73 lines
3 KiB
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73 lines
3 KiB
Plaintext
Andrea Vezzosi <vezzosi@chalmers.se> Tue, Apr 24, 2018 at 2:02 PM
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To: Frederik Hanghøj Iversen <fhi.1990@gmail.com>
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Cc: Thierry Coquand <coquand@chalmers.se>
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On Tue, Apr 24, 2018 at 12:57 PM, Frederik Hanghøj Iversen
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<fhi.1990@gmail.com> wrote:
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> I've written the first few sections about my implementation. I was wondering
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> if you could have a quick look at it. You don't need to read it
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> word-for-word but I would like some indication from you if this is the sort
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> of thing you would like to see in the final report.
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Yes! I would say this very much fits the bill of what the main part of
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the report should be, then you could have a discussion section where
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you might put some analysis of the pros and cons of cubical, design
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choices you made, and your experience overall.
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I wonder if there should be some short introduction to Cubical Type
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Theory before this chapter, so you can introduce the Path type by
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itself and show some simple proof with it. e.g. how to get function
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extensionality.
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You mention a few "combinators" like propPi and lemPropF, you might
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want to call them just lemmas, so it's clearer that these can be
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proven in --cubical.
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>
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> I refer you specifically to "Chapter 2 - Implementation" on p. 6.
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>
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> In this chapter I plan to additionally include some text about the proof we
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> did that products are mere propositions and the proof about the two
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> equivalent notions of a monad.
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I've read the chapter up until 2.3 and skimmed the rest for now, but I
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accumulated some editing suggestions I copy here.
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Remember to look for things like these when you proof-read the rest :)
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You should be careful to properly introduce things before you use
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them, like IsPreCategory (I'd prefer if it took the raw category as
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argument btw) and its fields isIdentity, isAssociative, .. come up a
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bit out of the blue from the end of page 8.
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Maybe the easiest is to show the definition of IsPreCategory.
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Maybe give a type for propIsIdentity and mention the other prop* are similar.
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Also the notation "isIdentity_a" to apply projections is a bit unusual
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so it needs to be introduced as well.
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To be fair it would be simpler to stick to function application
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(though I see that it would introduce more parentheses),
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"The situation is a bit more complicated when we have a dependent
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type" could be more clear by being more specific:
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"The situation is a bit more complicated when the type of a field
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depends on a previous field"
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Here too it might be more concrete if you also give the code for IsCategory.
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In Path ( λ i → Univalent_{p i} ) isPreCategory_a isPreCategory_b
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I suggest parentheses around (p i), but also you should be consistent
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on whether you want to call the proof "p" or "p_{isPreCategory}",
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finally i'm guessing the two fields should be "isUnivalent" rather
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than "isPreCategory".
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You can cite the book on the specific definition of isEquiv,
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"contractible fibers" in section 4.4, the grad lemma is also from
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somewhere but I don't remember off-hand.
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You have not defined what you mean by _\~=_ and isomorphism.
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Cheers,
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Andrea
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[Quoted text hidden]
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