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<Paper uid="P87-1029">
  <Title>CONSTRAINTS ON THE GENERATION OF ADJUNCT CLAUSES</Title>
  <Section position="4" start_page="0" end_page="207" type="metho">
    <SectionTitle>
2 The notion of &amp;quot;purpose&amp;quot; is of course ambiguous between
</SectionTitle>
    <Paragraph position="0"> &amp;quot;intention&amp;quot; and &amp;quot;function&amp;quot;.</Paragraph>
  </Section>
  <Section position="5" start_page="207" end_page="208" type="metho">
    <SectionTitle>
2. DESCRIPTION OF THE CONSTRUCTION
</SectionTitle>
    <Paragraph position="0"> Before addressing the generation of adjunct infinitive clauses, it is necessary to define our terms and distinguish the different constructions. We will begin by discussing purpose clauses 3 and then contrast them with rationale and infinitival relative clauses.</Paragraph>
    <Section position="1" start_page="207" end_page="207" type="sub_section">
      <SectionTitle>
2.1 Purpose clauses
</SectionTitle>
      <Paragraph position="0"> A purpose clause (PC) expresses the purpose or intended use of a particular object which the main clause is in some sense &amp;quot;about&amp;quot;. It is attached as a daughter of VP and is fixed in VP final position. It has the following variants, distinguished trivially by the position of the gap: 4 (4) a. I bought the shelfi \[e i to hold my cookbooks\] b. I bought the cookies i \[for Mary to eat ei\] e. I bought the cushion i \[for Mary to sit on eL1 The sentences in (4) demonstrate that PC has one obligatory gap, which can occur in any of its NP argument positions: subject position, as in (a);5 direct object position, as in (b); or prepositional object position, as in (c). The gap is coreferential with CcontroIled by&amp;quot;) the direct object of an SVO main clause, or with the subject of a passive or unaccusative main clause. This pattern of antecedents has been variously characterized as deep structure (direct) objects (Huettner, 1987; implicitly in Rappaport &amp; Levin, 1986); as arguments bearing the thematic role of Theme (Faraci, 1974; Williams, 1980); or as entities whose availability for further manipulation plays a part in the semantics of the sentence (Jones, 1985).</Paragraph>
      <Paragraph position="1"> A PC with its obligatory gap in non-subject position (like those in 4b,c above) may have an additional subject gap, as shown in (5): (5) lj bought it i \[ej to eat ei\] This second gap is optional, and the determination of its antecedent is more complex than the controller of the obligatory gap. In (5) the PC subject is coindexed with the matrix (main clause) subject; however, (6) shows that an indirect object takes 3 The purpose clause has also been known as a &amp;quot;re~oactive purpose clause&amp;quot;, for example in Jespersen (1940). Jespersen reserves the term &amp;quot;purpose clause&amp;quot; for what we are calling a rationale clause; however, our terminology dates at least from Faraci (1974) and is used by Bach (1982) and Jones (1985)  among others.</Paragraph>
      <Paragraph position="2"> 4 The symbol &amp;quot;e&amp;quot; stands for an empty category, or gap, in an argument position. The subscripts indicate coreference. 5 A PC with a subject gap is often called an objective clause. precedence over the subject as controller for tnls gap: 6 (6) a. I gave it i to Mary k \[e k to read ell b. *lj gave it i to Mary k \[ej to read ei\] When there is no suitable antecedent in the matrix, the optional subject gap will have arbitrary or indefinite reference: (7) a. This box i was purchased \[ear b to keep supplies in ell  b. These doughnuts i are \[ear b to eat ell The set of antecedents for the optional subject gap has been characterized configurationally, as the &amp;quot;closest&amp;quot; NP argument after the obligatory gap has found an antecedent (Chomsky, 1980) ; thematically, as the highest NP argument on a &amp;quot;thematic hierarchy&amp;quot; ranging from Goal to &amp;quot;arbitrary&amp;quot; (Nishigauchi, 1984); and pragmatically, as the person in whose control the Theme is at the time of the action (Ladusaw &amp; Dowty, 1985).</Paragraph>
    </Section>
    <Section position="2" start_page="207" end_page="208" type="sub_section">
      <SectionTitle>
2.2 Rationale Clause
</SectionTitle>
      <Paragraph position="0"> Easily confused with the purpose clause is the rationale clause (RatC), also known as an &amp;quot;in order to&amp;quot; clause or result clause. RatC can be distinguished from PC by the fact that RatC permit only subject gaps, whose antecedent is (usually) the matrix subject, rather than its object. Note the ambiguity of the following: (8) Amy Lou i took Mildredj to the zoo ei/j to feed the lions. On the PC reading, Mildred is feeding the lions; on the RatC reading Amy Lou is feeding the lions (possibly using Mildred as lion food). A RatC reading may always be paraphrased with in order, as in (9), to rule out the PC reading: (9) Amy Lou i took Mildredj to the zoo in order el~. j to feed the lions.</Paragraph>
