="var">st</span><br/>
<span class="id" type="keyword">end</span><br/>
<span class="id" type="keyword">end</span>.<br/>
<br/>
</div>
<div class="doc">
<i>Note</i>: It is tempting to think that the index <span class="inlinecode"><span class="id" type="var">i</span></span> here is
counting the "number of steps of evaluation." But if you look
closely you'll see that this is not the case: for example, in the
rule for sequencing, the same <span class="inlinecode"><span class="id" type="var">i</span></span> is passed to both recursive
calls. Understanding the exact way that <span class="inlinecode"><span class="id" type="var">i</span></span> is treated will be
important in the proof of <span class="inlinecode"><span class="id" type="var">ceval__ceval_step</span></span>, which is given as
an exercise below.
<div class="paragraph"> </div>
Third try, returning an <span class="inlinecode"><span class="id" type="var">option</span></span> <span class="inlinecode"><span class="id" type="var">state</span></span> instead of just a <span class="inlinecode"><span class="id" type="var">state</span></span>
so that we can distinguish between normal and abnormal
termination.
</div>
<div class="code code-tight">
<br/>
<span class="id" type="keyword">Fixpoint</span> <span class="id" type="var">ceval_step3</span> (<span class="id" type="var">st</span> : <span class="id" type="var">state</span>) (<span class="id" type="var">c</span> : <span class="id" type="var">com</span>) (<span class="id" type="var">i</span> : <span class="id" type="var">nat</span>) <br/>
: <span class="id" type="var">option</span> <span class="id" type="var">state</span> :=<br/>
<span class="id" type="keyword">match</span> <span class="id" type="var">i</span> <span class="id" type="keyword">with</span> <br/>
| <span class="id" type="var">O</span> ⇒ <span class="id" type="var">None</span><br/>
| <span class="id" type="var">S</span> <span class="id" type="var">i'</span> ⇒<br/>
<span class="id" type="keyword">match</span> <span class="id" type="var">c</span> <span class="id" type="keyword">with</span> <br/>
| <span class="id" type="var">SKIP</span> ⇒ <br/>
<span class="id" type="var">Some</span> <span class="id" type="var">st</span><br/>
| <span class="id" type="var">l</span> ::= <span class="id" type="var">a1</span> ⇒ <br/>
<span class="id" type="var">Some</span> (<span class="id" type="var">update</span> <span class="id" type="var">st</span> <span class="id" type="var">l</span> (<span class="id" type="var">aeval</span> <span class="id" type="var">st</span> <span class="id" type="var">a1</span>))<br/>
| <span class="id" type="var">c1</span> ;; <span class="id" type="var">c2</span> ⇒ <br/>
<span class="id" type="keyword">match</span> (<span class="id" type="var">ceval_step3</span> <span class="id" type="var">st</span> <span class="id" type="var">c1</span> <span class="id" type="var">i'</span>) <span class="id" type="keyword">with</span><br/>
| <span class="id" type="var">Some</span> <span class="id" type="var">st'</span> ⇒ <span class="id" type="var">ceval_step3</span> <span class="id" type="var">st'</span> <span class="id" type="var">c2</span> <span class="id" type="var">i'</span><br/>
| <span class="id" type="var">None</span> ⇒ <span class="id" type="var">None</span><br/>
<span class="id" type="keyword">end</span><br/>
| <span class="id" type="var">IFB</span> <span class="id" type="var">b</span> <span class="id" type="var">THEN</span> <span class="id" type="var">c1</span> <span class="id" type="var">ELSE</span> <span class="id" type="var">c2</span> <span class="id" type="var">FI</span> ⇒ <br/>
<span class="id" type="keyword">if</span> (<span class="id" type="var">beval</span> <span class="id" type="var">st</span> <span class="id" type="var">b</span>) <br/>
<span class="id" type="keyword">then</span> <span class="id" type="var">ceval_step3</span> <span class="id" type="var">st</span> <span class="id" type="var">c1</span> <span class="id" type="var">i'</span> <br/>
<span class="id" type="keyword">else</span> <span class="id" type="var">ceval_step3</span> <span class="id" type="var">st</span> <span class="id" type="var">c2</span> <span class="id" type="var">i'</span><br/>
| <span class="id" type="var">WHILE</span> <span class="id" type="var">b1</span> <span class="id" type="var">DO</span> <span class="id" type="var">c1</span> <span class="id" type="var">END</span> ⇒ <br/>
<span class="id" type="keyword">if</span> (<span class="id" type="var">beval</span> <span class="id" type="var">st</span> <span class="id" type="var">b1</span>) <br/>
<span class="id" type="keyword">then</span> <span class="id" type="keyword">match</span> (<span class="id" type="var">ceval_step3</span> <span class="id" type="var">st</span> <span class="id" type="var">c1</span> <span class="id" type="var">i'</span>) <span class="id" type="keyword">with</span><br/>
| <span class="id" type="var">Some</span> <span class="id" type="var">st'</span> ⇒ <span class="id" type="var">ceval_step3</span> <span class="id" type="var">st'</span> <span class="id" type="var">c</span> <span class="id" type="var">i'</span><br/>
| <span class="id" type="var">None</span> ⇒ <span class="id" type="var">None</span><br/>
<span class="id" type="keyword">end</span><br/>
<span class="id" type="keyword">else</span> <span class="id" type="var">Some</span> <span class="id" type="var">st</span><br/>
<span class="id" type="keyword">end</span><br/>
<span class="id" type="keyword">end</span>.<br/>
<br/>
</div>
<div class="doc">
We can improve the readability of this definition by introducing a
bit of auxiliary notation to hide the "plumbing" involved in
repeatedly matching against optional states.
