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<!--Weave of 'Binary Predicates' generated by Inweb-->
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<div class="breadcrumbs">
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<ul class="crumbs"><li><a href="../index.html">Home</a></li><li><a href="../services.html">Services</a></li><li><a href="index.html">calculus</a></li><li><a href="index.html#3">Chapter 3: Binary Predicates</a></li><li><b>Binary Predicates</b></li></ul></div>
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<p class="purpose">To create and manage binary predicates, which are the underlying data structures beneath Inform's relations.</p>
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<ul class="toc"><li><a href="3-bp.html#SP1">§1. Introduction</a></li><li><a href="3-bp.html#SP6">§6. Combining the terms</a></li><li><a href="3-bp.html#SP9">§9. Making the equality relation</a></li><li><a href="3-bp.html#SP10">§10. Making a pair of relations</a></li><li><a href="3-bp.html#SP11">§11. BP construction</a></li><li><a href="3-bp.html#SP12">§12. BP and term logging</a></li><li><a href="3-bp.html#SP13">§13. Relation names</a></li><li><a href="3-bp.html#SP15">§15. Miscellaneous access routines</a></li><li><a href="3-bp.html#SP18">§18. Loop schema</a></li></ul><hr class="tocbar">
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<p class="commentary firstcommentary"><a id="SP1" class="paragraph-anchor"></a><b>§1. Introduction. </b>A "binary predicate" is a property \(B\) such that for any combination \(x\) and
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\(y\), and at any given moment at run-time, \(B(x, y)\) is either true or false.
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\(x\) and \(y\) are called its "terms", and are numbered 0 and 1 below.
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</p>
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<p class="commentary">The classic example is equality, \((x == y)\), which is true if and only if they
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are the same value. But Inform has many others. In the Inform documentation,
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binary predicates are called "relations". These are grouped by <a href="3-bpf.html#SP1" class="internal">bp_family</a>,
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and the <span class="extract"><span class="extract-syntax">family_specific</span></span> field of a BP holds data meaningful only to a
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predicate in that family; for example, in a predicate to measure a property,
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this would store the property in question and the threshold value.
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</p>
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<p class="commentary">The calculus module tries to be blind to the nuances of how these families
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behave differently from each other, and also to the quite complicated issue
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of how to compile supporting code and data structures for use at run-time.
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See <a href="../runtime-module/5-rlt.html" class="internal">Relations (in runtime)</a> for all of that.
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</p>
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<p class="commentary firstcommentary"><a id="SP2" class="paragraph-anchor"></a><b>§2. </b>Each BP has a partner which we call its "reversal".<sup id="fnref:1"><a href="#fn:1" rel="footnote">1</a></sup> If \(B\) is the
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original and \(R\) is its reversal, then \(B(x, y)\) is true if and only if
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\(R(y, x)\) is true. Reversals sometimes occur quite naturally in English
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language. "To wear" is the reversal of "to be worn by". "Contains" is
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the reversal of being "inside".
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</p>
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<p class="commentary">The following sentences express the same fact:
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</p>
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<pre class="displayed-code all-displayed-code code-font">
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<span class="identifier-syntax">The</span><span class="plain-syntax"> </span><span class="identifier-syntax">ball</span><span class="plain-syntax"> </span><span class="identifier-syntax">is</span><span class="plain-syntax"> </span><span class="identifier-syntax">inside</span><span class="plain-syntax"> </span><span class="identifier-syntax">the</span><span class="plain-syntax"> </span><span class="identifier-syntax">trophy</span><span class="plain-syntax"> </span><span class="identifier-syntax">case</span><span class="plain-syntax">. </span><span class="identifier-syntax">The</span><span class="plain-syntax"> </span><span class="identifier-syntax">trophy</span><span class="plain-syntax"> </span><span class="identifier-syntax">case</span><span class="plain-syntax"> </span><span class="identifier-syntax">contains</span><span class="plain-syntax"> </span><span class="identifier-syntax">the</span><span class="plain-syntax"> </span><span class="identifier-syntax">ball</span><span class="plain-syntax">.</span>
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</pre>
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<p class="commentary">...even though they involve different BPs:
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</p>
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<pre class="displayed-code all-displayed-code code-font">
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<span class="plain-syntax"> inside(ball, trophy case)</span>
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<span class="plain-syntax"> contains(trophy case, ball)</span>
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</pre>
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<p class="commentary">So for every pair of BPs \(X\) and \(Y\) which are each other's reversal, Inform
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designates one as being "the right way round" and the other as being "the
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wrong way round".<sup id="fnref:2"><a href="#fn:2" rel="footnote">2</a></sup> Whenever a sentence's meaning involves a BP which is "the
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wrong way round", Inform swaps over the terms and replaces the BP by its
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reversal, which is "the right way round". The above pair of sentences is
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then more easily recognised as a duplicate meaning.
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</p>
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<ul class="footnotetexts"><li class="footnote" id="fn:1"><p class="inwebfootnote"><sup id="fnref:1"><a href="#fn:1" rel="footnote">1</a></sup> The equality relation is the only BP which is its own reversal: "A is B"
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and "B is A" are the same meaning.
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<a href="#fnref:1" title="return to text"> ↩</a></p></li><li class="footnote" id="fn:2"><p class="inwebfootnote"><sup id="fnref:2"><a href="#fn:2" rel="footnote">2</a></sup> This is purely an implementation convenience; there's no real sense in
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logic or linguistics in which either way round is better. The equality
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relation is always the right way round.
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<a href="#fnref:2" title="return to text"> ↩</a></p></li></ul>
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<p class="commentary firstcommentary"><a id="SP3" class="paragraph-anchor"></a><b>§3. </b>Given any binary predicate \(B\), we may wish to perform one of several
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possible "tasks" ar run-time. This will require code to be generated, which
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is done via a "schema". See <a href="3-bpf.html#SP5" class="internal">BinaryPredicateFamilies::get_schema</a>, but
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by default this adopts the one given in the BP's <span class="extract"><span class="extract-syntax">task_functions</span></span> field.
