| Commit message (Collapse) | Author | Age |
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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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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 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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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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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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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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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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git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@16071 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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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@15400 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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This is a mix of "Recursive Extraction" and "Extraction Library":
- like "Extraction Library", the extracted code is splitted in
separated files, one per coq source file.
- unlike "Extraction Library", but similarly to "Recursive Extraction",
not everything gets extracted, but only dependencies of some
initially-given elements
We prepare for a more clever dependency selection inside sub-modules.
For the moment all needed sub-modules are still fully extracted (other we
would need to fix signatures accordingly).
git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@13888 85f007b7-540e-0410-9357-904b9bb8a0f7
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git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@13323 85f007b7-540e-0410-9357-904b9bb8a0f7
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git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@13109 85f007b7-540e-0410-9357-904b9bb8a0f7
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For instance:
Extract Inductive nat => int [ "0" "succ" ]
"(fun fO fS n => if n=0 then fO () else fS (n-1))".
See Extraction.v for more details and caveat.
git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@13025 85f007b7-540e-0410-9357-904b9bb8a0f7
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The command : Extraction Implicit foo [1 3].
will tell the extraction to consider fst and third arg of foo as implicit,
and remove them, unless a final occur-check after extraction shows they
are still there. Here, foo can be a inductive constructor or a global
constant.
This allow typicaly to extract vectors into usual list :-)
git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@12982 85f007b7-540e-0410-9357-904b9bb8a0f7
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git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@12337 85f007b7-540e-0410-9357-904b9bb8a0f7
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user contribs
git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@11996 85f007b7-540e-0410-9357-904b9bb8a0f7
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