</div>
<div class="code code-tight">
<br/>
<span class="id" type="keyword">Notation</span> "'LETOPT' x <== e1 'IN' e2" <br/>
:= (<span class="id" type="keyword">match</span> <span class="id" type="var">e1</span> <span class="id" type="keyword">with</span><br/>
| <span class="id" type="var">Some</span> <span class="id" type="var">x</span> ⇒ <span class="id" type="var">e2</span><br/>
| <span class="id" type="var">None</span> ⇒ <span class="id" type="var">None</span><br/>
<span class="id" type="keyword">end</span>)<br/>
(<span class="id" type="var">right</span> <span class="id" type="var">associativity</span>, <span class="id" type="tactic">at</span> <span class="id" type="var">level</span> 60).<br/>
<br/>
<span class="id" type="keyword">Fixpoint</span> <span class="id" type="var">ceval_step</span> (<span class="id" type="var">st</span> : <span class="id" type="var">state</span>) (<span class="id" type="var">c</span> : <span class="id" type="var">com</span>) (<span class="id" type="var">i</span> : <span class="id" type="var">nat</span>) <br/>
: <span class="id" type="var">option</span> <span class="id" type="var">state</span> :=<br/>
<span class="id" type="keyword">match</span> <span class="id" type="var">i</span> <span class="id" type="keyword">with</span> <br/>
| <span class="id" type="var">O</span> ⇒ <span class="id" type="var">None</span><br/>
| <span class="id" type="var">S</span> <span class="id" type="var">i'</span> ⇒<br/>
<span class="id" type="keyword">match</span> <span class="id" type="var">c</span> <span class="id" type="keyword">with</span> <br/>
| <span class="id" type="var">SKIP</span> ⇒ <br/>
<span class="id" type="var">Some</span> <span class="id" type="var">st</span><br/>
| <span class="id" type="var">l</span> ::= <span class="id" type="var">a1</span> ⇒ <br/>
<span class="id" type="var">Some</span> (<span class="id" type="var">update</span> <span class="id" type="var">st</span> <span class="id" type="var">l</span> (<span class="id" type="var">aeval</span> <span class="id" type="var">st</span> <span class="id" type="var">a1</span>))<br/>
| <span class="id" type="var">c1</span> ;; <span class="id" type="var">c2</span> ⇒ <br/>
<span class="id" type="var">LETOPT</span> <span class="id" type="var">st'</span> <== <span class="id" type="var">ceval_step</span> <span class="id" type="var">st</span> <span class="id" type="var">c1</span> <span class="id" type="var">i'</span> <span class="id" type="var">IN</span><br/>
<span class="id" type="var">ceval_step</span> <span class="id" type="var">st'</span> <span class="id" type="var">c2</span> <span class="id" type="var">i'</span><br/>
| <span class="id" type="var">IFB</span> <span class="id" type="var">b</span> <span class="id" type="var">THEN</span> <span class="id" type="var">c1</span> <span class="id" type="var">ELSE</span> <span class="id" type="var">c2</span> <span class="id" type="var">FI</span> ⇒ <br/>
<span class="id" type="keyword">if</span> (<span class="id" type="var">beval</span> <span class="id" type="var">st</span> <span class="id" type="var">b</span>) <br/>
<span class="id" type="keyword">then</span> <span class="id" type="var">ceval_step</span> <span class="id" type="var">st</span> <span class="id" type="var">c1</span> <span class="id" type="var">i'</span> <br/>
<span class="id" type="keyword">else</span> <span class="id" type="var">ceval_step</span> <span class="id" type="var">st</span> <span class="id" type="var">c2</span> <span class="id" type="var">i'</span><br/>
| <span class="id" type="var">WHILE</span> <span class="id" type="var">b1</span> <span class="id" type="var">DO</span> <span class="id" type="var">c1</span> <span class="id" type="var">END</span> ⇒ <br/>
<span class="id" type="keyword">if</span> (<span class="id" type="var">beval</span> <span class="id" type="var">st</span> <span class="id" type="var">b1</span>) <br/>
<span class="id" type="keyword">then</span> <span class="id" type="var">LETOPT</span> <span class="id" type="var">st'</span> <== <span class="id" type="var">ceval_step</span> <span class="id" type="var">st</span> <span class="id" type="var">c1</span> <span class="id" type="var">i'</span> <span class="id" type="var">IN</span><br/>