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</p>
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<p class="commentary firstcommentary"><a id="SP4" class="paragraph-anchor"></a><b>§4. </b>Without further ado:
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</p>
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<pre class="displayed-code all-displayed-code code-font">
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<span class="reserved-syntax">typedef</span><span class="plain-syntax"> </span><span class="reserved-syntax">struct</span><span class="plain-syntax"> </span><span class="reserved-syntax">binary_predicate</span><span class="plain-syntax"> {</span>
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<span class="plain-syntax"> </span><span class="reserved-syntax">struct</span><span class="plain-syntax"> </span><span class="reserved-syntax">bp_family</span><span class="plain-syntax"> *</span><span class="identifier-syntax">relation_family</span><span class="plain-syntax">;</span>
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<span class="plain-syntax"> </span><span class="identifier-syntax">general_pointer</span><span class="plain-syntax"> </span><span class="identifier-syntax">family_specific</span><span class="plain-syntax">; </span><span class="comment-syntax"> details for particular kinds of BP</span>
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<span class="plain-syntax"> </span><span class="reserved-syntax">struct</span><span class="plain-syntax"> </span><span class="identifier-syntax">word_assemblage</span><span class="plain-syntax"> </span><span class="identifier-syntax">relation_name</span><span class="plain-syntax">; </span><span class="comment-syntax"> (which might have length 0)</span>
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<span class="plain-syntax"> </span><span class="reserved-syntax">struct</span><span class="plain-syntax"> </span><span class="identifier-syntax">parse_node</span><span class="plain-syntax"> *</span><span class="identifier-syntax">bp_created_at</span><span class="plain-syntax">; </span><span class="comment-syntax"> where declared in the source text</span>
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<span class="plain-syntax"> </span><span class="reserved-syntax">struct</span><span class="plain-syntax"> </span><span class="identifier-syntax">text_stream</span><span class="plain-syntax"> *</span><span class="identifier-syntax">debugging_log_name</span><span class="plain-syntax">; </span><span class="comment-syntax"> used when printing propositions to the debug log</span>
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<span class="plain-syntax"> </span><span class="reserved-syntax">struct</span><span class="plain-syntax"> </span><span class="reserved-syntax">bp_term_details</span><span class="plain-syntax"> </span><span class="identifier-syntax">term_details</span><span class="plain-syntax">[2]; </span><span class="comment-syntax"> 0 is the left term, 1 is the right</span>
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<span class="plain-syntax"> </span><span class="reserved-syntax">struct</span><span class="plain-syntax"> </span><span class="reserved-syntax">binary_predicate</span><span class="plain-syntax"> *</span><span class="identifier-syntax">reversal</span><span class="plain-syntax">; </span><span class="comment-syntax"> see above</span>
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<span class="plain-syntax"> </span><span class="reserved-syntax">int</span><span class="plain-syntax"> </span><span class="identifier-syntax">right_way_round</span><span class="plain-syntax">; </span><span class="comment-syntax"> was this BP created directly? or is it a reversal of another?</span>
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<span class="plain-syntax"> </span><span class="comment-syntax"> how to compile code which tests or forces this BP to be true or false:</span>
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<span class="plain-syntax"> </span><span class="reserved-syntax">struct</span><span class="plain-syntax"> </span><span class="reserved-syntax">i6_schema</span><span class="plain-syntax"> *</span><span class="identifier-syntax">task_functions</span><span class="plain-syntax">[4]; </span><span class="comment-syntax"> I6 schema for tasks</span>
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<span class="plain-syntax"> </span><span class="reserved-syntax">char</span><span class="plain-syntax"> *</span><span class="identifier-syntax">loop_parent_optimisation_proviso</span><span class="plain-syntax">; </span><span class="comment-syntax"> if not NULL, optimise loops using object tree</span>
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<span class="plain-syntax"> </span><span class="reserved-syntax">char</span><span class="plain-syntax"> *</span><span class="identifier-syntax">loop_parent_optimisation_ranger</span><span class="plain-syntax">; </span><span class="comment-syntax"> if not NULL, routine iterating through contents</span>
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<span class="plain-syntax"> </span><span class="comment-syntax"> somewhere to stash what we know about these relationships:</span>
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<span class="plain-syntax"> </span><span class="constant-syntax">TERM_DOMAIN_CALCULUS_TYPE</span><span class="plain-syntax"> *</span><span class="identifier-syntax">knowledge_about_bp</span><span class="plain-syntax">; </span><span class="comment-syntax"> in Inform, this is an inference subject</span>
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<span class="plain-syntax"> #</span><span class="identifier-syntax">ifdef</span><span class="plain-syntax"> </span><span class="identifier-syntax">CORE_MODULE</span>
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<span class="plain-syntax"> </span><span class="reserved-syntax">struct</span><span class="plain-syntax"> </span><span class="identifier-syntax">bp_compilation_data</span><span class="plain-syntax"> </span><span class="identifier-syntax">compilation_data</span><span class="plain-syntax">;</span>
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<span class="plain-syntax"> #</span><span class="identifier-syntax">endif</span>
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<span class="plain-syntax"> </span><span class="identifier-syntax">CLASS_DEFINITION</span>
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<span class="plain-syntax">} </span><span class="reserved-syntax">binary_predicate</span><span class="plain-syntax">;</span>
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</pre>
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<ul class="endnotetexts"><li>The structure binary_predicate is accessed in 3/bpf and here.</li></ul>
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<p class="commentary firstcommentary"><a id="SP5" class="paragraph-anchor"></a><b>§5. </b>The <a href="../linguistics-module/index.html" class="internal">linguistics</a> module needs a data type for what verbs are supposed
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to mean: well, <span class="extract"><span class="extract-syntax">binary_predicate</span></span> is perfect for that.
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</p>
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<pre class="definitions code-font"><span class="definition-keyword">define</span> <span class="constant-syntax">VERB_MEANING_LINGUISTICS_TYPE</span><span class="plain-syntax"> </span><span class="reserved-syntax">struct</span><span class="plain-syntax"> </span><span class="reserved-syntax">binary_predicate</span>
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<span class="definition-keyword">define</span> <span class="constant-syntax">VERB_MEANING_REVERSAL_LINGUISTICS_CALLBACK</span><span class="plain-syntax"> </span><a href="3-bp.html#SP16" class="function-link"><span class="function-syntax">BinaryPredicates::get_reversal</span></a>
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<span class="definition-keyword">define</span> <span class="constant-syntax">VERB_MEANING_EQUALITY</span><span class="plain-syntax"> </span><span class="identifier-syntax">R_equality</span>
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<span class="definition-keyword">define</span> <span class="constant-syntax">VERB_MEANING_POSSESSION</span><span class="plain-syntax"> </span><span class="identifier-syntax">a_has_b_predicate</span>
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</pre>
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<p class="commentary firstcommentary"><a id="SP6" class="paragraph-anchor"></a><b>§6. Combining the terms. </b>For handling the terms individually, see <a href="3-bptd.html" class="internal">Binary Predicate Term Details</a>.
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</p>
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<p class="commentary">Inform makes only very sparing use of the ability to define terms which have
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no kind; this deactivates certain type-checks. It almost but not quite works to
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use <span class="extract"><span class="extract-syntax">value</span></span> instead, and almost but not quite works to default null terms to
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<span class="extract"><span class="extract-syntax">value</span></span> rather than to <span class="extract"><span class="extract-syntax">object</span></span>; the difficulty in that case comes with spatial
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containment, i.e., "X is in Y". See the test cases <span class="extract"><span class="extract-syntax">MetaRelations</span></span>,
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<span class="extract"><span class="extract-syntax">ContainmentScanning</span></span> and <span class="extract"><span class="extract-syntax">RelevantRelations</span></span> before fooling with any of this.
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</p>
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<pre class="displayed-code all-displayed-code code-font">
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<span class="identifier-syntax">kind</span><span class="plain-syntax"> *</span><span class="function-syntax">BinaryPredicates::kind</span><span class="plain-syntax">(</span><span class="reserved-syntax">binary_predicate</span><span class="plain-syntax"> *</span><span class="identifier-syntax">bp</span><span class="plain-syntax">) {</span>
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<span class="plain-syntax"> </span><span class="reserved-syntax">if</span><span class="plain-syntax"> (</span><span class="identifier-syntax">bp</span><span class="plain-syntax"> == </span><span class="identifier-syntax">R_equality</span><span class="plain-syntax">) </span><span class="reserved-syntax">return</span><span class="plain-syntax"> </span><span class="identifier-syntax">Kinds::binary_con</span><span class="plain-syntax">(</span><span class="identifier-syntax">CON_relation</span><span class="plain-syntax">, </span><span class="identifier-syntax">K_value</span><span class="plain-syntax">, </span><span class="identifier-syntax">K_value</span><span class="plain-syntax">);</span>
