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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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Kernel should be mostly correct, higher levels do random stuff at
times.
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This work makes it possible to take advantage of a compact
representation for integers in the entire system, as opposed to only
in some reduction machines. It is useful for heavily computational
applications, where even constructing terms is not possible without such
a representation.
Concretely, it replaces part of the retroknowledge machinery with
a primitive construction for integers in terms, and introduces a kind of
FFI which maps constants to operators (on integers). Properties of these
operators are expressed as explicit axioms, whereas they were hidden in
the retroknowledge-based approach.
This has been presented at the Coq workshop and some Coq Working Groups,
and has been used by various groups for STM trace checking,
computational analysis, etc.
Contributions by Guillaume Bertholon and Pierre Roux <Pierre.Roux@onera.fr>
Co-authored-by: Benjamin Grégoire <Benjamin.Gregoire@inria.fr>
Co-authored-by: Vincent Laporte <Vincent.Laporte@fondation-inria.fr>
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We remove sections paths from kernel names. This is a cleanup as most of the times this information was unused. This implies a change in the Kernel API and small user visible changes with regards to tactic qualification. In particular, the removal of "global discharge" implies a large cleanup of code.
Additionally, the change implies that some machinery in `library` and `safe_typing` must now take an `~in_section` parameter, as to provide the information whether a section is open or not.
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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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We move the last 3 types to more adequate places.
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In #6092, `global_reference` was moved to `kernel`. It makes sense to
go further and use the current kernel style for names.
This has a good effect on the dependency graph, as some core modules
don't depend on library anymore.
A question about providing equality for the GloRef module remains, as
there are two different notions of equality for constants. In that
sense, `KerPair` seems suspicious and at some point it should be
looked at.
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The `reference` type contains some ad-hoc locations in its
constructors, but there is no reason not to handle them with the
standard attribute container provided by `CAst.t`.
An orthogonal topic to this commit is whether the `reference` type
should contain a location or not at all.
It seems that many places would become a bit clearer by splitting
`reference` into non-located `reference` and `lreference`, however
some other places become messier so we maintain the current status-quo
for now.
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wish #4129)
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Attempt to extract the current ongoing proof (request by
Clément Pit-Claudel on coqdev, and also #4129).
Evars are handled as axioms.
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This is a bit artificial since the extraction normally operates on
finished constrs (with no evars). But:
- Since we use Retyping quite a lot, switching to EConstr.t allows
to get rid of many `EConstr.Unsafe.to_constr (... (EConstr.of_constr ...))`
- This prepares the way for a possible extraction of the content
of ongoing proofs (a forthcoming `Show Extraction` command, see #4129 )
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We do up to `Term` which is the main bulk of the changes.
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See https://github.com/letouzey/extraction-compute for more details
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As explained in edf85b9, the original commit that merged the module_body
and module_type_body representations, this was delayed to a later time
assumedly due to OCaml lack of GADTs. Actually, the only thing that was
needed was polymorphic recursion, which has been around already for a
relatively long time (since 3.12).
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The use of template polymorphism in constants was quite limited, as it
only applied to definitions that were exactly inductive types without any
parameter whatsoever. Furthermore, it seems that following the introduction
of polymorphic definitions, the code path enforced regular polymorphism as
soon as the type of a definition was given, which was in practice almost
always.
Removing this feature had no observable effect neither on the test-suite,
nor on any development that we monitor on Travis. I believe it is safe to
assume it was nowadays useless.
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Avoid Anomaly (or Assert False) when a module signature contains
an applied functor followed by a "with Definition" or "with Module"
Also fix the dependency computation in presence of a "with Definition"
Concerning 4720, the code extracted out of this bug report was suboptimal
in Coq 8.4 (it was compilable, but could have probably been tweaked into a
real issue producing faulty code).
But the example of 4720 (and some variants of it) was broken since 8.5,
for the same reasons as 5177 and 5240. And the good news is that after
these repairs, the example of bug 4720 is now extracted to correct code
(the "with" is preserved).
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Extraction TestCompile foo
is equivalent to:
Extraction "/tmp/testextraction1234.ml" foo
ocamlfind ocamlc -I /tmp -c /tmp/testextraction1234.mli /tmp/testextraction1234.ml
This command isn't meant for the end user, but rather as an helper
for test-suite scripts. It only works with extraction to OCaml,
and the generated code should be standalone.