<span class="id" type="var">ceval_step</span> <span class="id" type="var">st'</span> <span class="id" type="var">c</span> <span class="id" type="var">i'</span><br/>
<span class="id" type="keyword">else</span> <span class="id" type="var">Some</span> <span class="id" type="var">st</span><br/>
<span class="id" type="keyword">end</span><br/>
<span class="id" type="keyword">end</span>.<br/>
<br/>
<span class="id" type="keyword">Definition</span> <span class="id" type="var">test_ceval</span> (<span class="id" type="var">st</span>:<span class="id" type="var">state</span>) (<span class="id" type="var">c</span>:<span class="id" type="var">com</span>) := <br/>
<span class="id" type="keyword">match</span> <span class="id" type="var">ceval_step</span> <span class="id" type="var">st</span> <span class="id" type="var">c</span> 500 <span class="id" type="keyword">with</span><br/>
| <span class="id" type="var">None</span> ⇒ <span class="id" type="var">None</span><br/>
| <span class="id" type="var">Some</span> <span class="id" type="var">st</span> ⇒ <span class="id" type="var">Some</span> (<span class="id" type="var">st</span> <span class="id" type="var">X</span>, <span class="id" type="var">st</span> <span class="id" type="var">Y</span>, <span class="id" type="var">st</span> <span class="id" type="var">Z</span>)<br/>
<span class="id" type="keyword">end</span>.<br/>
<br/>
<span class="comment">(* Eval compute in <br/>
(test_ceval empty_state <br/>
(X ::= ANum 2;;<br/>
IFB BLe (AId X) (ANum 1)<br/>
THEN Y ::= ANum 3 <br/>
ELSE Z ::= ANum 4<br/>
FI)).<br/>
====><br/>
Some (2, 0, 4) *)</span><br/>
<br/>
</div>
<div class="doc">
<a name="lab446"></a><h4 class="section">Exercise: 2 stars (pup_to_n)</h4>
Write an Imp program that sums the numbers from <span class="inlinecode">1</span> to
<span class="inlinecode"><span class="id" type="var">X</span></span> (inclusive: <span class="inlinecode">1</span> <span class="inlinecode">+</span> <span class="inlinecode">2</span> <span class="inlinecode">+</span> <span class="inlinecode">...</span> <span class="inlinecode">+</span> <span class="inlinecode"><span class="id" type="var">X</span></span>) in the variable <span class="inlinecode"><span class="id" type="var">Y</span></span>. Make sure
your solution satisfies the test that follows.
</div>
<div class="code code-tight">
<br/>
<span class="id" type="keyword">Definition</span> <span class="id" type="var">pup_to_n</span> : <span class="id" type="var">com</span> := <br/>
<span class="comment">(* FILL IN HERE *)</span> <span class="id" type="var">admit</span>.<br/>
<br/>
<span class="comment">(* <br/>
Example pup_to_n_1 : <br/>
test_ceval (update empty_state X 5) pup_to_n<br/>
= Some (0, 15, 0).<br/>
Proof. reflexivity. Qed.<br/>
*)</span><br/>
</div>
<div class="doc">
<font size=-2>☐</font>
<div class="paragraph"> </div>
<a name="lab447"></a><h4 class="section">Exercise: 2 stars, optional (peven)</h4>
Write a <span class="inlinecode"><span class="id" type="var">While</span></span> program that sets <span class="inlinecode"><span class="id" type="var">Z</span></span> to <span class="inlinecode">0</span> if <span class="inlinecode"><span class="id" type="var">X</span></span> is even and
sets <span class="inlinecode"><span class="id" type="var">Z</span></span> to <span class="inlinecode">1</span> otherwise. Use <span class="inlinecode"><span class="id" type="var">ceval_test</span></span> to test your
program.
</div>
<div class="code code-tight">
<br/>
<span class="comment">(* FILL IN HERE *)</span><br/>
</div>
<div class="doc">
<font size=-2>☐</font>
</div>
<div class="code code-tight">
<br/>
</div>
<div class="doc">
<a name="lab448"></a><h2 class="section">Equivalence of Relational and Step-Indexed Evaluation</h2>
<div class="paragraph"> </div>
As with arithmetic and boolean expressions, we'd hope that
the two alternative definitions of evaluation actually boil down
to the same thing. This section shows that this is the case.
Make sure you understand the statements of the theorems and can
follow the structure of the proofs.