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<span class="plain-syntax"> </span><span class="reserved-syntax">if</span><span class="plain-syntax"> (</span><span class="identifier-syntax">bp</span><span class="plain-syntax"> == </span><span class="identifier-syntax">R_empty</span><span class="plain-syntax">) </span><span class="reserved-syntax">return</span><span class="plain-syntax"> </span><span class="identifier-syntax">Kinds::binary_con</span><span class="plain-syntax">(</span><span class="identifier-syntax">CON_relation</span><span class="plain-syntax">, </span><span class="identifier-syntax">K_value</span><span class="plain-syntax">, </span><span class="identifier-syntax">K_value</span><span class="plain-syntax">);</span>
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<span class="plain-syntax"> </span><span class="identifier-syntax">kind</span><span class="plain-syntax"> *</span><span class="identifier-syntax">K0</span><span class="plain-syntax"> = </span><a href="3-bp.html#SP7" class="function-link"><span class="function-syntax">BinaryPredicates::term_kind</span></a><span class="plain-syntax">(</span><span class="identifier-syntax">bp</span><span class="plain-syntax">, </span><span class="constant-syntax">0</span><span class="plain-syntax">);</span>
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<span class="plain-syntax"> </span><span class="identifier-syntax">kind</span><span class="plain-syntax"> *</span><span class="identifier-syntax">K1</span><span class="plain-syntax"> = </span><a href="3-bp.html#SP7" class="function-link"><span class="function-syntax">BinaryPredicates::term_kind</span></a><span class="plain-syntax">(</span><span class="identifier-syntax">bp</span><span class="plain-syntax">, </span><span class="constant-syntax">1</span><span class="plain-syntax">);</span>
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<span class="plain-syntax"> </span><span class="reserved-syntax">if</span><span class="plain-syntax"> (</span><span class="identifier-syntax">K0</span><span class="plain-syntax"> == </span><span class="identifier-syntax">NULL</span><span class="plain-syntax">) </span><span class="identifier-syntax">K0</span><span class="plain-syntax"> = </span><span class="identifier-syntax">K_object</span><span class="plain-syntax">;</span>
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<span class="plain-syntax"> </span><span class="reserved-syntax">if</span><span class="plain-syntax"> (</span><span class="identifier-syntax">K1</span><span class="plain-syntax"> == </span><span class="identifier-syntax">NULL</span><span class="plain-syntax">) </span><span class="identifier-syntax">K1</span><span class="plain-syntax"> = </span><span class="identifier-syntax">K_object</span><span class="plain-syntax">;</span>
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<span class="plain-syntax"> </span><span class="reserved-syntax">return</span><span class="plain-syntax"> </span><span class="identifier-syntax">Kinds::binary_con</span><span class="plain-syntax">(</span><span class="identifier-syntax">CON_relation</span><span class="plain-syntax">, </span><span class="identifier-syntax">K0</span><span class="plain-syntax">, </span><span class="identifier-syntax">K1</span><span class="plain-syntax">);</span>
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<span class="plain-syntax">}</span>
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</pre>
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<p class="commentary firstcommentary"><a id="SP7" class="paragraph-anchor"></a><b>§7. </b>Details of the terms:
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</p>
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<pre class="displayed-code all-displayed-code code-font">
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<span class="identifier-syntax">kind</span><span class="plain-syntax"> *</span><span class="function-syntax">BinaryPredicates::term_kind</span><button class="popup" onclick="togglePopup('usagePopup1')"><span class="comment-syntax">?</span><span class="popuptext" id="usagePopup1">Usage of <span class="code-font"><span class="function-syntax">BinaryPredicates::term_kind</span></span>:<br/><a href="3-bp.html#SP6">§6</a><br/>Binary Predicate Families - <a href="3-bpf.html#SP6">§6</a><br/>Type Check Propositions - <a href="4-tcp.html#SP7">§7</a>, <a href="4-tcp.html#SP9_1">§9.1</a><br/>Sentence Conversions - <a href="5-sc.html#SP2_8">§2.8</a><br/>Simplifications - <a href="5-smp.html#SP2_2">§2.2</a>, <a href="5-smp.html#SP7">§7</a>, <a href="5-smp.html#SP14">§14</a></span></button><span class="plain-syntax">(</span><span class="reserved-syntax">binary_predicate</span><span class="plain-syntax"> *</span><span class="identifier-syntax">bp</span><span class="plain-syntax">, </span><span class="reserved-syntax">int</span><span class="plain-syntax"> </span><span class="identifier-syntax">t</span><span class="plain-syntax">) {</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">if</span><span class="plain-syntax"> (</span><span class="identifier-syntax">bp</span><span class="plain-syntax"> == </span><span class="identifier-syntax">NULL</span><span class="plain-syntax">) </span><span class="identifier-syntax">internal_error</span><span class="plain-syntax">(</span><span class="string-syntax">"tried to find kind of null relation"</span><span class="plain-syntax">);</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">return</span><span class="plain-syntax"> </span><a href="3-bptd.html#SP7" class="function-link"><span class="function-syntax">BPTerms::kind</span></a><span class="plain-syntax">(&(</span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">term_details</span><span class="plain-syntax">[</span><span class="identifier-syntax">t</span><span class="plain-syntax">]));</span>
|
|
<span class="plain-syntax">}</span>
|
|
<span class="reserved-syntax">i6_schema</span><span class="plain-syntax"> *</span><span class="function-syntax">BinaryPredicates::get_term_as_fn_of_other</span><button class="popup" onclick="togglePopup('usagePopup2')"><span class="comment-syntax">?</span><span class="popuptext" id="usagePopup2">Usage of <span class="code-font"><span class="function-syntax">BinaryPredicates::get_term_as_fn_of_other</span></span>:<br/>Terms - <a href="4-trm.html#SP11">§11</a><br/>Simplifications - <a href="5-smp.html#SP12">§12</a></span></button><span class="plain-syntax">(</span><span class="reserved-syntax">binary_predicate</span><span class="plain-syntax"> *</span><span class="identifier-syntax">bp</span><span class="plain-syntax">, </span><span class="reserved-syntax">int</span><span class="plain-syntax"> </span><span class="identifier-syntax">t</span><span class="plain-syntax">) {</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">if</span><span class="plain-syntax"> (</span><span class="identifier-syntax">bp</span><span class="plain-syntax"> == </span><span class="identifier-syntax">NULL</span><span class="plain-syntax">) </span><span class="identifier-syntax">internal_error</span><span class="plain-syntax">(</span><span class="string-syntax">"tried to find function of null relation"</span><span class="plain-syntax">);</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">return</span><span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">term_details</span><span class="plain-syntax">[</span><span class="identifier-syntax">t</span><span class="plain-syntax">].</span><span class="element-syntax">function_of_other</span><span class="plain-syntax">;</span>
|
|
<span class="plain-syntax">}</span>
|
|
</pre>
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|
<p class="commentary firstcommentary"><a id="SP8" class="paragraph-anchor"></a><b>§8. </b>And as a convenience:
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</p>
|
|
|
|
<pre class="displayed-code all-displayed-code code-font">
|
|
<span class="reserved-syntax">void</span><span class="plain-syntax"> </span><span class="function-syntax">BinaryPredicates::set_index_details</span><button class="popup" onclick="togglePopup('usagePopup3')"><span class="comment-syntax">?</span><span class="popuptext" id="usagePopup3">Usage of <span class="code-font"><span class="function-syntax">BinaryPredicates::set_index_details</span></span>:<br/>The Equality Relation - <a href="3-ter.html#SP3">§3</a></span></button><span class="plain-syntax">(</span><span class="reserved-syntax">binary_predicate</span><span class="plain-syntax"> *</span><span class="identifier-syntax">bp</span><span class="plain-syntax">, </span><span class="reserved-syntax">char</span><span class="plain-syntax"> *</span><span class="identifier-syntax">left</span><span class="plain-syntax">, </span><span class="reserved-syntax">char</span><span class="plain-syntax"> *</span><span class="identifier-syntax">right</span><span class="plain-syntax">) {</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">if</span><span class="plain-syntax"> (</span><span class="identifier-syntax">left</span><span class="plain-syntax">) {</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">term_details</span><span class="plain-syntax">[0].</span><span class="element-syntax">index_term_as</span><span class="plain-syntax"> = </span><span class="identifier-syntax">left</span><span class="plain-syntax">;</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">reversal</span><span class="plain-syntax">-></span><span class="element-syntax">term_details</span><span class="plain-syntax">[1].</span><span class="element-syntax">index_term_as</span><span class="plain-syntax"> = </span><span class="identifier-syntax">left</span><span class="plain-syntax">;</span>
|
|
<span class="plain-syntax"> }</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">if</span><span class="plain-syntax"> (</span><span class="identifier-syntax">right</span><span class="plain-syntax">) {</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">term_details</span><span class="plain-syntax">[1].</span><span class="element-syntax">index_term_as</span><span class="plain-syntax"> = </span><span class="identifier-syntax">right</span><span class="plain-syntax">;</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">reversal</span><span class="plain-syntax">-></span><span class="element-syntax">term_details</span><span class="plain-syntax">[0].</span><span class="element-syntax">index_term_as</span><span class="plain-syntax"> = </span><span class="identifier-syntax">right</span><span class="plain-syntax">;</span>
|
|
<span class="plain-syntax"> }</span>
|
|
<span class="plain-syntax">}</span>
|
|
</pre>
|
|
<p class="commentary firstcommentary"><a id="SP9" class="paragraph-anchor"></a><b>§9. Making the equality relation. </b>As we shall see below, BPs are almost always created in matched pairs. There
|
|
is just one exception: equality. This is a very polymorphic relation indeed,
|
|
and its terms have a null domain to impose no restrictions at all.