      <Paragraph position="1"> In contrast with PC, the controller of a RatC gap need not be any argument of the main verb, but can be the matrix predicate as a whole: (10) Mildred was thrown in the lion cage to keep her from talldng.</Paragraph>
      <Paragraph position="2"> 6 Notice that in sentences like (6a), it is the status of Mary as indirect object which allows it to control the subject gap. Prepositional objects which are not indirect objects cannot be controllers here, as shown in (a) below, while indirect objects which are not prepositional objects may still control the PC subject ((b) below).</Paragraph>
      <Paragraph position="3"> a. Ij got the bonesifrom Paul k \[ej/*k to feed e i to the dog\] b. lj gave Mary k this very dull book i \[e*j/k to read ei\]  Further, the RatC subject gap is optional: (i 1) Elroy killed Oscar in order for Sylvia to escape. Finally, RatC are daughters of S, and not VP, and may therefore be preposed alone (12b) or otherwise isolated from the VP (12c): (12) a. Helga carries a hat pin to protect herself.</Paragraph>
      <Paragraph position="4"> b.To protect herself, Helga carries a hat pin.</Paragraph>
      <Paragraph position="5"> c.What Helga does to protect herself is carry a hat pin.</Paragraph>
    </Section>
    <Section position="3" start_page="208" end_page="208" type="sub_section">
      <SectionTitle>
2.3 Infinitival Relative Clauses
</SectionTitle>
      <Paragraph position="0"> Infinitival Relatives (IR) are superficially very similar to purpose clauses, especially in the patterning of their gaps. Like tensed relatives, they are daughters of NP; if the NP in question is in the VP, IR can be easily mistaken for PC:  (13) a. IR: I bought \[ a pan i \[e to fry omelets in ei\] \] b. PC: 1 bought \[ apart i \] \[e to fry omelets in e i (14) a. IR: Elroy really needs \[ a woman i \[ e i to hoM his hana l l b. PC: Elroy really needs \[ a woman i \] \[ e i to hold his  hand l IR, like PC, have one obligatory gap in either object (13a) or subject (14a) position, which is controlled, not by the matrix object (as in PC), but by the head of the NP containing the relative (just as in a tensed relative clause). If the obligatory gap is in object position, there may or not be a subject gap as well. This optional subject gap is controlled exactly like the optional gap in a PC.</Paragraph>
      <Paragraph position="1"> An IR may be distinguished from a PC by making its containing NP the subject of the matrix sentence; PC may not occur in post-subject position. Another test is to make pro-nominal or definite the antecedent of the obligatory gap; IR may only have indefinite heads.</Paragraph>
    </Section>
    <Section position="4" start_page="208" end_page="208" type="sub_section">
      <SectionTitle>
2.4 What the constructions mean
</SectionTitle>
      <Paragraph position="0"> Three things are being communicated when one uses a purpose clause: an event of acquisition or use, an object (the thing which is being acquired or used), and the purpose to which the object will be put. That these elements form a deliberate complex and are not independent is made clear by attempting to omit either of the first two elements while retaining the syntactic form that gives the purpose clause its special character. In (15a), the object is not explicit in the matrix clause; in (15b), the matrix does not convey any sense of possession. Both are ungrammatical.</Paragraph>
      <Paragraph position="1"> (15) a. *I went to the bookstore to read on the plane.</Paragraph>
      <Paragraph position="2"> b. *Peter read a book for Helga to read on the plane.</Paragraph>
      <Paragraph position="3"> The infinitival relative, in contrast, has only two elements: an object and its purpose. Furthermore, there is no particular event that this purpose is specific to, i.e. no special relationship between the matrix clause in which the object appears and the purpose expressed by the relative. 7 Consequently, the notion of purpose in an IR is narrower than in a PC, closer to the object's intrinsic function or unmarked use.</Paragraph>
      <Paragraph position="4"> The rationale clause differs from both the PC and IR by not being object centered at all. Instead, a RatC adjunct expresses the goal which the matrix action was intended to bring about.</Paragraph>
      <Paragraph position="5"> Note that as the various types of infinitive clauses become less deeply embedded, syntactically speaking, the scope of the expressed purpose becomes wider: from the standard function of an object, expressed within a noun phrase (IR); to the function some agent has imposed on an object, expressed in the verb phrase (PC); to the intended goal of the agent in performing the matrix activity, expressed in an Slevel adjunct (RatC).</Paragraph>
    </Section>
  </Section>
  <Section position="6" start_page="208" end_page="210" type="metho">
    <SectionTitle>
3. GENERATING THE CONSTRUCTIONS
</SectionTitle>