</div>
<div class="code code-tight">
<br/>
<span class="id" type="keyword">Theorem</span> <span class="id" type="var">ceval_step__ceval</span>: <span style="font-family: arial;">∀</span><span class="id" type="var">c</span> <span class="id" type="var">st</span> <span class="id" type="var">st'</span>,<br/>
(<span style="font-family: arial;">∃</span><span class="id" type="var">i</span>, <span class="id" type="var">ceval_step</span> <span class="id" type="var">st</span> <span class="id" type="var">c</span> <span class="id" type="var">i</span> = <span class="id" type="var">Some</span> <span class="id" type="var">st'</span>) <span style="font-family: arial;">→</span><br/>
<span class="id" type="var">c</span> / <span class="id" type="var">st</span> <span style="font-family: arial;">⇓</span> <span class="id" type="var">st'</span>.<br/>
<span class="id" type="keyword">Proof</span>.<br/>
<span class="id" type="tactic">intros</span> <span class="id" type="var">c</span> <span class="id" type="var">st</span> <span class="id" type="var">st'</span> <span class="id" type="var">H</span>.<br/>
<span class="id" type="tactic">inversion</span> <span class="id" type="var">H</span> <span class="id" type="keyword">as</span> [<span class="id" type="var">i</span> <span class="id" type="var">E</span>].<br/>
<span class="id" type="tactic">clear</span> <span class="id" type="var">H</span>.<br/>
<span class="id" type="tactic">generalize</span> <span class="id" type="tactic">dependent</span> <span class="id" type="var">st'</span>.<br/>
<span class="id" type="tactic">generalize</span> <span class="id" type="tactic">dependent</span> <span class="id" type="var">st</span>.<br/>
<span class="id" type="tactic">generalize</span> <span class="id" type="tactic">dependent</span> <span class="id" type="var">c</span>.<br/>
<span class="id" type="tactic">induction</span> <span class="id" type="var">i</span> <span class="id" type="keyword">as</span> [| <span class="id" type="var">i'</span> ].<br/>
<br/>
<span class="id" type="var">Case</span> "i = 0 -- contradictory".<br/>
<span class="id" type="tactic">intros</span> <span class="id" type="var">c</span> <span class="id" type="var">st</span> <span class="id" type="var">st'</span> <span class="id" type="var">H</span>. <span class="id" type="tactic">inversion</span> <span class="id" type="var">H</span>.<br/>
<br/>
<span class="id" type="var">Case</span> "i = S i'".<br/>
<span class="id" type="tactic">intros</span> <span class="id" type="var">c</span> <span class="id" type="var">st</span> <span class="id" type="var">st'</span> <span class="id" type="var">H</span>.<br/>
<span class="id" type="var">com_cases</span> (<span class="id" type="tactic">destruct</span> <span class="id" type="var">c</span>) <span class="id" type="var">SCase</span>; <br/>
<span class="id" type="tactic">simpl</span> <span class="id" type="keyword">in</span> <span class="id" type="var">H</span>; <span class="id" type="tactic">inversion</span> <span class="id" type="var">H</span>; <span class="id" type="tactic">subst</span>; <span class="id" type="tactic">clear</span> <span class="id" type="var">H</span>.<br/>
<span class="id" type="var">SCase</span> "SKIP". <span class="id" type="tactic">apply</span> <span class="id" type="var">E_Skip</span>.<br/>
<span class="id" type="var">SCase</span> "::=". <span class="id" type="tactic">apply</span> <span class="id" type="var">E_Ass</span>. <span class="id" type="tactic">reflexivity</span>.<br/>
<br/>
<span class="id" type="var">SCase</span> ";;".<br/>
<span class="id" type="tactic">destruct</span> (<span class="id" type="var">ceval_step</span> <span class="id" type="var">st</span> <span class="id" type="var">c1</span> <span class="id" type="var">i'</span>) <span class="id" type="var">eqn</span>:<span class="id" type="var">Heqr1</span>.<br/>
<span class="id" type="var">SSCase</span> "Evaluation of r1 terminates normally".<br/>
<span class="id" type="tactic">apply</span> <span class="id" type="var">E_Seq</span> <span class="id" type="keyword">with</span> <span class="id" type="var">s</span>.<br/>
<span class="id" type="tactic">apply</span> <span class="id" type="var">IHi'</span>. <span class="id" type="tactic">rewrite</span> <span class="id" type="var">Heqr1</span>. <span class="id" type="tactic">reflexivity</span>.<br/>