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This is the continuation of #244, we now deprecate `CErrors.error`,
the single entry point in Coq is `user_err`.
The rationale is to allow for easier grepping, and to ease a future
cleanup of error messages. In particular, we would like to
systematically classify all error messages raised by Coq and be sure
they are properly documented.
We restore the two functions removed in #244 to improve compatibility,
but mark them deprecated.
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Previous implementations of `Pp` flushed on newline, however,
depending on the formatter this may not be always the case.
We now alwayas flush the formatters before closing the file as this is
the intended behavior.
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Previously to this patch, Coq featured to distinct logging paths: the
console legacy one, based on `Pp.std_ppcmds` and Ocaml's `Format`
module, and the `Feedback` one, intended to encapsulate message inside a
more general, GUI-based feedback protocol.
This patch removes the legacy logging path and makes feedback
canonical. Thus, the core of Coq has no dependency on console code
anymore.
Additionally, this patch resolves the duplication of "document" formats
present in the same situation. The original console-based printing code
relied on an opaque datatype `std_ppcmds`, (mostly a reification of
`Format`'s format strings) that could be then rendered to the console.
However, the feedback path couldn't reuse this type due to its opaque
nature. The first versions just embedded rending of `std_ppcmds` to a
string, however in 8.5 a new "rich printing" type, `Richpp.richpp` was
introduced.
The idea for this type was to be serializable, however it brought
several problems: it didn't have proper document manipulation
operations, its format was overly verbose and didn't preserve the full
layout, and it still relied on `Format` for generation, making
client-side rendering difficult.
We thus follow the plan outlined in CEP#9, that is to say, we take a
public and refactored version of `std_ppcmds` as the canonical "document
type", and move feedback to be over there. The toplevel now is
implemented as a feedback listener and has ownership of the console.
`richpp` is now IDE-specific, and only used for legacy rendering. It
could go away in future versions. `std_ppcmds` carries strictly more
information and is friendlier to client-side rendering and display
control.
Thus, the new panorama is:
- `Feedback` has become a very module for event dispatching.
- `Pp` contains a target-independent box-based document format.
It also contains the `Format`-based renderer.
- All console access lives in `toplevel`, with console handlers private
to coqtop.
_NOTE_: After this patch, many printing parameters such as printing
width or depth should be set client-side. This works better IMO,
clients don't need to notify Coq about resizing anywmore. Indeed, for
box-based capable backends such as HTML or LaTeX, the UI can directly
render and let the engine perform the word breaking work.
_NOTE_: Many messages could benefit from new features of the output
format, however we have chosen not to alter them to preserve output.
A Future commits will move console tag handling in `Pp_style` to
`toplevel/`, where it logically belongs.
The only change with regards to printing is that the "Error:" header was
added to console output in several different positions, we have removed
some of this duplication, now error messages should be a bit more
consistent.
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module)
For the moment, there is an Error module in compilers-lib/ocamlbytecomp.cm(x)a
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On the user side, coqtop and coqc take a list of warning names or categories
after -w. No prefix means activate the warning, a "-" prefix means deactivate
it, and "+" means turn the warning into an error. Special categories include
"all", and "default" which contains the warnings enabled by default.
We also provide a vernacular Set Warnings which takes the same flags as argument.
Note that coqc now prints warnings.
The name and category of a warning are printed with the warning itself.
On the developer side, Feedback.msg_warning is still accessible, but the
recommended way to print a warning is in two steps:
1) create it by:
let warn_my_warning =
CWarnings.create ~name:"my-warning" ~category:"my-category"
(fun args -> Pp.strbrk ...)
2) print it by:
warn_my_warning args
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This patch splits pretty printing representation from IO operations.
- `Pp` is kept in charge of the abstract pretty printing representation.
- The `Feedback` module provides interface for doing printing IO.
The patch continues work initiated for 8.5 and has the following effects:
- The following functions in `Pp`: `pp`, `ppnl`, `pperr`, `pperrnl`,
`pperr_flush`, `pp_flush`, `flush_all`, `msg`, `msgnl`, `msgerr`,
`msgerrnl`, `message` are removed. `Feedback.msg_*` functions must be
used instead.
- Feedback provides different backends to handle output, currently,
`stdout`, `emacs` and CoqIDE backends are provided.
- Clients cannot specify flush policy anymore, thus `pp_flush` et al are
gone.
