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longer use camlp4.
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To that extent we introduce a new prototype vernacular extension macro
`VERNAC COMMAND FUNCTIONAL EXTEND` that will take a function with the
proper parameters and attributes.
This of course needs more refinement, in particular we should move
`vernac_command` to its own file and make `Vernacentries` consistent
wrt it.
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This ensures that the API is self-contained and is, well, an API.
Before this patch, the contents of `API.mli` bore little relation with
what was used by the plugins [example: `Metasyntax` in tacentries.ml].
Many missing types had to be added.
A sanity check of the `API.mli` file can be done with:
`ocamlfind ocamlc -rectypes -package camlp5 -I lib API/API.mli`
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Reminder of (some of) the reasons for removal:
- Despite the claim in sigma.mli, it does *not* prevent evar
leaks, something like:
fun env evd ->
let (evd',ev) = new_evar env evd in
(evd,ev)
will typecheck even with Sigma-like type annotations (with a proof of
reflexivity)
- The API stayed embryonic. Even typing functions were not ported to
Sigma.
- Some unsafe combinators (Unsafe.tclEVARS) were replaced with slightly
less unsafe ones (e.g. s_enter), but those ones were not marked unsafe
at all (despite still being so).
- There was no good story for higher order functions manipulating evar
maps. Without higher order, one can most of the time get away with
reusing the same name for the updated evar map.
- Most of the code doing complex things with evar maps was using unsafe
casts to sigma. This code should be fixed, but this is an orthogonal
issue.
Of course, this was showing a nice and elegant use of GADTs, but the
cost/benefit ratio in practice did not seem good.
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Inspired by https://coq.inria.fr/bugs/show_bug.cgi?id=5229 , which
this PR solves, I propose to remove support for non-synchronous
options.
It seems the few uses of `optsync = false` we legacy and shouldn't
have any impact.
Moreover, non synchronous options may create particularly tricky
situations as for instance, they won't be propagated to workers.
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Now it is a private field, locations are optional.
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This commit removes from the source tree plugins/decl_mode,
its chapter in the reference manual and related tests.
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This is cumbersome, because now code may fail at link time if it's not
referring to the correct module name. Therefore, one has to add corresponding
open statements a the top of every file depending on a Ltac module. This
includes seemingly unrelated files that use EXTEND statements.
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There was no reason to keep them separate since quite a long time. Historically,
they were making Genarg depend or not on upper strata of the code, but since
it was moved to lib/ this is not justified anymore.
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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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For now, the pack name reuse the previous .cma name of the plugin,
(extraction_plugin, etc).
The earlier .mllib files in plugins are now named .mlpack.
They are also handled by bin/ocamllibdep, just as .mllib.
We've slightly modified ocamllibdep to help setting the -for-pack
options: in *.mlpack.d files, there are some extra variables such as
foo/bar_FORPACK := -for-pack Baz
when foo/bar.ml is mentioned in baz.mlpack.
When a plugin is calling a function from another plugin, the name
need to be qualified (Foo_plugin.Bar.baz instead of Bar.baz).
Btw, we discard the generated files plugins/*/*_mod.ml, they are
obsolete now, replaced by DECLARE PLUGIN.
Nota: there's a potential problem in the micromega directory,
some .ml files are linked both in micromega_plugin and in csdpcert.
And we now compile these files with a -for-pack, even if they are
not packed in the case of csdpcert. In practice, csdpcert seems
to work well, but we should verify with OCaml experts.
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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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This reverts commit 23ebfc41fba48ccce9bc878de258d1b0901f7dda.
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The ARGUMENT EXTEND macro was discriminating between parsing entries known
statically, i.e. defined in Pcoq and unknown entires. Although simplifying
a bit the life of the plugin writer, it made actual interpretation difficult
to predict and complicated the code of the ARGUMENT EXTEND macro.
After this patch, all parsing entries and generic arguments used in an
ARGUMENT EXTEND macro must be reachable by the ML code. This requires adding
a few more "open Pcoq.X" and "open Constrarg" here and there.
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The glob_expr was actually always embedded as a VFun, so this patch should
not change anything semantically. The only change occurs in the plugin API
where one should use the Tacinterp.tactic_of_value function instead of
Tacinterp.eval_tactic.
Moreover, this patch allows to use tactics returning arguments from the ML
side.
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change of printing format of forall (need more thinking).