<span class="id" type="tactic">apply</span> <span class="id" type="var">IHi'</span>. <span class="id" type="tactic">simpl</span> <span class="id" type="keyword">in</span> <span class="id" type="var">H1</span>. <span class="id" type="tactic">assumption</span>.<br/>
<span class="id" type="var">SSCase</span> "Otherwise -- contradiction".<br/>
<span class="id" type="tactic">inversion</span> <span class="id" type="var">H1</span>.<br/>
<br/>
<span class="id" type="var">SCase</span> "IFB".<br/>
<span class="id" type="tactic">destruct</span> (<span class="id" type="var">beval</span> <span class="id" type="var">st</span> <span class="id" type="var">b</span>) <span class="id" type="var">eqn</span>:<span class="id" type="var">Heqr</span>.<br/>
<span class="id" type="var">SSCase</span> "r = true".<br/>
<span class="id" type="tactic">apply</span> <span class="id" type="var">E_IfTrue</span>. <span class="id" type="tactic">rewrite</span> <span class="id" type="var">Heqr</span>. <span class="id" type="tactic">reflexivity</span>.<br/>
<span class="id" type="tactic">apply</span> <span class="id" type="var">IHi'</span>. <span class="id" type="tactic">assumption</span>.<br/>
<span class="id" type="var">SSCase</span> "r = false".<br/>
<span class="id" type="tactic">apply</span> <span class="id" type="var">E_IfFalse</span>. <span class="id" type="tactic">rewrite</span> <span class="id" type="var">Heqr</span>. <span class="id" type="tactic">reflexivity</span>.<br/>
<span class="id" type="tactic">apply</span> <span class="id" type="var">IHi'</span>. <span class="id" type="tactic">assumption</span>.<br/>
<br/>
<span class="id" type="var">SCase</span> "WHILE". <span class="id" type="tactic">destruct</span> (<span class="id" type="var">beval</span> <span class="id" type="var">st</span> <span class="id" type="var">b</span>) <span class="id" type="var">eqn</span> :<span class="id" type="var">Heqr</span>.<br/>
<span class="id" type="var">SSCase</span> "r = true".<br/>
<span class="id" type="tactic">destruct</span> (<span class="id" type="var">ceval_step</span> <span class="id" type="var">st</span> <span class="id" type="var">c</span> <span class="id" type="var">i'</span>) <span class="id" type="var">eqn</span>:<span class="id" type="var">Heqr1</span>.<br/>
<span class="id" type="var">SSSCase</span> "r1 = Some s".<br/>
<span class="id" type="tactic">apply</span> <span class="id" type="var">E_WhileLoop</span> <span class="id" type="keyword">with</span> <span class="id" type="var">s</span>. <span class="id" type="tactic">rewrite</span> <span class="id" type="var">Heqr</span>. <span class="id" type="tactic">reflexivity</span>.<br/>
<span class="id" type="tactic">apply</span> <span class="id" type="var">IHi'</span>. <span class="id" type="tactic">rewrite</span> <span class="id" type="var">Heqr1</span>. <span class="id" type="tactic">reflexivity</span>.<br/>
<span class="id" type="tactic">apply</span> <span class="id" type="var">IHi'</span>. <span class="id" type="tactic">simpl</span> <span class="id" type="keyword">in</span> <span class="id" type="var">H1</span>. <span class="id" type="tactic">assumption</span>.<br/>
<span class="id" type="var">SSSCase</span> "r1 = None".<br/>
<span class="id" type="tactic">inversion</span> <span class="id" type="var">H1</span>.<br/>
<span class="id" type="var">SSCase</span> "r = false".<br/>
<span class="id" type="tactic">inversion</span> <span class="id" type="var">H1</span>.<br/>
<span class="id" type="tactic">apply</span> <span class="id" type="var">E_WhileEnd</span>.<br/>
<span class="id" type="tactic">rewrite</span> <span style="font-family: arial;">←</span> <span class="id" type="var">Heqr</span>. <span class="id" type="tactic">subst</span>. <span class="id" type="tactic">reflexivity</span>. <span class="id" type="keyword">Qed</span>.<br/>
<br/>
</div>
<div class="doc">
<a name="lab449"></a><h4 class="section">Exercise: 4 stars (ceval_step__ceval_inf)</h4>
Write an informal proof of <span class="inlinecode"><span class="id" type="var">ceval_step__ceval</span></span>, following the
usual template. (The template for case analysis on an inductively
defined value should look the same as for induction, except that
there is no induction hypothesis.) Make your proof communicate
the main ideas to a human reader; do not simply transcribe the
steps of the formal proof.