- `Feedback.feedback` takes an `edit_or_state_id` instead of the old
mix.
Lightly tested: Test-suite passes, Proof General and CoqIDE seem to work.
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The previous behavior was to include the interface of such a functor,
possibly leading to the creation of unexpected axioms, see bug report #3746.
In the case of non-functor module with restricted signature, we could
simply refer to the original objects (strengthening), but for a functor,
the inner objects have no existence yet. As said in the new error message,
a simple workaround is hence to first instantiate the functor, then include
the local instance:
Module LocalInstance := Funct(Args).
Include LocalInstance.
By the way, the mod_type_alg field is now filled more systematically,
cf new comments in declarations.mli. This way, we could use it to know
whether a module had been given a restricted signature (via ":"). Earlier,
some mod_type_alg were None in situations not handled by the extraction
(MEapply of module type).
Some code refactoring on the fly.
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Instead of the original hacks (embedding implicits in string msg in MLexn !)
we now use a proper construction MLdummy (Kimplicit (r,i)) to replace the use
of the i-th argument of constant or constructor r when this argument has been
declared as implicit.
A new option Set/Unset Extraction SafeImplicits controls what happens
when some implicits still occur after an extraction : fail in safe mode,
or otherwise produce some code nonetheless. This code is probably buggish
if the implicits are actually used to do anything relevant (match, function
call, etc), but it might also be fine if the implicits are just passed along.
And anyway, this unsafe mode could help figure what's going on.
Note: the MLdummy now expected a kill_reason, just as Tdummy.
These kill_reason are now Ktype, Kprop (formerly Kother) and Kimplicit.
Some minor refactoring on the fly.
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The ind_equiv field wasn't correctly set, due to some kernel names
glitches (canonical vs. user). The fix is to take into account the
delta_resolver while traversing module structures.
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This patch allows Coq terms to be extracted into the widely used JSON
format. This is useful in at least two cases:
- One might want to manipulate Coq values outside of Coq, but without
being forced to use one of the three existing extraction languages
(OCaml, Haskell, or Scheme), and without having to compile Coq's
extracted result. This is especially useful when a Coq evaluation
produces some data structure that needs to be moved out of Coq.
Having to invoke an OCaml/Haskell/Scheme compiler just to get a
data structure out of Coq is somewhat awkward.
- One might want to experiment with extracting Coq code into other
languages (Go, Javascript, etc), without having to write the whole
extraction logic in OCaml and recompile Coq's extraction plugin
each time. This makes it easy to quickly prototype extraction
in any language, without having to build Coq from source.
Extraction to JSON is implemented by adding the JSON "pseudo-language"
to the extraction facility. Thus, one can extract the JSON encoding
of a single term using:
Extraction Language JSON.
Extraction qualid.
and extract an entire Coq library "ident" into "ident.json" using:
Extraction Language JSON.
Extraction Library ident.
Nota (Pierre Letouzey) : this is an updated version of the original
PullRequest, updated to match recent changes in trunk
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typecheck with definitions and thread it accordingly when typechecking
module expressions.
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After this commit, module_type_body is a particular case of module_type.
For a [module_type_body], the implementation field [mod_expr] is
supposed to be always [Abstract]. This is verified by coqchk, even
if this isn't so crucial, since [mod_expr] is never read in the case
of a module type.
Concretely, this amounts to the following rewrite on field names
for module_type_body:
- typ_expr --> mod_type
- typ_expr_alg --> mod_type_alg
- typ_* --> mod_*
and adding two new fields to mtb:
- mod_expr (always containing Abstract)
- mod_retroknowledge (always containing [])
This refactoring should be completely transparent for the user.
Pros: code sharing, for instance subst_modtype = subst_module.
Cons: a runtime invariant (mod_expr = Abstract) which isn't
enforced by typing. I tried a polymorphic typing of mod_expr,
to share field names while not having mtb = mb, but the OCaml
typechecker isn't clever enough with polymorphic mutual fixpoints,
and reject code sharing (e.g. between subst_modtype and subst_module).
In the future (with ocaml>=4), some GADT could maybe help here,
but for now the current solution seems good enough.
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In the case of an inner module without explicit signature,
(and not used later in a functor application), we now extract
only the needed items (used later or asked by the user),
instead of blindly extracting all fields as earlier.
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stdlib does not compile entirely).
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