    <Paragraph position="0"> To analyse a construction for generation, we must consider what it means, or, put another way, consider why a speaker would choose to use it, especially given the subtleties of meaning that differentiate it from similar constructions. The next consideration, and the subject of the present section, is how the construction should be situated within the generation process: what decisions, made at what point or points in the process, contribute to the selection and realization of the construction as part of an utterance? We begin with an overview of how decision making is organized in our model of generation. We then look at how a descriptive treatment in terms of thematic roles could be turned into an algorithm for generation, and show that it fails to take advantage of the information that is available at the early stages of generation. A treatment tailored to generation is markedly simpler: creating a PC from a motivated message is easier than describing the end product.</Paragraph>
    <Paragraph position="1"> 7 An NP containing an infinitival relative clause is characteristically descriptive rather than referential; however, this has more to do with the restrictive nature of the relative than with the content of the matrix.</Paragraph>
    <Section position="1" start_page="209" end_page="209" type="sub_section">
      <SectionTitle>
3.1 Decision Making in Generation
</SectionTitle>
      <Paragraph position="0"> In generation, unlike comprehension, the speaker's appreciation of his situation, his goals, and the information that he wants to communicate are self-evident, rather than needing to be discovered.</Paragraph>
      <Paragraph position="1"> The core problem in generation is making decisions: knowing what decisions must be made, what information bears on them, what the alternative choices are and how they are to be represented.</Paragraph>
      <Paragraph position="2"> Carefully controlling the timing of when specific decisions are made offers the possibility of designing the generation process so as to achieve a very high level of efficiency. Forcing a decision too early before all of the information it requires is available may lead to guessing and later having to back up and undo that choice and any later ones that depended on it. Making a decision too late can mean missing opportunities to propagate information about the choice to other decisions that it should influence.</Paragraph>
      <Paragraph position="3"> Overall, the most pivotal and least constrained decisions should be made first, so that their consequences can be known soon enough to not hold up the others that are dependent on their choices.</Paragraph>
      <Paragraph position="4"> In our model of generation, this criterion has led us to the view that decisions about the information an utterance is to convey will be made before decisions about syntactic form or serial order. These early decisions typically include choices of wording and influence all aspects of a text's form. The output of.</Paragraph>
      <Paragraph position="5"> such decisions is expressed in an explicit representational level we call the &amp;quot;message level&amp;quot; (McDonald &amp; Vaughan, 1987). Decisions reflecting the surface ordering of the arguments are made in the mapping to the next level of representation, the surface structure. As this structure is traversed, decisions about the particular realization of the arguments are made, morphological specialization is done, and the text is output.</Paragraph>
    </Section>
    <Section position="2" start_page="209" end_page="209" type="sub_section">
      <SectionTitle>
3.2 Attempting to Adapt a Descriptive
Analysis
</SectionTitle>
      <Paragraph position="0"> In conventional transformational=generative analyses, the rules governing the occurrence of gaps in the constructions we are studying are characterized from a purely descriptive perspective. They do not try to determine which argument should be gapped, but rather where gaps may occur and what the antecedent of each gap will be. Directly adapting such an analysis to the generation task would involve complete specification of the surface structure followed by a multi-step matching algorithm to realize the gap(s).</Paragraph>
      <Paragraph position="1"> Of descriptive analyses, those couched in terms of thematic roles seem best suited for the generation of PC, since they allow a single description of the antecedent of the obligatory gap. A possible algorithm for locating gaps in PC would be as follows (assuming that arguments of the matrix verb are still accessible from within the adjunct and are annotated with their thematic roles): .</Paragraph>
      <Paragraph position="2"> .</Paragraph>
      <Paragraph position="3"> Gap the first argument in the PC which is an occurrence of the matrix Theme.</Paragraph>
      <Paragraph position="4"> a. If the PC subject matches the matrix Goal, gap it; or b. if there is no matrix Goal and the PC subject matches the matrix Source or Location, gap it; or c. if there is no matrix Source or Location either, and the PC subject is given as &amp;quot;unspecified&amp;quot;, gap it.</Paragraph>
