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-rw-r--r--prolog/problems/sorting/pivoting_4/en.py100
1 files changed, 99 insertions, 1 deletions
diff --git a/prolog/problems/sorting/pivoting_4/en.py b/prolog/problems/sorting/pivoting_4/en.py
index 620c8f2..77e7f71 100644
--- a/prolog/problems/sorting/pivoting_4/en.py
+++ b/prolog/problems/sorting/pivoting_4/en.py
@@ -8,4 +8,102 @@ description = '''\
S = [1,4,4,2], G = [5,8,6].
</pre>'''
-hint = {}
+plan = ['''\
+<p>A pretty standard recursive exercise: you take care of the current head, and the tail is handled by the
+recursion. There are two branches, of course, as the head can be either smaller or greater than the pivot.</p>
+''', '''\
+<p>Go through the list and put the current head into either the smaller elements list or the greater elements list
+when <em>returning</em> from recursion.</p>
+''', '''\
+<p>If head <code>H</code> of list <code>L</code> is smaller than or equal to pivot <code>P</code> and if we
+assume that the recursion returns the elements in tail <code>T</code> appropriately divided into lists
+<code>SmallerElems</code> and <code>GreaterElems</code> and if we insert <code>H</code> at the start of the list
+<code>SmallerElems</code>, then we correctly split all the elements in <code>L</code> into smaller and greater ones.
+It's analogous if head <code>H</code> is greater than pivot <code>P</code>.</p>
+''']
+
+hint = {
+ 'eq_instead_of_equ': '''\
+<p>The operator <code>==</code> is "stricter" than operator <code>=</code> in the sense that
+for the latter it is enough to be able to make the two operands equal (unification).</p>
+<p>Of course, you can also solve the exercise without explicit use of either of these two operators, just
+remember that unification is implicitly performed with the predicate's arguments (head of clause).</p>
+''',
+
+ 'eq_instead_of_equ_markup': '''\
+<p>Perhaps the operator for unification (<code>=</code>) would be better?</p>
+''',
+
+ 'base_case': '''\
+<p>Did you think of a base case? Which list can you split without any effort whatsoever?</p>
+''',
+
+ 'recursive_case': '''\
+<p>The base case is ok. However, what about the general recursive case?</p>
+''',
+
+ 'predicate_always_false': '''\
+<p>It seems your predicate is <em>always</em> "false". Did you give it the correct name,
+or is it perhaps misspelled?</p>
+<p>If the name is correct, check whether something else is misspelled, perhaps there is a full stop instead of
+a comma or vice versa, or maybe you typed a variable name in lowercase?</p>
+<p>It is, of course, also possible that your conditions are too restrictive, or even impossible to satisfy
+(as would be, for example, the condition that <code>X</code> is <em>simultaneously</em> smaller and greater than
+<code>Y</code>, or something similarly impossible).</p>
+''',
+
+ 'timeout': '''\
+<p>Is there an infinite recursion at work here? How will it ever stop?</p>
+<p>Or perhaps is there a missing, faulty, or simply incompatible (with the general recursive case) base case?</p>
+''',
+
+ '>_and_<_mixed_up': '''\
+<p>Did you mix up the comparison? The smaller elements list contains large elements and vice versa.
+I did that, too! ;)</p>
+<p><code>?- pivoting(4, [1,4,5,8,6,4,2], SmallerElems, GreaterElems).</code></p>
+''',
+
+ 'duplicates_not_considered': '''\
+<p>Did you forget that some element can also be equal to the pivot? Where do you put such an element?
+Currently you don't put it anywhere, that's why prolog's answer is a happy (and logical, of course)...
+yes, you've guessed it... "false"!</p>
+''',
+
+ 'all_elements_in_either_S_or_G': '''\
+<p>How come <em>all</em> the elements end up in either smaller or greater element list?
+A wrong comparison operator or a copy/paste error?</p>
+''',
+
+ 'arbitrary_solution': '''\
+<p>Oh, this is a nasty little mistake. You took care of one of the lists you're returning, but not of the other one.
+If, for example, you put head <code>H</code> into a smaller elements list <code>[H|SmallerElems]</code> that's ok, but
+don't forget to specify what happens to the greater elements list (even if it stays exactly the same as returned
+from recursion).</p>
+''',
+
+ 'unprotected_branch': '''\
+<p>Did you "protect" (with a condition) both options (branches)? Be careful, if one branch doesn't have a
+condition, the first solution returned will probably be correct, but it will leave the door open for other
+solutions which will not be correct. The semicolon stands for logical OR, not logical XOR. This means that
+prolog can still search for solutions in the other branch even if the first branch's condition is satisfied!
+That's why you need both conditions.</p>
+<p>Try the following query and ask for <em>more</em> solutions.</p>
+<p><code>?- pivoting(4, [1,4,5,8,6,4,2], SmallerElems, GreaterElems).</code></p>
+''',
+
+ 'forcing_result_onto_recursion': '''
+<p>Don't force the result onto recursion, don't tell it what it should return. Just assume it will do its job.
+If this assumption is correct, then the rule will work for a larger case.</p>
+<p>Is your recursive call of the form <code>pivoting(P, T, [H|SmallerElems], GreaterElems)</code>? This forces
+the recursive call to <em>return</em> also head <code>H</code> which it doesn't even know of, because you
+took it away before the recursive call. Inserting the head into the result, returned by the recursive call,
+is your job. To put it shortly, insert <code>H</code> outside of the recursive call.</p>
+''',
+
+ 'no_recursion_in_one_branch': '''\
+<p>This is a very typical mistake when using a semicolon. Read every OR block (branch) carefully. Don't you think
+that you forgot something in one of the branches, usually the second one? Perhaps a recursive call? Do not forget:
+both/all branches are independent of one another! Either one block will be executed, or the other, but never both!
+And the results will not be transferred between blocks/branches; remember the scope of variables in prolog.</p>
+''',
+}