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obligation ones.
Ack-by: ejgallego
Ack-by: gares
Reviewed-by: ppedrot
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This makes the type of terminator simpler, progressing towards its
total reification.
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We move the role data into the evarmap instead.
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We rename modify to map [more in line with the rest of the system] and
make the endline function specific, as it is only used in one case.
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The main idea of this PR is to distinguish the types of "proof object"
`Proof_global.t` and the type of "proof object associated to a
constant, the new `Lemmas.t`.
This way, we can move the terminator setup to the higher layer in
`vernac`, which is the one that really knows about constants, paving
the way for further simplification and in particular for a unified
handling of constant saving by removal of the control inversion here.
Terminators are now internal to `Lemmas`, as it is the only part of
the code applying them.
As a consequence, proof nesting is now handled by `Lemmas`, and
`Proof_global.t` is just a single `Proof.t` plus some environmental
meta-data.
We are also enable considerable simplification in a future PR, as this
patch makes `Proof.t` and `Proof_global.t` essentially the same, so we
should expect to handle them under a unified interface.
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Typically instead of [start_proof : ontop:Proof_global.t option -> bla ->
Proof_global.t] we have [start_proof : bla -> Proof_global.pstate] and
the pstate is pushed on the stack by a caller around the
vernacentries/mlg level.
Naming can be a bit awkward, hopefully it can be improved (maybe in a
followup PR).
We can see some patterns appear waiting for nicer combinators, eg in
mlg we often only want to work with the current proof, not the stack.
Behaviour should be similar modulo bugs, let's see what CI says.
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The [int] is incorrect for list focusing, we could work a bit harder
to fix that. It's only used for pluralisation in the error message "no
such goal(s)" so we could also ignore the issue.
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We add the information on the proper layer by catching the low-level
exception.
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We change the API; after some thinking the tradeoff is clear in favor
of the more radical functional option from the start.
We also guarante the existence of a proof is by typing now,
so exceptions `NoCurrentProof` and `NoSuchGoal` are gone.
TODO: Review what's going on with focusing now.
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Kernel should be mostly correct, higher levels do random stuff at
times.
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I think the usage looks cleaner this way.
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In order to do so we place the polymorphic status and name in the
read-only part of the monad.
Note the added comments, as well as the fact that almost no part of
tactics depends on `proofs` nor `interp`, thus they should be placed
just after pretyping.
Gaëtan Gilbert noted that ideally, abstract should not depend on the
polymorphic status, should we be able to defer closing of the
constant, however this will require significant effort.
Also, we may deprecate nameless abstract, thus rending both of the
changes this PR need unnecessary.
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DAG nodes hold now a system state and a parsing state.
The latter is always passed to the parser.
This paves the way to decoupling the effect of commands on the parsing
state and the system state, and hence never force to interpret, say,
Notation.
Handling proof modes is now done explicitly in the STM, not by interpreting
VernacStartLemma.
Similarly Notation execution could be split in two phases in order to obtain a
parsing state without fully executing it (that requires executing all
commands before it).
Co-authored-by: Maxime Dénès <maxime.denes@inria.fr>
Co-authored-by: Emilio Jesus Gallego Arias <e+git@x80.org>
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This error was more or less a debug tool (checking that no tactic breaks
the invariant). But some users may want to support other models, see
https://github.com/Mtac2/Mtac2/pull/139 for an example discussion.
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workers
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- deprecate the old 5-tuple accessor in favor of a view record,
- move `name` and `kind` proof data from `Proof_global` to `Proof`,
this will prove useful in subsequent functionalizations of the
interface, in particular this is what abstract, which lives in the
monads, needs in order no to access global state.
- Note that `Proof.t` and `Proof_global.t` are redundant anyways.
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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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write_function
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This is inspired and an alternative to #8981. We consolidate the "open
proof" exception, allowing clients to explicitly capture it and
removing some ugly duplicated code in the way.
The `Solve Obligation tac` semantics are then tweaked as to removed
the wide-scope "catch-all" and indeed will now relay errors in `tac`
as it will only absorb tactics that don't error but fail to close the
goal such as `auto`. For the rest of the cases, we introduce a
warning, and may move to a full error in later releases.
We also remove an unnecessary `tclCOMPLETE` call to code that will
actually call `close_proof`. In this case, it is better to delegate
error management to the core function.
Some error messages have changed [as we consolidate two error paths]
so this PR may require adjustment in that area.
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It's basically an occur check so it makes sense to put it in vars
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A few of them will be of help for future cleanups. We have spared the
stuff in `Names` due to bad organization of this module following the
split from `Term`, which really difficult things removing the
constructors.
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This shall eventually allow to use contexts of declarations in the
definition of the "Case" constructor.
Basically, this means that Constr now includes Context and that the
"t" types of Context which were specialized on constr are not defined
in Constr (unfortunately using a heavy boilerplate).
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Apparently it was not useful. I don't remember what I was thinking
when I added it.
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Most of it seems straightforward.
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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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`Proof_global` is the main consumer of the flag, which doesn't seem to
belong to the AST as plugins show.
This will allow the vernac AST to be placed in `vernac` indeed.
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`Vernacexpr` lives conceptually higher than `proof`, however,
datatypes for bullets and goal selectors are in `Vernacexpr`.
In particular, we move:
- `proof_bullet`: to `Proof_bullet`
- `goal_selector`: to a new file `Goal_select`
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We bootstrap the circular evar_map <-> econstr dependency by moving
the internal EConstr.API module to Evd.MiniEConstr. Then we make the
Evd functions use econstr.
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We continue with the work of #402 and #6745 and update most of the
remaining parts of the AST:
- module declarations
- intro patterns
- top-level sentences
Now, parsed documents should be full annotated by `CAst` nodes.
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UState normalize -> minimize, Evd nf_constraints -> minimize_universes
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We follow the suggestions in #402 and turn uses of `Loc.located` in
`vernac` into `CAst.t`. The impact should be low as this change mostly
affects top-level vernaculars.
With this change, we are even closer to automatically map a text
document to its AST in a programmatic way.
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We organize the toplevel execution as a record and pass it
around. This will be used by future PRs as to for example decouple
goal printing from the classifier.
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