|
|
</p>
|
|
|
|
<pre class="displayed-code all-displayed-code code-font">
|
|
<span class="reserved-syntax">binary_predicate</span><span class="plain-syntax"> *</span><span class="function-syntax">BinaryPredicates::make_equality</span><button class="popup" onclick="togglePopup('usagePopup4')"><span class="comment-syntax">?</span><span class="popuptext" id="usagePopup4">Usage of <span class="code-font"><span class="function-syntax">BinaryPredicates::make_equality</span></span>:<br/>The Equality Relation - <a href="3-ter.html#SP3">§3</a></span></button><span class="plain-syntax">(</span><span class="reserved-syntax">bp_family</span><span class="plain-syntax"> *</span><span class="identifier-syntax">family</span><span class="plain-syntax">, </span><span class="identifier-syntax">word_assemblage</span><span class="plain-syntax"> </span><span class="identifier-syntax">WA</span><span class="plain-syntax">) {</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">binary_predicate</span><span class="plain-syntax"> *</span><span class="identifier-syntax">bp</span><span class="plain-syntax"> = </span><a href="3-bp.html#SP11" class="function-link"><span class="function-syntax">BinaryPredicates::make_single</span></a><span class="plain-syntax">(</span><span class="identifier-syntax">family</span><span class="plain-syntax">,</span>
|
|
<span class="plain-syntax"> </span><a href="3-bptd.html#SP2" class="function-link"><span class="function-syntax">BPTerms::new</span></a><span class="plain-syntax">(</span><span class="identifier-syntax">NULL</span><span class="plain-syntax">), </span><a href="3-bptd.html#SP2" class="function-link"><span class="function-syntax">BPTerms::new</span></a><span class="plain-syntax">(</span><span class="identifier-syntax">NULL</span><span class="plain-syntax">),</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">I</span><span class="string-syntax">"is"</span><span class="plain-syntax">, </span><span class="identifier-syntax">NULL</span><span class="plain-syntax">, </span><span class="identifier-syntax">NULL</span><span class="plain-syntax">, </span><span class="identifier-syntax">WA</span><span class="plain-syntax">);</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">reversal</span><span class="plain-syntax"> = </span><span class="identifier-syntax">bp</span><span class="plain-syntax">; </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">right_way_round</span><span class="plain-syntax"> = </span><span class="identifier-syntax">TRUE</span><span class="plain-syntax">;</span>
|
|
<span class="plain-syntax"> #</span><span class="identifier-syntax">ifdef</span><span class="plain-syntax"> </span><span class="identifier-syntax">BINARY_PREDICATE_CREATED_CALCULUS_CALLBACK</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">BINARY_PREDICATE_CREATED_CALCULUS_CALLBACK</span><span class="plain-syntax">(</span><span class="identifier-syntax">bp</span><span class="plain-syntax">, </span><span class="identifier-syntax">WA</span><span class="plain-syntax">);</span>
|
|
<span class="plain-syntax"> #</span><span class="identifier-syntax">endif</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">return</span><span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">;</span>
|
|
<span class="plain-syntax">}</span>
|
|
</pre>
|
|
<p class="commentary firstcommentary"><a id="SP10" class="paragraph-anchor"></a><b>§10. Making a pair of relations. </b>Every other BP belongs to a matched pair, in which each is the reversal of
|
|
the other. The one which is the wrong way round is never used in compilation,
|
|
because it will long before that have been reversed, so we only fill in
|
|
details of how to compile the BP for the one which is the right way round.
|
|
</p>
|
|
|
|
<pre class="displayed-code all-displayed-code code-font">
|
|
<span class="reserved-syntax">binary_predicate</span><span class="plain-syntax"> *</span><span class="function-syntax">BinaryPredicates::make_pair</span><button class="popup" onclick="togglePopup('usagePopup5')"><span class="comment-syntax">?</span><span class="popuptext" id="usagePopup5">Usage of <span class="code-font"><span class="function-syntax">BinaryPredicates::make_pair</span></span>:<br/>The Equality Relation - <a href="3-ter.html#SP3">§3</a></span></button><span class="plain-syntax">(</span><span class="reserved-syntax">bp_family</span><span class="plain-syntax"> *</span><span class="identifier-syntax">family</span><span class="plain-syntax">,</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">bp_term_details</span><span class="plain-syntax"> </span><span class="identifier-syntax">left_term</span><span class="plain-syntax">, </span><span class="reserved-syntax">bp_term_details</span><span class="plain-syntax"> </span><span class="identifier-syntax">right_term</span><span class="plain-syntax">,</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">text_stream</span><span class="plain-syntax"> *</span><span class="identifier-syntax">name</span><span class="plain-syntax">, </span><span class="identifier-syntax">text_stream</span><span class="plain-syntax"> *</span><span class="identifier-syntax">namer</span><span class="plain-syntax">,</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">i6_schema</span><span class="plain-syntax"> *</span><span class="identifier-syntax">mtf</span><span class="plain-syntax">, </span><span class="reserved-syntax">i6_schema</span><span class="plain-syntax"> *</span><span class="identifier-syntax">tf</span><span class="plain-syntax">, </span><span class="identifier-syntax">word_assemblage</span><span class="plain-syntax"> </span><span class="identifier-syntax">source_name</span><span class="plain-syntax">) {</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">binary_predicate</span><span class="plain-syntax"> *</span><span class="identifier-syntax">bp</span><span class="plain-syntax">, *</span><span class="identifier-syntax">bpr</span><span class="plain-syntax">;</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">TEMPORARY_TEXT</span><span class="plain-syntax">(</span><span class="identifier-syntax">n</span><span class="plain-syntax">)</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">TEMPORARY_TEXT</span><span class="plain-syntax">(</span><span class="identifier-syntax">nr</span><span class="plain-syntax">)</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">Str::copy</span><span class="plain-syntax">(</span><span class="identifier-syntax">n</span><span class="plain-syntax">, </span><span class="identifier-syntax">name</span><span class="plain-syntax">);</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">if</span><span class="plain-syntax"> (</span><span class="identifier-syntax">Str::len</span><span class="plain-syntax">(</span><span class="identifier-syntax">n</span><span class="plain-syntax">) == </span><span class="constant-syntax">0</span><span class="plain-syntax">) </span><span class="identifier-syntax">WRITE_TO</span><span class="plain-syntax">(</span><span class="identifier-syntax">n</span><span class="plain-syntax">, </span><span class="string-syntax">"nameless"</span><span class="plain-syntax">);</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">Str::copy</span><span class="plain-syntax">(</span><span class="identifier-syntax">nr</span><span class="plain-syntax">, </span><span class="identifier-syntax">namer</span><span class="plain-syntax">);</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">if</span><span class="plain-syntax"> (</span><span class="identifier-syntax">Str::len</span><span class="plain-syntax">(</span><span class="identifier-syntax">nr</span><span class="plain-syntax">) == </span><span class="constant-syntax">0</span><span class="plain-syntax">) </span><span class="identifier-syntax">WRITE_TO</span><span class="plain-syntax">(</span><span class="identifier-syntax">nr</span><span class="plain-syntax">, </span><span class="string-syntax">"%S-r"</span><span class="plain-syntax">, </span><span class="identifier-syntax">n</span><span class="plain-syntax">);</span>
|
|
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax"> = </span><a href="3-bp.html#SP11" class="function-link"><span class="function-syntax">BinaryPredicates::make_single</span></a><span class="plain-syntax">(</span><span class="identifier-syntax">family</span><span class="plain-syntax">, </span><span class="identifier-syntax">left_term</span><span class="plain-syntax">, </span><span class="identifier-syntax">right_term</span><span class="plain-syntax">, </span><span class="identifier-syntax">n</span><span class="plain-syntax">,</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">mtf</span><span class="plain-syntax">, </span><span class="identifier-syntax">tf</span><span class="plain-syntax">, </span><span class="identifier-syntax">source_name</span><span class="plain-syntax">);</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">bpr</span><span class="plain-syntax"> = </span><a href="3-bp.html#SP11" class="function-link"><span class="function-syntax">BinaryPredicates::make_single</span></a><span class="plain-syntax">(</span><span class="identifier-syntax">family</span><span class="plain-syntax">, </span><span class="identifier-syntax">right_term</span><span class="plain-syntax">, </span><span class="identifier-syntax">left_term</span><span class="plain-syntax">, </span><span class="identifier-syntax">nr</span><span class="plain-syntax">,</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">NULL</span><span class="plain-syntax">, </span><span class="identifier-syntax">NULL</span><span class="plain-syntax">, </span><span class="identifier-syntax">WordAssemblages::lit_0</span><span class="plain-syntax">());</span>
|
|
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">reversal</span><span class="plain-syntax"> = </span><span class="identifier-syntax">bpr</span><span class="plain-syntax">; </span><span class="identifier-syntax">bpr</span><span class="plain-syntax">-></span><span class="element-syntax">reversal</span><span class="plain-syntax"> = </span><span class="identifier-syntax">bp</span><span class="plain-syntax">;</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">right_way_round</span><span class="plain-syntax"> = </span><span class="identifier-syntax">TRUE</span><span class="plain-syntax">; </span><span class="identifier-syntax">bpr</span><span class="plain-syntax">-></span><span class="element-syntax">right_way_round</span><span class="plain-syntax"> = </span><span class="identifier-syntax">FALSE</span><span class="plain-syntax">;</span>
|
|
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">if</span><span class="plain-syntax"> (</span><span class="identifier-syntax">WordAssemblages::nonempty</span><span class="plain-syntax">(</span><span class="identifier-syntax">source_name</span><span class="plain-syntax">)) {</span>
|
|
<span class="plain-syntax"> #</span><span class="identifier-syntax">ifdef</span><span class="plain-syntax"> </span><span class="identifier-syntax">BINARY_PREDICATE_CREATED_CALCULUS_CALLBACK</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">BINARY_PREDICATE_CREATED_CALCULUS_CALLBACK</span><span class="plain-syntax">(</span><span class="identifier-syntax">bp</span><span class="plain-syntax">, </span><span class="identifier-syntax">source_name</span><span class="plain-syntax">);</span>
|
|
<span class="plain-syntax"> #</span><span class="identifier-syntax">endif</span>
|
|
<span class="plain-syntax"> }</span>
|
|
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">return</span><span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">;</span>
|
|
<span class="plain-syntax">}</span>
|
|
</pre>
|
|
<p class="commentary firstcommentary"><a id="SP11" class="paragraph-anchor"></a><b>§11. BP construction. </b>The following routine should only ever be called from the two above.