      <Paragraph position="5"> While for our purposes such an algorithm is an im-provement over a structural description, it is still unnecessarily complicated. For instance, there is no need to search the matrix clause for its theme since when generating we already know trivially which argument to obligatorily gap--the one that the purpose clause was chosen to express the purpose of.</Paragraph>
    </Section>
    <Section position="3" start_page="209" end_page="210" type="sub_section">
      <SectionTitle>
3.3 Choosing the construction
</SectionTitle>
      <Paragraph position="0"> Since, as we have discussed, there are semantic differences among PC, IR and RatC, the choice among them is more than just stylistically motivated syntactic variation. This means that they will be distinguished at the message level, since that is where an utterance's information content is determined. We have also argued that the PC and its matrix clause form a conceptual unit centering around the object whose use is in question. If that integrity is not to be left to chance, that conceptual unit must be chosen as a piece, making the PC an atomic resource that the English language provides, like adjectives or the copular clause.</Paragraph>
      <Paragraph position="1"> At the message level then, we have a three part relation embodied in a &amp;quot;realization specification&amp;quot; (see example in Section Four), which stipulates that the statement of possession or access to an object and the statement of the purpose of that object are to be realized as main clause and PC respectively, with the occurrence of the object in the PC realized as a trace. The obligatory gap is thus inserted at the message level, and persists into surface structure, where realization of the two clauses as active, passive, etc.</Paragraph>
      <Paragraph position="2"> can take place without a subsequent costly calculation  of which structural position should be realized as a gap. (We will discuss the optional gap below). Since the tense of the adjunct is left unspecified in the realization specification, it will surface as an infinitive.</Paragraph>
      <Paragraph position="3"> Delaying the realization of the two clauses until the linguistic context governing that realiation has been established provides versatility. For example, the whole construction could be a complement to another verb, as in (16a), or to another infinitival adjunct, such as the rationale clause shown in (16b): (16) a. I wanted to buy a book to read on the plane.</Paragraph>
      <Paragraph position="4"> b. I went to the bookstore to buy a book to read on the plane.</Paragraph>
      <Paragraph position="5"> One potential problem with this analysis is that the lack of prior constraint leaves open the possibility of generating rather awkward constructions, such as the following: (17) A book was bought by me to read on the plane.</Paragraph>
      <Paragraph position="6"> It is our intuition, however, that the awkwardness of this sentence comes from a lack of motivation for the passive rather than any problem with the construction as a whole. Without a motivated source, this construction would never be generated; consequently we need not address how to block it. We can use this sort of argument to great advantage when working in a generation framework, which is one of the reasons why it provides a better model of how language is actually produced than the usual linguistic strategy of free generation with surface level filters. The obligatory gap in the PC can (and should) be handled at the message level because (1) at that point all the information it requires is available, (2) no further information bearing on the identification of the argument to be gapped will become available later during realization (i.e. there is nothing gained by waiting), and (3) the means for carrying out the gapping operation are at hand (see next section). The optional subject gap is a different matter. This gap is licensed only if its antecedent is explicitly mentioned in the main clause, a fact that is not known at the message level. (More to the point, having known the information when the message was being assembled was unlikely to have changed the decisions that were made; consequently there is no utility to making it explicit there.) Since the information needed to consider gapping the PC's subject is not available until the matrix clause has been realized, the gapping operation must be done at the level of surface structure rather than the message level. By relying on the fact that only wellformed, motivated messages are ever going to be constructed, a surface-level rule for the operation can be compactly stated: &amp;quot;gap if the subject is mentioned in the matrix or is arbitrary (and non-emphatic). ''8 The single gap of a rationale clause is handled very much like the optional gap of the purpose clause. The planner is responsible for the overall relationship between an action and an intended result of that action. When the message is converted to a surface structure, it is realized as a main and a subordinate clause; the main clause, as the head of the bundle, is built first, and the RatC is then attached either before or after it. During traversal of the tree, the RatC subject will be gapped if it matches the main clause subject or the main clause as a whole. Once again, the information needed to determine whether to gap is not available until late in the process.</Paragraph>