<div class="paragraph"> </div>
<span class="comment">(* FILL IN HERE *)</span><br/>
<font size=-2>☐</font>
</div>
<div class="code code-tight">
<br/>
<span class="id" type="keyword">Theorem</span> <span class="id" type="var">ceval_step_more</span>: <span style="font-family: arial;">∀</span><span class="id" type="var">i1</span> <span class="id" type="var">i2</span> <span class="id" type="var">st</span> <span class="id" type="var">st'</span> <span class="id" type="var">c</span>,<br/>
<span class="id" type="var">i1</span> ≤ <span class="id" type="var">i2</span> <span style="font-family: arial;">→</span> <br/>
<span class="id" type="var">ceval_step</span> <span class="id" type="var">st</span> <span class="id" type="var">c</span> <span class="id" type="var">i1</span> = <span class="id" type="var">Some</span> <span class="id" type="var">st'</span> <span style="font-family: arial;">→</span> <br/>
<span class="id" type="var">ceval_step</span> <span class="id" type="var">st</span> <span class="id" type="var">c</span> <span class="id" type="var">i2</span> = <span class="id" type="var">Some</span> <span class="id" type="var">st'</span>.<br/>
<span class="id" type="keyword">Proof</span>.<br/>
<span class="id" type="tactic">induction</span> <span class="id" type="var">i1</span> <span class="id" type="keyword">as</span> [|<span class="id" type="var">i1'</span>]; <span class="id" type="tactic">intros</span> <span class="id" type="var">i2</span> <span class="id" type="var">st</span> <span class="id" type="var">st'</span> <span class="id" type="var">c</span> <span class="id" type="var">Hle</span> <span class="id" type="var">Hceval</span>.<br/>
<span class="id" type="var">Case</span> "i1 = 0".<br/>
<span class="id" type="tactic">simpl</span> <span class="id" type="keyword">in</span> <span class="id" type="var">Hceval</span>. <span class="id" type="tactic">inversion</span> <span class="id" type="var">Hceval</span>.<br/>
<span class="id" type="var">Case</span> "i1 = S i1'".<br/>
<span class="id" type="tactic">destruct</span> <span class="id" type="var">i2</span> <span class="id" type="keyword">as</span> [|<span class="id" type="var">i2'</span>]. <span class="id" type="tactic">inversion</span> <span class="id" type="var">Hle</span>.<br/>
<span class="id" type="tactic">assert</span> (<span class="id" type="var">Hle'</span>: <span class="id" type="var">i1'</span> ≤ <span class="id" type="var">i2'</span>) <span class="id" type="tactic">by</span> <span class="id" type="tactic">omega</span>.<br/>
<span class="id" type="var">com_cases</span> (<span class="id" type="tactic">destruct</span> <span class="id" type="var">c</span>) <span class="id" type="var">SCase</span>.<br/>
<span class="id" type="var">SCase</span> "SKIP".<br/>
<span class="id" type="tactic">simpl</span> <span class="id" type="keyword">in</span> <span class="id" type="var">Hceval</span>. <span class="id" type="tactic">inversion</span> <span class="id" type="var">Hceval</span>.<br/>
<span class="id" type="tactic">reflexivity</span>.<br/>
<span class="id" type="var">SCase</span> "::=".<br/>
<span class="id" type="tactic">simpl</span> <span class="id" type="keyword">in</span> <span class="id" type="var">Hceval</span>. <span class="id" type="tactic">inversion</span> <span class="id" type="var">Hceval</span>.<br/>
<span class="id" type="tactic">reflexivity</span>.<br/>
<span class="id" type="var">SCase</span> ";;".<br/>
<span class="id" type="tactic">simpl</span> <span class="id" type="keyword">in</span> <span class="id" type="var">Hceval</span>. <span class="id" type="tactic">simpl</span>.<br/>
<span class="id" type="tactic">destruct</span> (<span class="id" type="var">ceval_step</span> <span class="id" type="var">st</span> <span class="id" type="var">c1</span> <span class="id" type="var">i1'</span>) <span class="id" type="var">eqn</span>:<span class="id" type="var">Heqst1'o</span>.<br/>
<span class="id" type="var">SSCase</span> "st1'o = Some".<br/>
<span class="id" type="tactic">apply</span> (<span class="id" type="var">IHi1'</span> <span class="id" type="var">i2'</span>) <span class="id" type="keyword">in</span> <span class="id" type="var">Heqst1'o</span>; <span class="id" type="tactic">try</span> <span class="id" type="tactic">assumption</span>.<br/>
<span class="id" type="tactic">rewrite</span> <span class="id" type="var">Heqst1'o</span>. <span class="id" type="tactic">simpl</span>. <span class="id" type="tactic">simpl</span> <span class="id" type="keyword">in</span> <span class="id" type="var">Hceval</span>.<br/>
<span class="id" type="tactic">apply</span> (<span class="id" type="var">IHi1'</span> <span class="id" type="var">i2'</span>) <span class="id" type="keyword">in</span> <span class="id" type="var">Hceval</span>; <span class="id" type="tactic">try</span> <span class="id" type="tactic">assumption</span>.<br/>