|
|
</p>
|
|
|
|
<p class="commentary">It looks a little asymmetric that the "make true function" schema <span class="extract"><span class="extract-syntax">mtf</span></span> is an
|
|
argument here, but the "make false function" isn't; that's just because
|
|
Inform finds this convenient. A "make false" can easily be added later.
|
|
</p>
|
|
|
|
<pre class="displayed-code all-displayed-code code-font">
|
|
<span class="reserved-syntax">binary_predicate</span><span class="plain-syntax"> *</span><span class="function-syntax">BinaryPredicates::make_single</span><button class="popup" onclick="togglePopup('usagePopup6')"><span class="comment-syntax">?</span><span class="popuptext" id="usagePopup6">Usage of <span class="code-font"><span class="function-syntax">BinaryPredicates::make_single</span></span>:<br/><a href="3-bp.html#SP9">§9</a>, <a href="3-bp.html#SP10">§10</a></span></button><span class="plain-syntax">(</span><span class="reserved-syntax">bp_family</span><span class="plain-syntax"> *</span><span class="identifier-syntax">family</span><span class="plain-syntax">,</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">bp_term_details</span><span class="plain-syntax"> </span><span class="identifier-syntax">left_term</span><span class="plain-syntax">, </span><span class="reserved-syntax">bp_term_details</span><span class="plain-syntax"> </span><span class="identifier-syntax">right_term</span><span class="plain-syntax">,</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">text_stream</span><span class="plain-syntax"> *</span><span class="identifier-syntax">name</span><span class="plain-syntax">, </span><span class="reserved-syntax">i6_schema</span><span class="plain-syntax"> *</span><span class="identifier-syntax">mtf</span><span class="plain-syntax">, </span><span class="reserved-syntax">i6_schema</span><span class="plain-syntax"> *</span><span class="identifier-syntax">tf</span><span class="plain-syntax">, </span><span class="identifier-syntax">word_assemblage</span><span class="plain-syntax"> </span><span class="identifier-syntax">rn</span><span class="plain-syntax">) {</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">binary_predicate</span><span class="plain-syntax"> *</span><span class="identifier-syntax">bp</span><span class="plain-syntax"> = </span><span class="identifier-syntax">CREATE</span><span class="plain-syntax">(</span><span class="reserved-syntax">binary_predicate</span><span class="plain-syntax">);</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">relation_family</span><span class="plain-syntax"> = </span><span class="identifier-syntax">family</span><span class="plain-syntax">;</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">relation_name</span><span class="plain-syntax"> = </span><span class="identifier-syntax">rn</span><span class="plain-syntax">;</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">bp_created_at</span><span class="plain-syntax"> = </span><span class="identifier-syntax">current_sentence</span><span class="plain-syntax">;</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">debugging_log_name</span><span class="plain-syntax"> = </span><span class="identifier-syntax">Str::duplicate</span><span class="plain-syntax">(</span><span class="identifier-syntax">name</span><span class="plain-syntax">);</span>
|
|
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">term_details</span><span class="plain-syntax">[0] = </span><span class="identifier-syntax">left_term</span><span class="plain-syntax">; </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">term_details</span><span class="plain-syntax">[1] = </span><span class="identifier-syntax">right_term</span><span class="plain-syntax">;</span>
|
|
|
|
<span class="plain-syntax"> </span><span class="comment-syntax"> the </span><span class="extract"><span class="extract-syntax">reversal</span></span><span class="comment-syntax"> and the </span><span class="extract"><span class="extract-syntax">right_way_round</span></span><span class="comment-syntax"> field must be set by the caller</span>
|
|
|
|
<span class="plain-syntax"> </span><span class="comment-syntax"> for use in code compilation</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">task_functions</span><span class="plain-syntax">[0] = </span><span class="identifier-syntax">NULL</span><span class="plain-syntax">; </span><span class="comment-syntax"> not used: there's no task 0</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">task_functions</span><span class="plain-syntax">[</span><span class="constant-syntax">TEST_ATOM_TASK</span><span class="plain-syntax">] = </span><span class="identifier-syntax">tf</span><span class="plain-syntax">;</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">task_functions</span><span class="plain-syntax">[</span><span class="constant-syntax">NOW_ATOM_TRUE_TASK</span><span class="plain-syntax">] = </span><span class="identifier-syntax">mtf</span><span class="plain-syntax">;</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">task_functions</span><span class="plain-syntax">[</span><span class="constant-syntax">NOW_ATOM_FALSE_TASK</span><span class="plain-syntax">] = </span><span class="identifier-syntax">NULL</span><span class="plain-syntax">;</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">loop_parent_optimisation_proviso</span><span class="plain-syntax"> = </span><span class="identifier-syntax">NULL</span><span class="plain-syntax">;</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">loop_parent_optimisation_ranger</span><span class="plain-syntax"> = </span><span class="identifier-syntax">NULL</span><span class="plain-syntax">;</span>
|
|
|
|
<span class="plain-syntax"> </span><span class="comment-syntax"> for use by the A-parser</span>
|
|
<span class="plain-syntax"> #</span><span class="identifier-syntax">ifdef</span><span class="plain-syntax"> </span><span class="identifier-syntax">CORE_MODULE</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">knowledge_about_bp</span><span class="plain-syntax"> = </span><span class="identifier-syntax">RelationSubjects::new</span><span class="plain-syntax">(</span><span class="identifier-syntax">bp</span><span class="plain-syntax">);</span>
|
|
<span class="plain-syntax"> #</span><span class="identifier-syntax">endif</span>
|
|
<span class="plain-syntax"> #</span><span class="identifier-syntax">ifndef</span><span class="plain-syntax"> </span><span class="identifier-syntax">CORE_MODULE</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">knowledge_about_bp</span><span class="plain-syntax"> = </span><span class="identifier-syntax">NULL</span><span class="plain-syntax">;</span>
|
|
<span class="plain-syntax"> #</span><span class="identifier-syntax">endif</span>
|
|
|
|
<span class="plain-syntax"> </span><span class="comment-syntax"> details for particular kinds of relation</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">family_specific</span><span class="plain-syntax"> = </span><span class="identifier-syntax">NULL_GENERAL_POINTER</span><span class="plain-syntax">;</span>
|
|
|
|
<span class="plain-syntax"> #</span><span class="identifier-syntax">ifdef</span><span class="plain-syntax"> </span><span class="identifier-syntax">CORE_MODULE</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">compilation_data</span><span class="plain-syntax"> = </span><span class="identifier-syntax">RTRelations::new_compilation_data</span><span class="plain-syntax">(</span><span class="identifier-syntax">bp</span><span class="plain-syntax">);</span>
|
|
<span class="plain-syntax"> #</span><span class="identifier-syntax">endif</span>
|
|
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">return</span><span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">;</span>
|
|
<span class="plain-syntax">}</span>
|
|
</pre>
|
|
<p class="commentary firstcommentary"><a id="SP12" class="paragraph-anchor"></a><b>§12. BP and term logging. </b></p>
|
|
|
|
<pre class="displayed-code all-displayed-code code-font">
|
|
