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This is needed as a first step to refactor and unify the obligation
save path and state; in particular `Equations` is a heavy user of
Hooks to modify obligations state, thus in order to make the hook
aware of this we need to place the obligation state before the hook.
As a good side-effect, `inline_private_constants` and `Hook.call` are
not exported from `Declare` anymore.
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The API in `DeclareDef` should become the recommended API in `Declare`.
This greatly reduces the exposure of internals; we still have a large
offender in `Lemmas` but that will be taken care of in the next
commit; effectively removing quite some chunks from `declare.mli`.
This PR originally introduced a dependency cycle due to:
- `Declare`: uses `Vernacexpr.decl_notation list`
- `Vernacexpr`: uses `ComHint.hint_expr`
- `ComHint`: uses `Declare.declare_constant`
This is a real cycle in the sense that `ComHint` would have also move
to `DeclareDef` in the medium term.
There were quite a few ways to solve it, we have chosen to
move the hints ast to `Vernacexpr` as it is not very invasive
and seems consistent with the current style.
Alternatives, which could be considered at a later stage are for
example moving the notations AST to `Metasyntax`, having `Declare` not
to depend on `Vernacexpr` [which seems actually a good thing to do in
the medium term], reworking notation support more deeply...
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This provides linking, appropriate coloring and appropriate hovering
in coqdoc documents.
In particular, this fixes #7697.
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Co-authored-by: Jasper Hugunin <jasper@hugunin.net>
Co-authored-by: Gaëtan Gilbert <gaetan.gilbert@skyskimmer.net>
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Preparation of obligation/program entries requires low-level
manipulation that does break the abstraction over `proof_entry`; we
thus introduce `prepare_obligation`, and move the code that prepares
the obligation entry to its own module.
This seems to improve separation of concerns, and helps clarify the
two of three current models in which Coq operates w.r.t. definitions:
- single, ground entries with possibly mutual definitions [regular lemmas]
- single, non-ground entries with possibly mutual definitions [obligations]
- multiple entries [equations]
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In anticipation for more consolidation of duplicated functionality.
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Add headers to a few files which were missing them.
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We typecheck it literally the previous line...
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This moves the encoding of "n" as "arg_n" closer to the user interface level.
Note however that Constrintern.build_impl is not able yet to use ExplByPos.
See further commits.
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This helps extraction by not building sigT which can lower to Prop by
template polymorphism.
Bug #10757 can probably still be triggered by using module functors to
hide that we're using Prop from Program Fixpoint but that's probably
unfixable without fixing extraction vs template polymorphism in
general.
In passing we notice that Program doesn't know how to telescope SProp
arguments, we would need a bunch of variants of sigma types to deal
with it (or use Box?) so let's figure it out some other time.
We also reuse the universe instance to avoid generating a bunch of
short-lived universes in the universe polymorphic case.
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This lets us remove the passing around of "status" in comassumption
and generally makes highlighting axiom adding lines in coqide more
reliable as there's no need for per-command code.
If a command adds multiple axioms it will emit AddedAxiom multiple
times, this doesn't seem to be a problem though.
We may wonder if "Fail Fail Axiom" should be highlighted as
"Axiom" (both before and after this commit it is).
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We continue over the previous commit and remove redundant
`structured_fixpoint_expr` record in favor of the one used in the AST.
This removes some term-shuffling, tho we still have discrepancies
related to adjustments on the recursive annotation.
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We turn the tuples used for (co)-fixpoints into records, cleaning up
their users.
More cleanup is be possible, in particular a few functions can now
shared among co and fixpoints, also `structured_fixpoint_expr` could
like be folded into the new record.
Feedback on the naming of the records fields is welcome.
This is a step towards cleaning up code in `funind`, as it is the main
consumer of this data structure, as it does quite a bit of fixpoint
manipulation.
cc: #6019
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Not pretty, but it had to be done some day, as `Globnames` seems to be
on the way out.
I have taken the opportunity to reduce the number of `open` in the
codebase.
The qualified style would indeed allow us to use a bit nicer names
`GlobRef.Inductive` instead of `IndRef`, etc... once we have the
tooling to do large-scale refactoring that could be tried.
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They are clearly not at the same importance level, thus we use a named
parameter and isolate the kinds as to allow further improvements and
refactoring.
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We move the bulk of `Decl_kinds` to a better place [namely
`interp/decls`] and refactor the use of this information quite a bit.
The information seems to be used almost only for `Dumpglob`, so it
certainly should end there to achieve a cleaner core.
Note the previous commits, as well as the annotations regarding the
dubious use of the "variable" data managed by the `Decls` file.
IMO this needs more work, but this should be a good start.
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We turn the hook parameter into a record, making more explicit the
capture of data in hooks as they only take one parameter now
This is a fine-tuning but provides some small advantages, and allows
us to tweak the hook type with less breakage.
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We split `{goal,declaration,assumption}_kind` into their
components. This makes sense as each part of this triple is handled by
a different layer, namely:
- `polymorphic` status: necessary for the lower engine layers;
- `locality`: only used in `vernac` top-level constants
- `kind`: merely used for cosmetic purposes [could indeed be removed /
pushed upwards]
We also profit from this refactoring to add some named parameters to
the top-level definition API which is quite parameter-hungry.
More refactoring is possible and will come in further commits, in
particular this is a step towards unifying the definition / lemma save path.
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This allows to desynchronize the kernel-facing API from the proof-facing one.