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corresponding Declare ML Module command. This changes essentially two
things:
1. ML plugins are forced to use the DECLARE PLUGIN statement before any
TACTIC EXTEND statement. The plugin name must be exactly the string passed to
the Declare ML Module command.
2. ML tactics are only made available after the Coq module that does the
corresponding Declare ML Module is imported. This may break a few things,
as it already broke quite some uses of omega in the stdlib.
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latent universes. Now the universes in the type of a definition/lemma
are eagerly added to the environment so that later proofs can be checked
independently of the original (delegated) proof body.
- Fixed firstorder, ring to work correctly with universe polymorphism.
- Changed constr_of_global to raise an anomaly if side effects would be lost by
turning a polymorphic constant into a constr.
- Fix a non-termination issue in solve_evar_evar.
-
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Impacts MapleMode.
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On the compilation of Coq, we can see an increase of ~20% compile time on
my completely non-scientific tests. Hopefully this can be fixed.
There are a lot of low hanging fruits, but this is an iso-functionality commit.
With a few exceptions which were not necessary for the compilation of the theories:
- The declarative mode is not yet ported
- The timeout tactical is currently deactivated because it needs some subtle
I/O. The framework is ready to handle it, but I haven't done it yet.
- For much the same reason, the ltac debugger is unplugged. It will be more
difficult, but will eventually be back.
A few comments:
I occasionnally used a coercion from [unit Proofview.tactic] to the old
[Prooftype.tactic]. It should work smoothely, but loses any backtracking
information: the coerced tactics has at most one success.
- It is used in autorewrite (it shouldn't be a problem there). Autorewrite's
code is fairly old and tricky
- It is used in eauto, mostly for "Hint Extern". It may be an issue as time goes
as we might want to have various success in a "Hint Extern". But it would
require a heavy port of eauto.ml4
- It is used in typeclass eauto, but with a little help from Matthieu, it should
be easy to port the whole thing to the new tactic engine, actually simplifying
the code.
- It is used in fourier. I believe it to be inocuous.
- It is used in firstorder and congruence. I think it's ok. Their code is
somewhat intricate and I'm not sure they would be easy to actually port.
- It is used heavily in Function. And honestly, I have no idea whether it can do
harm or not.
Updates:
(11 June 2013) Pierre-Marie Pédrot contributed the rebase over his new stream based
architecture for Ltac matching (r16533), which avoid painfully and expensively
working around the exception-throwing control flow of the previous API.
(11 October 2013) Rebasing over recent commits (somewhere in r16721-r16730)
rendered a major bug in my implementation of Tacticals.New.tclREPEAT_MAIN
apparent. It caused Field_theory.v to loop. The bug made rewrite !lemma,
rewrite ?lemma and autorewrite incorrect (tclREPEAT_MAIN was essentially
tclREPEAT, causing rewrites to be tried in the side-conditions of conditional
rewrites as well). The new implementation makes Coq faster, but it is
pretty much impossible to tell if it is significant at all.
git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@16967 85f007b7-540e-0410-9357-904b9bb8a0f7
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The warning output by vernacextend when the classifier is missing
is the documentation of this commit:
Warning: Vernac entry "Foo" misses a classifier. A classifier is a
function that returns an expression of type vernac_classification (see
Vernacexpr). You can:
- Use '... EXTEND Foo CLASSIFIED AS QUERY ...' if the new
vernacular command does not alter the system state;
- Use '... EXTEND Foo CLASSIFIED AS SIDEFF ...' if the new
vernacular command alters the system state but not the parser nor it starts
a proof or ends one;
- Use '... EXTEND Foo CLASSIFIED BY f ...' to specify a global
function f. The function f will be called passing "Foo" as the
only argument;
- Add a specific classifier in each clause using the syntax:
'[...] => [ f ] -> [...]'.
Specific classifiers have precedence over global classifiers. Only one
classifier is called.
git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@16680 85f007b7-540e-0410-9357-904b9bb8a0f7
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This commit introduces 2 new vernac_expr constructors:
- VernacLocal (b,v) that represents a vernacular v with the "Local" modifier
- VernacProgram v that represents a vernacular v with the "Program" modifier
This allows the parser to avoid using side effects to model the two
modifiers, that are now represented in the AST. This also decouples the
parsing phase from the interpretation phase, since parsing a second
phrase does not alter the locality flag for the first phrase.
