forked from GitHub/comp-syntax-gu-mlt
88 lines
3.5 KiB
Markdown
88 lines
3.5 KiB
Markdown
# Lab 2: Multilingual generation and translation
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This lab corresponds to Chapters 5 to 9 of the Notes, but follows them only loosely.
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Therefore we will structure it according to the exercise sessions
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rather than chapters.
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The abstract syntax is given in the subdirectory grammars/abstract/
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## After lecture 6
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1. Design a morphology for the main lexical types (N, A, V) with parameters and a couple of paradigms.
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2. Test it by implementing the lexicon in the MicroLang module. You need to define lincat N,A,V,V2 as well as the paradigms in MicroResource.
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*To deliver*: the lexicon part of files MicroGrammarX.gf and MicroResourceX.gf for your language of choice X. Follow the structure of MicroGrammarEng and MicroResourceEng when preparing these.
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## After lecture 7
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1. Define the linearization types of main phrasal categories - the remaining categories in MicroLang.
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2. Define the rest of the linearization rules in MicroLang.
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*To deliver*: MicroLangX and MicroResourceX for your language of choice, with the lexicon part from Session 5 completed with syntax part.
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## After lecture 8
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1. Try out the applications in `../python` and read its README carefully.
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2. Add a concrete syntax for your language to one of the grammars
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in `../python/`, either `Query` or `Draw`.
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The simplest way to do this
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is first to copy the `Eng` grammar and then to change the words; the
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syntax may work well as it is. Even though it can be a bit unnatural,
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it should be in a wide sense natural.
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3. Compile the grammar with `gf -make Query???.gf` so that your grammar
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gets included (the same for `Draw`).
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4. Generate phrases in GF by first importing your pgf file and then
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issuing the command `gt | l -treebank`; fix your grammar if it looks
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too bad.
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5. Test the corresponding Python application with your language.
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The Python code with embedded GF grammars will be explained in a greater
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detail in Lecture 9.
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*To deliver*: your grammar module.
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*Deadline*: 29 May 2024. Demo your grammars (both Micro and this one) at
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the last lecture of the course!
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## A method for testing your Micro grammar
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Since MicroLang is a proper part of the RGL, it can be easily implemented as an application grammar.
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How to do this is shown in `grammar/functor/`, where the implementation consists of two files:
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- `MicroLangFunctor.gf` which is a generic implementation working for all RGL languages,
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- `MicroLangFunctorEng.gf` which is a *functor instantiation* for English, easily reproduciple for other languages than `Eng`.
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To use this for testing, you can take the following steps:
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1. Build a functor instantiation for your language by copying `MicroLangFunctorEng.gf` and changing `Eng` in the file name and inside the file to your language code.
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2. Use GF to create a testfile by random generation:
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```
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$ echo "gr -number=1000 | l -tabtreebank" | gf english/MicroLangEng.gf functor/MicroLangFunctorEng.gf >test.tmp
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```
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3. Inspect the resulting file `test.tmp`.
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But you can also use Unix `cut` to create separate files for the two versions of the grammar and `diff` to compare them:
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```
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$ cut -f2 test.tmp >test1.tmp
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$ cut -f3 test.tmp >test2.tmp
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$ diff test1.tmp test2.tmp
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52c52
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< the hot fire teachs her
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---
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> the hot fire teaches her
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69c69
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< the man teachs the apples
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---
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> the man teaches the apples
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122c122
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```
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As seen from the result in this case, our implementation has a wrong inflection of the verb "teach".
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The Mini grammar can be tested in the same way, by building a reference implementation using the functor in `functor/`.
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