<span class="id" type="var">SSCase</span> "st1'o = None".<br/>
<span class="id" type="tactic">inversion</span> <span class="id" type="var">Hceval</span>.<br/>
<br/>
<span class="id" type="var">SCase</span> "IFB".<br/>
<span class="id" type="tactic">simpl</span> <span class="id" type="keyword">in</span> <span class="id" type="var">Hceval</span>. <span class="id" type="tactic">simpl</span>.<br/>
<span class="id" type="tactic">destruct</span> (<span class="id" type="var">beval</span> <span class="id" type="var">st</span> <span class="id" type="var">b</span>); <span class="id" type="tactic">apply</span> (<span class="id" type="var">IHi1'</span> <span class="id" type="var">i2'</span>) <span class="id" type="keyword">in</span> <span class="id" type="var">Hceval</span>; <span class="id" type="tactic">assumption</span>.<br/>
<br/>
<span class="id" type="var">SCase</span> "WHILE".<br/>
<span class="id" type="tactic">simpl</span> <span class="id" type="keyword">in</span> <span class="id" type="var">Hceval</span>. <span class="id" type="tactic">simpl</span>.<br/>
<span class="id" type="tactic">destruct</span> (<span class="id" type="var">beval</span> <span class="id" type="var">st</span> <span class="id" type="var">b</span>); <span class="id" type="tactic">try</span> <span class="id" type="tactic">assumption</span>.<br/>
<span class="id" type="tactic">destruct</span> (<span class="id" type="var">ceval_step</span> <span class="id" type="var">st</span> <span class="id" type="var">c</span> <span class="id" type="var">i1'</span>) <span class="id" type="var">eqn</span>: <span class="id" type="var">Heqst1'o</span>.<br/>
<span class="id" type="var">SSCase</span> "st1'o = Some".<br/>
<span class="id" type="tactic">apply</span> (<span class="id" type="var">IHi1'</span> <span class="id" type="var">i2'</span>) <span class="id" type="keyword">in</span> <span class="id" type="var">Heqst1'o</span>; <span class="id" type="tactic">try</span> <span class="id" type="tactic">assumption</span>.<br/>
<span class="id" type="tactic">rewrite</span> <span style="font-family: arial;">→</span> <span class="id" type="var">Heqst1'o</span>. <span class="id" type="tactic">simpl</span>. <span class="id" type="tactic">simpl</span> <span class="id" type="keyword">in</span> <span class="id" type="var">Hceval</span>.<br/>
<span class="id" type="tactic">apply</span> (<span class="id" type="var">IHi1'</span> <span class="id" type="var">i2'</span>) <span class="id" type="keyword">in</span> <span class="id" type="var">Hceval</span>; <span class="id" type="tactic">try</span> <span class="id" type="tactic">assumption</span>.<br/>
<span class="id" type="var">SSCase</span> "i1'o = None".<br/>
<span class="id" type="tactic">simpl</span> <span class="id" type="keyword">in</span> <span class="id" type="var">Hceval</span>. <span class="id" type="tactic">inversion</span> <span class="id" type="var">Hceval</span>. <span class="id" type="keyword">Qed</span>.<br/>
<br/>
</div>
<div class="doc">
<a name="lab450"></a><h4 class="section">Exercise: 3 stars (ceval__ceval_step)</h4>
Finish the following proof. You'll need <span class="inlinecode"><span class="id" type="var">ceval_step_more</span></span> in a
few places, as well as some basic facts about <span class="inlinecode">≤</span> and <span class="inlinecode"><span class="id" type="var">plus</span></span>.
</div>
<div class="code code-tight">
<br/>
<span class="id" type="keyword">Theorem</span> <span class="id" type="var">ceval__ceval_step</span>: <span style="font-family: arial;">∀</span><span class="id" type="var">c</span> <span class="id" type="var">st</span> <span class="id" type="var">st'</span>,<br/>
<span class="id" type="var">c</span> / <span class="id" type="var">st</span> <span style="font-family: arial;">⇓</span> <span class="id" type="var">st'</span> <span style="font-family: arial;">→</span><br/>
<span style="font-family: arial;">∃</span><span class="id" type="var">i</span>, <span class="id" type="var">ceval_step</span> <span class="id" type="var">st</span> <span class="id" type="var">c</span> <span class="id" type="var">i</span> = <span class="id" type="var">Some</span> <span class="id" type="var">st'</span>.<br/>
<span class="id" type="keyword">Proof</span>.<br/>
<span class="id" type="tactic">intros</span> <span class="id" type="var">c</span> <span class="id" type="var">st</span> <span class="id" type="var">st'</span> <span class="id" type="var">Hce</span>.<br/>
<span class="id" type="var">ceval_cases</span> (<span class="id" type="tactic">induction</span> <span class="id" type="var">Hce</span>) <span class="id" type="var">Case</span>.<br/>
<span class="comment">(* FILL IN HERE *)</span> <span class="id" type="var">Admitted</span>.<br/>
</div>
<div class="doc">
<font size=-2>☐</font>
</div>
<div class="code code-tight">