As a consequence all the locality_flag components of vernac_expr have
been removed, but for the ones that (for retro compatibility) allow
an "infix" Local flag. In these cases the boolean is renamed
obsolete_locality (as the grammar entry that parses it), and during
interpretation we check that at most one locality flag is specified,
using the idiom (where the input local is the obsolete one):
let local = enforce_XXX_locality locality local in
Another improvement is that the default locality is not chosen in the
parser, but in the interpreter where the idiom
let local = make_XXX_locality locality in
is used to default the locality to XXX (module/section/whatever).
Unfortunately not all side effects have been removed:
- Flags.program_mode is still used to signal that we are in program mode
- Locality.LocalityFixme.* functions are used in commands that do not
have an AST, but are parsed as VernacExtend (see vernacinterp.ml)
I guess one could fix the latter case systematically adding an extra
argument "locality" to commands attached using VERNAC COMMAND EXTEND.
Fixing plugins adding commands that honour "Local" should look like this:
VERNAC COMMAND EXTEND Set_Solver
| [ "Obligation" "Tactic" ":=" tactic(t) ] -> [
set_default_tactic
- (Locality.use_section_locality ())
+ (Locality.make_section_locality (Locality.LocalityFixme.consume ()))
(Tacintern.glob_tactic t) ]
END
In any case the side effects are set/consumed within then interpretation
phase, and not set during the parsing phase and consumed during the
interpretation phase.
git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@16396 85f007b7-540e-0410-9357-904b9bb8a0f7
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git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@16285 85f007b7-540e-0410-9357-904b9bb8a0f7
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git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@15896 85f007b7-540e-0410-9357-904b9bb8a0f7
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kernel on CAMLP4/5 structures, and consequently should also erase
such structures from vo files.
This modification requires some code duplication, mainly while
reimplementing our own location data type. This is chiefly visible
in the ml4 files, where CAMLP4/5 locations must be manually converted
to our locations with an explicit (!@) cast operator.
git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@15847 85f007b7-540e-0410-9357-904b9bb8a0f7
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git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@15844 85f007b7-540e-0410-9357-904b9bb8a0f7
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git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@15715 85f007b7-540e-0410-9357-904b9bb8a0f7
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were closed (i.e. the only remaining ones are those of printing/parsing).
Meanwhile, a simplified interface is provided in loc.mli.
This also permits to put Pp in Clib, because it does not depend on
CAMLP4/5 anymore.
git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@15475 85f007b7-540e-0410-9357-904b9bb8a0f7
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git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@15412 85f007b7-540e-0410-9357-904b9bb8a0f7
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git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@15387 85f007b7-540e-0410-9357-904b9bb8a0f7
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Adds a directory ./intf for pure interfaces.
git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@15367 85f007b7-540e-0410-9357-904b9bb8a0f7
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"f atomic_tac" as a short-hand for "f ltac:(atomic_tac)" for "f" an
Ltac function - see Tacinterp.add_primitive_tactic).
More precisely, when parsing "f ref" and "ref" is recognized as the
name of some TACTIC-EXTEND-defined tactic parsable as an atomic tactic
(like "eauto", "firstorder", "discriminate", ...), the code was
correct only when a rule of the form `TACTIC EXTEND ... [ "foo" -> ...] END'
was given (where "foo" has no arguments in the rule) but not when a rule
of the form `TACTIC EXTEND ... [ "foo" tactic_opt(p) -> ...] END' was given
(where "foo" had an optional argument in the rule). In particular,
"firstorder" was in this case.
More generally, if, for an extra argument able to parse the empty string, a rule
`TACTIC EXTEND ... [ "foo" my_special_extra_arg(p) -> ...] END' was given,
then "foo" was not recognized as parseable as an atomic string (this
happened e.g. for "eauto"). This is now also fixed.
There was also another bug when the internal name of tactic was not
the same as the user-level name of the tactic. This is the reason why
"congruence" was not recognized when given as argument of an ltac (its
internal name is "cc").
Incidentally removed the redundant last line in the parsing rule for
"firstorder".
git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@15041 85f007b7-540e-0410-9357-904b9bb8a0f7
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Jim Fehrle
Gaëtan Gilbert
Emilio Jesus Gallego Arias
Pierre-Marie Pédrot
Matej Kosik
Maxime Dénès
Gaetan Gilbert
Enrico Tassi
Hugo Herbelin
Pierre Letouzey
Matthieu Sozeau
Arnaud Spiwack
aspiwack
gareuselesinge
letouzey
ppedrot
herbelin