<span class="reserved-syntax">void</span><span class="plain-syntax"> </span><span class="function-syntax">BinaryPredicates::log_term_details</span><span class="plain-syntax">(</span><span class="reserved-syntax">bp_term_details</span><span class="plain-syntax"> *</span><span class="identifier-syntax">bptd</span><span class="plain-syntax">, </span><span class="reserved-syntax">int</span><span class="plain-syntax"> </span><span class="identifier-syntax">i</span><span class="plain-syntax">) {</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">LOG</span><span class="plain-syntax">(</span><span class="string-syntax">" function(%d): $i\n"</span><span class="plain-syntax">, </span><span class="identifier-syntax">i</span><span class="plain-syntax">, </span><span class="identifier-syntax">bptd</span><span class="plain-syntax">-></span><span class="element-syntax">function_of_other</span><span class="plain-syntax">);</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">if</span><span class="plain-syntax"> (</span><span class="identifier-syntax">Wordings::nonempty</span><span class="plain-syntax">(</span><span class="identifier-syntax">bptd</span><span class="plain-syntax">-></span><span class="identifier-syntax">called_name</span><span class="plain-syntax">)) </span><span class="identifier-syntax">LOG</span><span class="plain-syntax">(</span><span class="string-syntax">" term %d is '%W'\n"</span><span class="plain-syntax">, </span><span class="identifier-syntax">i</span><span class="plain-syntax">, </span><span class="identifier-syntax">bptd</span><span class="plain-syntax">-></span><span class="element-syntax">called_name</span><span class="plain-syntax">);</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">if</span><span class="plain-syntax"> (</span><span class="identifier-syntax">bptd</span><span class="plain-syntax">-></span><span class="element-syntax">implies_infs</span><span class="plain-syntax">) {</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">wording</span><span class="plain-syntax"> </span><span class="identifier-syntax">W</span><span class="plain-syntax"> = </span><span class="identifier-syntax">TERM_DOMAIN_WORDING_FUNCTION</span><span class="plain-syntax">(</span><span class="identifier-syntax">bptd</span><span class="plain-syntax">-></span><span class="element-syntax">implies_infs</span><span class="plain-syntax">);</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">if</span><span class="plain-syntax"> (</span><span class="identifier-syntax">Wordings::nonempty</span><span class="plain-syntax">(</span><span class="identifier-syntax">W</span><span class="plain-syntax">)) </span><span class="identifier-syntax">LOG</span><span class="plain-syntax">(</span><span class="string-syntax">" term %d has domain %W\n"</span><span class="plain-syntax">, </span><span class="identifier-syntax">i</span><span class="plain-syntax">, </span><span class="identifier-syntax">W</span><span class="plain-syntax">);</span>
|
|
<span class="plain-syntax"> }</span>
|
|
<span class="plain-syntax">}</span>
|
|
|
|
<span class="reserved-syntax">void</span><span class="plain-syntax"> </span><span class="function-syntax">BinaryPredicates::log</span><button class="popup" onclick="togglePopup('usagePopup7')"><span class="comment-syntax">?</span><span class="popuptext" id="usagePopup7">Usage of <span class="code-font"><span class="function-syntax">BinaryPredicates::log</span></span>:<br/>Calculus Module - <a href="1-cm.html#SP3">§3</a></span></button><span class="plain-syntax">(</span><span class="reserved-syntax">binary_predicate</span><span class="plain-syntax"> *</span><span class="identifier-syntax">bp</span><span class="plain-syntax">) {</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">if</span><span class="plain-syntax"> (</span><span class="identifier-syntax">bp</span><span class="plain-syntax"> == </span><span class="identifier-syntax">NULL</span><span class="plain-syntax">) { </span><span class="identifier-syntax">LOG</span><span class="plain-syntax">(</span><span class="string-syntax">"<null-BP>\n"</span><span class="plain-syntax">); </span><span class="reserved-syntax">return</span><span class="plain-syntax">; }</span>
|
|
<span class="plain-syntax"> #</span><span class="identifier-syntax">ifdef</span><span class="plain-syntax"> </span><span class="identifier-syntax">CORE_MODULE</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">LOG</span><span class="plain-syntax">(</span><span class="string-syntax">"BP%d <%S> - %s way round - %s\n"</span><span class="plain-syntax">,</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="identifier-syntax">allocation_id</span><span class="plain-syntax">, </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">debugging_log_name</span><span class="plain-syntax">, </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">right_way_round</span><span class="plain-syntax">?</span><span class="string-syntax">"right"</span><span class="plain-syntax">:</span><span class="string-syntax">"wrong"</span><span class="plain-syntax">,</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">ExplicitRelations::form_to_text</span><span class="plain-syntax">(</span><span class="identifier-syntax">bp</span><span class="plain-syntax">));</span>
|
|
<span class="plain-syntax"> #</span><span class="identifier-syntax">endif</span>
|
|
<span class="plain-syntax"> #</span><span class="identifier-syntax">ifndef</span><span class="plain-syntax"> </span><span class="identifier-syntax">CORE_MODULE</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">LOG</span><span class="plain-syntax">(</span><span class="string-syntax">"BP%d <%S> - %s way round\n"</span><span class="plain-syntax">,</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="identifier-syntax">allocation_id</span><span class="plain-syntax">, </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">debugging_log_name</span><span class="plain-syntax">, </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">right_way_round</span><span class="plain-syntax">?</span><span class="string-syntax">"right"</span><span class="plain-syntax">:</span><span class="string-syntax">"wrong"</span><span class="plain-syntax">);</span>
|
|
<span class="plain-syntax"> #</span><span class="identifier-syntax">endif</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">for</span><span class="plain-syntax"> (</span><span class="reserved-syntax">int</span><span class="plain-syntax"> </span><span class="identifier-syntax">i</span><span class="plain-syntax">=0; </span><span class="identifier-syntax">i</span><span class="plain-syntax"><2; </span><span class="identifier-syntax">i</span><span class="plain-syntax">++) </span><a href="3-bp.html#SP12" class="function-link"><span class="function-syntax">BinaryPredicates::log_term_details</span></a><span class="plain-syntax">(&</span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">term_details</span><span class="plain-syntax">[</span><span class="identifier-syntax">i</span><span class="plain-syntax">], </span><span class="identifier-syntax">i</span><span class="plain-syntax">);</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">LOG</span><span class="plain-syntax">(</span><span class="string-syntax">" test: $i\n"</span><span class="plain-syntax">, </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">task_functions</span><span class="plain-syntax">[</span><span class="constant-syntax">TEST_ATOM_TASK</span><span class="plain-syntax">]);</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">LOG</span><span class="plain-syntax">(</span><span class="string-syntax">" make true: $i\n"</span><span class="plain-syntax">, </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="identifier-syntax">task_functions</span><span class="plain-syntax">[</span><span class="constant-syntax">NOW_ATOM_TRUE_TASK</span><span class="plain-syntax">]);</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">LOG</span><span class="plain-syntax">(</span><span class="string-syntax">" make false: $i\n"</span><span class="plain-syntax">, </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">task_functions</span><span class="plain-syntax">[</span><span class="constant-syntax">NOW_ATOM_FALSE_TASK</span><span class="plain-syntax">]);</span>
|
|
<span class="plain-syntax">}</span>
|
|
</pre>
|
|
<p class="commentary firstcommentary"><a id="SP13" class="paragraph-anchor"></a><b>§13. Relation names. </b>This is a useful little nonterminal to spot the names of relation, such as
|
|
"adjacency". (Note: not "adjacency relation".) This should only be used when
|
|
there is good reason to suspect that the word in question is the name of a
|
|
relation, so the fact that it runs relatively slowly does not matter.