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obligation ones.
Ack-by: ejgallego
Ack-by: gares
Reviewed-by: ppedrot
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This way both `Lemmas` and `DeclareObl` can depend on it, removing one
more difficulty on the unification of terminators.
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We move obligation declaration-specific functions to their own
file. This way, `Lemmas` can access them, and in the next part we can
factorize common parts in the save proof.
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This impacts a lot of code, apparently in the good, removing several
conversions back and forth constr.
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We make clearer which arguments are optional and which are mandatory.
Some of these representations are tricky because of small differences
between Program and Function, which share the same infrastructure.
As a side-effect of this cleanup, Program Fixpoint can now be used with
e.g. {measure (m + n) R}. Previously, parentheses were required around
R.
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This is the right thing to do until we refine the program architecture
a bit to use EConstr.
Closes #9163 .
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Kernel should be mostly correct, higher levels do random stuff at
times.
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This is intended to be separate from handling of implicit binders.
The remaining uses of declare_manual_implicits satisfy a lot of
assertions, giving the possibility of simplifying the interface in the
future.
Two disabled warnings are added for things that currently pass silently.
Currently only Mtac passes non-maximal implicits to
declare_manual_implicits with the force-usage flag set. When implicit
arguments don't have to be named, should move Mtac over to
set_implicits.
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Supersedes #8718.
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We remove all calls to `Flags.is_program_mode` except one (to compute
the default value of the attribute). Everything else is passed
explicitely, and we remove the special logic in the interpretation loop
to set/unset the flag.
This is especially important since the value of the flag has an impact on
proof modes, so on the separation of parsing and execution phases.
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This is a pre-requisite to use automated formatting tools such as
`ocamlformat`, also, there were quite a few places where the comments
had basically no effect, thus it was confusing for the developer.
p.s: Reading some comments was a lot of fun :)
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We make `declaration_hook`s optional arguments everywhere, and thus we
avoid some "fake" functions having to be passed.
This identifies positively the code really using hooks [funind,
rewrite, coercions, program, and canonicals] and helps moving toward
some hope of reification.
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terms
This is necessary for programs like Equations that call add_definition
and want to later update in their hook some separate datastructures
which refer to the obligations that are defined by Program. We give back
a map from obligation name to a constr defined in the program's universe
state which the hook returns as well. (Obligation names also correspond
to undefined evars in the original terms through
Obligations.eterm_obligations).
Using this, I can avoid ucontext_of_aucontext in Equations, allowing PR
#8601 to go through.
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for the determination of evars that can be turned into obligations.
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Lintian found some spelling errors in the Debian packaging for coq. Fix
them most places they appear in the current source. (Don't change
documentation anchor names, as that would invalidate external
deeplinks.)
This also fixes a bug in coqdoc: prior to this commit, coqdoc would
highlight `instanciate` but not `instantiate`.
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"Declaration" hooks can be polymorphic on their return type, however
this facility doesn't seem used in the codebase.
We thus remove the polymorphism with the hope to be able to reify the
control later on.
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We refactor the `Coqlib` API to locate objects over a namespace
`module.object.property`.
This introduces the vernacular command `Register g as n` to expose the
Coq constant `g` under the name `n` (through the `register_ref`
function). The constant can then be dynamically located using the
`lib_ref` function.
Co-authored-by: Emilio Jesús Gallego Arias <e+git@x80.org>
Co-authored-by: Maxime Dénès <mail@maximedenes.fr>
Co-authored-by: Vincent Laporte <Vincent.Laporte@fondation-inria.fr>
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While we were adding a new field into `QuestionMark`, we
decided to go ahead and refactor the constructor to hold
an actual record. This record now holds the name, obligations, and
whether the evar represents a missing record field.
This is used to provide better error messages on missing record
fields.
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reference was defined as Ident or Qualid, but the qualid type already
permits empty paths. So we had effectively two representations for
unqualified names, that were not seen as equal by eq_reference.
We remove the reference type and replace its uses by qualid.
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Continuing the interface cleanup we place `Constrexpr` in the
internalization module, which is the one that eliminates it.
This slims down `pretyping` considerably, including removing the
`Univdecls` module which existed only due to bad dependency ordering
in the first place. Thanks to @ Skyskimmer we also remove a duplicate
`univ_decl` definition among `Misctypes` and `UState`.
This is mostly a proof of concept yet as it depends on quite a few
patches of the tree. For sure some tweaks will be necessary, but it
should be good for review now.
IMO the tree is now in a state where we can could easy eliminate more
than 10 modules without any impact, IMHO this is a net saving API-wise
and would help people to understand the structure of the code better.
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This API is a bit strange, I expect it will change at some point.
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We forbid calling `EConstr.to_constr` on terms that are not evar-free,
as to progress towards enforcing the invariant that `Constr.t` is
evar-free. [c.f. #6308]
Due to compatibility constraints we provide an optional parameter to
`to_constr`, `abort` which can be used to overcome this restriction
until we fix all parts of the code.
Now, grepping for `~abort:false` should return the questionable
parts of the system.
Not a lot of places had to be fixed, some comments:
- problems with the interface due to `Evd/Constr` [`Evd.define` being
the prime example] do seem real!
- inductives also look bad with regards to `Constr/EConstr`.
- code in plugins needs work.
A notable user of this "feature" is `Obligations/Program` that seem to
like to generate kernel-level entries with free evars, then to scan
them and workaround this problem by generating constants.
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