    </Section>
  </Section>
  <Section position="7" start_page="210" end_page="211" type="metho">
    <SectionTitle>
4. EXAMPLE
</SectionTitle>
    <Paragraph position="0"> In this section we describe the particulars of our implementation of purpose clauses in the natural language generation system, Mumble. As we discussed in the previous section, this construction originates from a three part relation between an event, an object, and its purpose. At the message level, the interface to Mumble, the schema shown below in Figure One takes these three arguments and builds a realization specification for a purpose clause:  8 &amp;quot;Emphatic&amp;quot; refers to both marked stress, as in (a), or an unusual situation, as in (b), where the possessor is not the intended user: a. I bought that dinosaur for me tO play with (so keep your off it: ) b. I bought David a dinosaur for rne to play with (when 1 go over to his house). In a generation model, which assumes the generator is working in the service of some coherent underlying program, the information of when something is emphatic, or marked, is always know and can be made available to the linguistic processes, and would be necessary in any event in order to generate speech.</Paragraph>
    <Paragraph position="1">  Figure Two shows the pretty printing of the realization specification created by this schema in order to generate the following text:</Paragraph>
  </Section>
  <Section position="8" start_page="211" end_page="211" type="metho">
    <SectionTitle>
FIGURE TWO
</SectionTitle>
    <Paragraph position="0"> In order to make the example clearer, we have used the&amp;quot; short hand notation #&lt; ... &gt; to indicate an underlying object from which a specification will be planned, rather than writing out its specification in all its detail. In the context of an actual underlying program generating from internally modeled objects, these could be unplanned specifications of objects, with planning and realization interleaved. However, as this example presently runs in our &amp;quot;stand-alone&amp;quot; interface, all the details are spelled out in the realization specification.</Paragraph>
    <Paragraph position="1"> The bundle representation allows the planner to group component parts of the utterance. The head of the bundle (#1) is a constraint expression specifying the matrix clause. Accessories (#2) contain linguistically marked information, such as tense and NP number. The further-specification field (#3) specifies the adjunct. Note that the argument for #&lt;book&gt; (#4) has already been constrained to be a trace. The attachment function (#5) indicates how the further specification is related to the head. In this instance the attachment function is the particular attachment point PURPOSE-OF (shown in Figure Three), which splices a new element, labeled FOR-INFINITIVE, into the surface structure as the last element of the VP.</Paragraph>
  </Section>
  <Section position="9" start_page="211" end_page="211" type="metho">
    <SectionTitle>
FIGURE THREE
</SectionTitle>
    <Paragraph position="0"> Every specification has a realization function and a list of arguments. In general, the realization function is a class of choices which defines the set of initial trees (Joshi, 1985) which can realize the specification. The choices are annotated with the grammatical and contextual characteristics which distinguish their use. For example READ (#6), through a curried realization class (shown in Figure Four), uses the class AGENT-VERB-THEME 9</Paragraph>
  </Section>
  <Section position="10" start_page="211" end_page="212" type="metho">
    <SectionTitle>
FIGURE FOUR
</SectionTitle>
    <Paragraph position="0"> The message is realized in stages. First, the head of the bundle (#1) is realized by making a choice in its class (similar to that for READ in Figure Four) and building the surface structure representation for that choice, shown below in Figure Five.</Paragraph>
    <Paragraph position="1">  The accessories (#2) are then processed, which in this example sets the tense. Next the further specification is spliced in using the indicated attachment point. The surface structure is traversed, and embedded arguments are realized as they are reached. The result of these operations and the traversal up to the subject of the adjunct is shown in Figure Six. Note that the text of the main clause has been morphologically specialized and output as a side effect of the traversal, the surface structure for the argument NPs has been chosen and built, and the trace for the obligatory gap is already in place.</Paragraph>
    <Paragraph position="2"> At this point the optional subject gap of the adjunct is considered. Since &amp;quot;Helga&amp;quot; is available as an explicit argument of the matrix clause, the subject is realized as a trace and the &amp;quot;for&amp;quot; is supressed.</Paragraph>
  </Section>
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