|
|
</p>
|
|
|
|
<pre class="displayed-code all-displayed-code code-font">
|
|
<span class="function-syntax"><relation-name></span><span class="plain-syntax"> </span><span class="identifier-syntax">internal</span><span class="plain-syntax"> {</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">binary_predicate</span><span class="plain-syntax"> *</span><span class="identifier-syntax">bp</span><span class="plain-syntax">;</span>
|
|
<span class="plain-syntax"> </span><span class="identifier-syntax">LOOP_OVER</span><span class="plain-syntax">(</span><span class="identifier-syntax">bp</span><span class="plain-syntax">, </span><span class="reserved-syntax">binary_predicate</span><span class="plain-syntax">)</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">if</span><span class="plain-syntax"> (</span><span class="identifier-syntax">WordAssemblages::compare_with_wording</span><span class="plain-syntax">(&(</span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">relation_name</span><span class="plain-syntax">), </span><span class="identifier-syntax">W</span><span class="plain-syntax">)) {</span>
|
|
<span class="plain-syntax"> ==> { -, </span><span class="identifier-syntax">bp</span><span class="plain-syntax"> }; </span><span class="reserved-syntax">return</span><span class="plain-syntax"> </span><span class="identifier-syntax">TRUE</span><span class="plain-syntax">;</span>
|
|
<span class="plain-syntax"> }</span>
|
|
<span class="plain-syntax"> ==> { </span><span class="identifier-syntax">fail</span><span class="plain-syntax"> </span><span class="identifier-syntax">nonterminal</span><span class="plain-syntax"> };</span>
|
|
<span class="plain-syntax">}</span>
|
|
</pre>
|
|
<p class="commentary firstcommentary"><a id="SP14" class="paragraph-anchor"></a><b>§14. </b></p>
|
|
|
|
<pre class="displayed-code all-displayed-code code-font">
|
|
<span class="identifier-syntax">text_stream</span><span class="plain-syntax"> *</span><span class="function-syntax">BinaryPredicates::get_log_name</span><button class="popup" onclick="togglePopup('usagePopup8')"><span class="comment-syntax">?</span><span class="popuptext" id="usagePopup8">Usage of <span class="code-font"><span class="function-syntax">BinaryPredicates::get_log_name</span></span>:<br/>Atomic Propositions - <a href="4-ap.html#SP14_3">§14.3</a></span></button><span class="plain-syntax">(</span><span class="reserved-syntax">binary_predicate</span><span class="plain-syntax"> *</span><span class="identifier-syntax">bp</span><span class="plain-syntax">) {</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">return</span><span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">debugging_log_name</span><span class="plain-syntax">;</span>
|
|
<span class="plain-syntax">}</span>
|
|
</pre>
|
|
<p class="commentary firstcommentary"><a id="SP15" class="paragraph-anchor"></a><b>§15. Miscellaneous access routines. </b></p>
|
|
|
|
<pre class="displayed-code all-displayed-code code-font">
|
|
<span class="identifier-syntax">parse_node</span><span class="plain-syntax"> *</span><span class="function-syntax">BinaryPredicates::get_bp_created_at</span><span class="plain-syntax">(</span><span class="reserved-syntax">binary_predicate</span><span class="plain-syntax"> *</span><span class="identifier-syntax">bp</span><span class="plain-syntax">) {</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">return</span><span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">bp_created_at</span><span class="plain-syntax">;</span>
|
|
<span class="plain-syntax">}</span>
|
|
</pre>
|
|
<p class="commentary firstcommentary"><a id="SP16" class="paragraph-anchor"></a><b>§16. </b>Reversing:
|
|
</p>
|
|
|
|
<pre class="displayed-code all-displayed-code code-font">
|
|
<span class="reserved-syntax">binary_predicate</span><span class="plain-syntax"> *</span><span class="function-syntax">BinaryPredicates::get_reversal</span><button class="popup" onclick="togglePopup('usagePopup9')"><span class="comment-syntax">?</span><span class="popuptext" id="usagePopup9">Usage of <span class="code-font"><span class="function-syntax">BinaryPredicates::get_reversal</span></span>:<br/><a href="3-bp.html#SP5">§5</a><br/>Sentence Conversions - <a href="5-sc.html#SP2_13_1">§2.13.1</a><br/>Simplifications - <a href="5-smp.html#SP10">§10</a></span></button><span class="plain-syntax">(</span><span class="reserved-syntax">binary_predicate</span><span class="plain-syntax"> *</span><span class="identifier-syntax">bp</span><span class="plain-syntax">) {</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">if</span><span class="plain-syntax"> (</span><span class="identifier-syntax">bp</span><span class="plain-syntax"> == </span><span class="identifier-syntax">NULL</span><span class="plain-syntax">) </span><span class="identifier-syntax">internal_error</span><span class="plain-syntax">(</span><span class="string-syntax">"tried to find reversal of null relation"</span><span class="plain-syntax">);</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">return</span><span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">reversal</span><span class="plain-syntax">;</span>
|
|
<span class="plain-syntax">}</span>
|
|
<span class="reserved-syntax">int</span><span class="plain-syntax"> </span><span class="function-syntax">BinaryPredicates::is_the_wrong_way_round</span><button class="popup" onclick="togglePopup('usagePopup10')"><span class="comment-syntax">?</span><span class="popuptext" id="usagePopup10">Usage of <span class="code-font"><span class="function-syntax">BinaryPredicates::is_the_wrong_way_round</span></span>:<br/>Type Check Propositions - <a href="4-tcp.html#SP4_6">§4.6</a><br/>Simplifications - <a href="5-smp.html#SP10">§10</a></span></button><span class="plain-syntax">(</span><span class="reserved-syntax">binary_predicate</span><span class="plain-syntax"> *</span><span class="identifier-syntax">bp</span><span class="plain-syntax">) {</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">if</span><span class="plain-syntax"> ((</span><span class="identifier-syntax">bp</span><span class="plain-syntax">) && (</span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">right_way_round</span><span class="plain-syntax"> == </span><span class="identifier-syntax">FALSE</span><span class="plain-syntax">)) </span><span class="reserved-syntax">return</span><span class="plain-syntax"> </span><span class="identifier-syntax">TRUE</span><span class="plain-syntax">;</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">return</span><span class="plain-syntax"> </span><span class="identifier-syntax">FALSE</span><span class="plain-syntax">;</span>
|
|
<span class="plain-syntax">}</span>
|
|
</pre>
|
|
<p class="commentary firstcommentary"><a id="SP17" class="paragraph-anchor"></a><b>§17. </b>For compiling code from conditions:
|
|
</p>
|
|
|
|
<pre class="displayed-code all-displayed-code code-font">
|
|
<span class="reserved-syntax">i6_schema</span><span class="plain-syntax"> *</span><span class="function-syntax">BinaryPredicates::get_test_function</span><span class="plain-syntax">(</span><span class="reserved-syntax">binary_predicate</span><span class="plain-syntax"> *</span><span class="identifier-syntax">bp</span><span class="plain-syntax">) {</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">return</span><span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">task_functions</span><span class="plain-syntax">[</span><span class="constant-syntax">TEST_ATOM_TASK</span><span class="plain-syntax">];</span>
|
|
<span class="plain-syntax">}</span>
|
|
<span class="reserved-syntax">int</span><span class="plain-syntax"> </span><span class="function-syntax">BinaryPredicates::can_be_made_true_at_runtime</span><span class="plain-syntax">(</span><span class="reserved-syntax">binary_predicate</span><span class="plain-syntax"> *</span><span class="identifier-syntax">bp</span><span class="plain-syntax">) {</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">if</span><span class="plain-syntax"> ((</span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">task_functions</span><span class="plain-syntax">[</span><span class="constant-syntax">NOW_ATOM_TRUE_TASK</span><span class="plain-syntax">]) ||</span>
|
|
<span class="plain-syntax"> (</span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">reversal</span><span class="plain-syntax">-></span><span class="element-syntax">task_functions</span><span class="plain-syntax">[</span><span class="constant-syntax">NOW_ATOM_TRUE_TASK</span><span class="plain-syntax">])) </span><span class="reserved-syntax">return</span><span class="plain-syntax"> </span><span class="identifier-syntax">TRUE</span><span class="plain-syntax">;</span>
|
|
<span class="plain-syntax"> </span><span class="reserved-syntax">return</span><span class="plain-syntax"> </span><span class="identifier-syntax">FALSE</span><span class="plain-syntax">;</span>
|
|
<span class="plain-syntax">}</span>
|
|
</pre>
|
|
<p class="commentary firstcommentary"><a id="SP18" class="paragraph-anchor"></a><b>§18. Loop schema. </b>The predicate-calculus engine compiles much better loops if we can help it by
|
|
providing an I6 schema of a loop header solving the following problem:
|
|
</p>
|
|
|
|
<p class="commentary">Loop a variable \(v\) (in the schema, <span class="extract"><span class="extract-syntax">*1</span></span>) over all possible \(x\) such that
|
|
\(R(x, t)\), for some fixed \(t\) (in the schema, <span class="extract"><span class="extract-syntax">*2</span></span>).