<br/>
<span class="id" type="keyword">Theorem</span> <span class="id" type="var">ceval_and_ceval_step_coincide</span>: <span style="font-family: arial;">∀</span><span class="id" type="var">c</span> <span class="id" type="var">st</span> <span class="id" type="var">st'</span>,<br/>
<span class="id" type="var">c</span> / <span class="id" type="var">st</span> <span style="font-family: arial;">⇓</span> <span class="id" type="var">st'</span><br/>
<span style="font-family: arial;">↔</span> <span style="font-family: arial;">∃</span><span class="id" type="var">i</span>, <span class="id" type="var">ceval_step</span> <span class="id" type="var">st</span> <span class="id" type="var">c</span> <span class="id" type="var">i</span> = <span class="id" type="var">Some</span> <span class="id" type="var">st'</span>.<br/>
<span class="id" type="keyword">Proof</span>.<br/>
<span class="id" type="tactic">intros</span> <span class="id" type="var">c</span> <span class="id" type="var">st</span> <span class="id" type="var">st'</span>.<br/>
<span class="id" type="tactic">split</span>. <span class="id" type="tactic">apply</span> <span class="id" type="var">ceval__ceval_step</span>. <span class="id" type="tactic">apply</span> <span class="id" type="var">ceval_step__ceval</span>.<br/>
<span class="id" type="keyword">Qed</span>.<br/>
<br/>
</div>
<div class="doc">
<a name="lab451"></a><h2 class="section">Determinism of Evaluation (Simpler Proof)</h2>
<div class="paragraph"> </div>
Here's a slicker proof showing that the evaluation relation is
deterministic, using the fact that the relational and step-indexed
definition of evaluation are the same.
</div>
<div class="code code-tight">
<br/>
<span class="id" type="keyword">Theorem</span> <span class="id" type="var">ceval_deterministic'</span> : <span style="font-family: arial;">∀</span><span class="id" type="var">c</span> <span class="id" type="var">st</span> <span class="id" type="var">st1</span> <span class="id" type="var">st2</span>,<br/>
<span class="id" type="var">c</span> / <span class="id" type="var">st</span> <span style="font-family: arial;">⇓</span> <span class="id" type="var">st1</span> <span style="font-family: arial;">→</span><br/>
<span class="id" type="var">c</span> / <span class="id" type="var">st</span> <span style="font-family: arial;">⇓</span> <span class="id" type="var">st2</span> <span style="font-family: arial;">→</span><br/>
<span class="id" type="var">st1</span> = <span class="id" type="var">st2</span>.<br/>
<span class="id" type="keyword">Proof</span>.<br/>
<span class="id" type="tactic">intros</span> <span class="id" type="var">c</span> <span class="id" type="var">st</span> <span class="id" type="var">st1</span> <span class="id" type="var">st2</span> <span class="id" type="var">He1</span> <span class="id" type="var">He2</span>.<br/>
<span class="id" type="tactic">apply</span> <span class="id" type="var">ceval__ceval_step</span> <span class="id" type="keyword">in</span> <span class="id" type="var">He1</span>.<br/>
<span class="id" type="tactic">apply</span> <span class="id" type="var">ceval__ceval_step</span> <span class="id" type="keyword">in</span> <span class="id" type="var">He2</span>.<br/>
<span class="id" type="tactic">inversion</span> <span class="id" type="var">He1</span> <span class="id" type="keyword">as</span> [<span class="id" type="var">i1</span> <span class="id" type="var">E1</span>].<br/>
<span class="id" type="tactic">inversion</span> <span class="id" type="var">He2</span> <span class="id" type="keyword">as</span> [<span class="id" type="var">i2</span> <span class="id" type="var">E2</span>].<br/>
<span class="id" type="tactic">apply</span> <span class="id" type="var">ceval_step_more</span> <span class="id" type="keyword">with</span> (<span class="id" type="var">i2</span> := <span class="id" type="var">i1</span> + <span class="id" type="var">i2</span>) <span class="id" type="keyword">in</span> <span class="id" type="var">E1</span>.<br/>
<span class="id" type="tactic">apply</span> <span class="id" type="var">ceval_step_more</span> <span class="id" type="keyword">with</span> (<span class="id" type="var">i2</span> := <span class="id" type="var">i1</span> + <span class="id" type="var">i2</span>) <span class="id" type="keyword">in</span> <span class="id" type="var">E2</span>.<br/>
<span class="id" type="tactic">rewrite</span> <span class="id" type="var">E1</span> <span class="id" type="keyword">in</span> <span class="id" type="var">E2</span>. <span class="id" type="tactic">inversion</span> <span class="id" type="var">E2</span>. <span class="id" type="tactic">reflexivity</span>.<br/>
<span class="id" type="tactic">omega</span>. <span class="id" type="tactic">omega</span>. <span class="id" type="keyword">Qed</span>.<br/>
</div>
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