|
|
</p>
|
|
|
|
<p class="commentary">If we can't do this, it will have to fall back on the brute force method of
|
|
looping over all \(x\) in the left domain of \(R\) and testing every possible \(R(x, t)\).
|
|
</p>
|
|
|
|
<pre class="displayed-code all-displayed-code code-font">
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<span class="reserved-syntax">int</span><span class="plain-syntax"> </span><span class="function-syntax">BinaryPredicates::write_optimised_loop_schema</span><span class="plain-syntax">(</span><span class="reserved-syntax">i6_schema</span><span class="plain-syntax"> *</span><span class="identifier-syntax">sch</span><span class="plain-syntax">, </span><span class="reserved-syntax">binary_predicate</span><span class="plain-syntax"> *</span><span class="identifier-syntax">bp</span><span class="plain-syntax">) {</span>
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<span class="plain-syntax"> </span><span class="reserved-syntax">if</span><span class="plain-syntax"> (</span><span class="identifier-syntax">bp</span><span class="plain-syntax"> == </span><span class="identifier-syntax">NULL</span><span class="plain-syntax">) </span><span class="reserved-syntax">return</span><span class="plain-syntax"> </span><span class="identifier-syntax">FALSE</span><span class="plain-syntax">;</span>
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<span class="plain-syntax"> </span><span class="named-paragraph-container code-font"><a href="3-bp.html#SP18_1" class="named-paragraph-link"><span class="named-paragraph">Try loop ranger optimisation</span><span class="named-paragraph-number">18.1</span></a></span><span class="plain-syntax">;</span>
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<span class="plain-syntax"> </span><span class="named-paragraph-container code-font"><a href="3-bp.html#SP18_2" class="named-paragraph-link"><span class="named-paragraph">Try loop parent optimisation subject to a proviso</span><span class="named-paragraph-number">18.2</span></a></span><span class="plain-syntax">;</span>
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<span class="plain-syntax"> </span><span class="reserved-syntax">return</span><span class="plain-syntax"> </span><span class="identifier-syntax">FALSE</span><span class="plain-syntax">;</span>
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<span class="plain-syntax">}</span>
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</pre>
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<p class="commentary firstcommentary"><a id="SP18_1" class="paragraph-anchor"></a><b>§18.1. </b>Some relations \(R\) provide a "ranger" routine, <span class="extract"><span class="extract-syntax">R</span></span>, which is such that
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<span class="extract"><span class="extract-syntax">R(t)</span></span> supplies the first "child" of \(t\) and <span class="extract"><span class="extract-syntax">R(t, n)</span></span> supplies the next
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"child" after \(n\). Thus <span class="extract"><span class="extract-syntax">R</span></span> iterates through some linked list of all the
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objects \(x\) such that \(R(x, t)\).
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</p>
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<p class="commentary"><span class="named-paragraph-container code-font"><span class="named-paragraph-defn">Try loop ranger optimisation</span><span class="named-paragraph-number">18.1</span></span><span class="comment-syntax"> =</span>
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</p>
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<pre class="displayed-code all-displayed-code code-font">
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<span class="plain-syntax"> </span><span class="reserved-syntax">if</span><span class="plain-syntax"> (</span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">loop_parent_optimisation_ranger</span><span class="plain-syntax">) {</span>
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<span class="plain-syntax"> </span><a href="3-cs.html#SP5_1" class="function-link"><span class="function-syntax">Calculus::Schemas::modify</span></a><span class="plain-syntax">(</span><span class="identifier-syntax">sch</span><span class="plain-syntax">,</span>
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<span class="plain-syntax"> </span><span class="string-syntax">"for (*1=%s(*2): *1: *1=%s(*2,*1))"</span><span class="plain-syntax">,</span>
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<span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">loop_parent_optimisation_ranger</span><span class="plain-syntax">,</span>
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<span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">loop_parent_optimisation_ranger</span><span class="plain-syntax">);</span>
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<span class="plain-syntax"> </span><span class="reserved-syntax">return</span><span class="plain-syntax"> </span><span class="identifier-syntax">TRUE</span><span class="plain-syntax">;</span>
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<span class="plain-syntax"> }</span>
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</pre>
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<ul class="endnotetexts"><li>This code is used in <a href="3-bp.html#SP18">§18</a>.</li></ul>
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<p class="commentary firstcommentary"><a id="SP18_2" class="paragraph-anchor"></a><b>§18.2. </b>Other relations make use of the I6 object tree, in cases where \(R(x, t)\)
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is true if and only if \(t\) is an object which is the parent of \(x\) in the
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I6 object tree and some routine associated with \(R\), called its
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proviso <span class="extract"><span class="extract-syntax">P</span></span>, is such that <span class="extract"><span class="extract-syntax">P(x) == t</span></span>. For example, worn-by(\(x\), \(t\))
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is true iff \(t\) is the parent of \(x\) and <span class="extract"><span class="extract-syntax">WearerOf(x) == t</span></span>. The proviso
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ensures that we don't falsely pick up, say, items carried by \(t\) which
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aren't being worn, or aren't even clothing.
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</p>
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<p class="commentary"><span class="named-paragraph-container code-font"><span class="named-paragraph-defn">Try loop parent optimisation subject to a proviso</span><span class="named-paragraph-number">18.2</span></span><span class="comment-syntax"> =</span>
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</p>
|
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<pre class="displayed-code all-displayed-code code-font">
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<span class="plain-syntax"> </span><span class="reserved-syntax">if</span><span class="plain-syntax"> (</span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">loop_parent_optimisation_proviso</span><span class="plain-syntax">) {</span>
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<span class="plain-syntax"> </span><a href="3-cs.html#SP5_1" class="function-link"><span class="function-syntax">Calculus::Schemas::modify</span></a><span class="plain-syntax">(</span><span class="identifier-syntax">sch</span><span class="plain-syntax">,</span>
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<span class="plain-syntax"> </span><span class="string-syntax">"objectloop (*1 in *2) if (%s(*1)==parent(*1))"</span><span class="plain-syntax">,</span>
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<span class="plain-syntax"> </span><span class="identifier-syntax">bp</span><span class="plain-syntax">-></span><span class="element-syntax">loop_parent_optimisation_proviso</span><span class="plain-syntax">);</span>
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<span class="plain-syntax"> </span><span class="reserved-syntax">return</span><span class="plain-syntax"> </span><span class="identifier-syntax">TRUE</span><span class="plain-syntax">;</span>
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<span class="plain-syntax"> }</span>
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</pre>
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<ul class="endnotetexts"><li>This code is used in <a href="3-bp.html#SP18">§18</a>.</li></ul>
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