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The word "increment" is more appropriate in this case than "lifting".
The world "lifting", in computer science, usually denotes something else:
https://en.wikipedia.org/wiki/Lambda_lifting
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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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Suggested by @ppedrot
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As noted by @ppedrot, the first is redundant. The patch is basically a renaming.
We didn't make the component optional yet, but this could happen in a
future patch.
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module)
For the moment, there is an Error module in compilers-lib/ocamlbytecomp.cm(x)a
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This is a reimplementation of Hugo's PR#117.
We are trying to address the problem that the name of some reduction functions
was not saying what they were doing (e.g. whd_betadeltaiota was doing let-in
reduction). Like PR#117, we are careful that no function changed semantics
without changing the names. Porting existing ML code should be a matter of
renamings a few function calls.
Also, we introduce more precise reduction flags fMATCH, fFIX, fCOFIX
collectively denominated iota.
We renamed the following functions:
Closure.betadeltaiota -> Closure.all
Closure.betadeltaiotanolet -> Closure.allnolet
Reductionops.beta -> Closure.beta
Reductionops.zeta -> Closure.zeta
Reductionops.betaiota -> Closure.betaiota
Reductionops.betaiotazeta -> Closure.betaiotazeta
Reductionops.delta -> Closure.delta
Reductionops.betalet -> Closure.betazeta
Reductionops.betadelta -> Closure.betadeltazeta
Reductionops.betadeltaiota -> Closure.all
Reductionops.betadeltaiotanolet -> Closure.allnolet
Closure.no_red -> Closure.nored
Reductionops.nored -> Closure.nored
Reductionops.nf_betadeltaiota -> Reductionops.nf_all
Reductionops.whd_betadelta -> Reductionops.whd_betadeltazeta
Reductionops.whd_betadeltaiota -> Reductionops.whd_all
Reductionops.whd_betadeltaiota_nolet -> Reductionops.whd_allnolet
Reductionops.whd_betadelta_stack -> Reductionops.whd_betadeltazeta_stack
Reductionops.whd_betadeltaiota_stack -> Reductionops.whd_all_stack
Reductionops.whd_betadeltaiota_nolet_stack -> Reductionops.whd_allnolet_stack
Reductionops.whd_betadelta_state -> Reductionops.whd_betadeltazeta_state
Reductionops.whd_betadeltaiota_state -> Reductionops.whd_all_state
Reductionops.whd_betadeltaiota_nolet_state -> Reductionops.whd_allnolet_state
Reductionops.whd_eta -> Reductionops.shrink_eta
Tacmach.pf_whd_betadeltaiota -> Tacmach.pf_whd_all
Tacmach.New.pf_whd_betadeltaiota -> Tacmach.New.pf_whd_all
And removed the following ones:
Reductionops.whd_betaetalet
Reductionops.whd_betaetalet_stack
Reductionops.whd_betaetalet_state
Reductionops.whd_betadeltaeta_stack
Reductionops.whd_betadeltaeta_state
Reductionops.whd_betadeltaeta
Reductionops.whd_betadeltaiotaeta_stack
Reductionops.whd_betadeltaiotaeta_state
Reductionops.whd_betadeltaiotaeta
They were unused and having some reduction functions perform eta is confusing
as whd_all and nf_all don't do it.
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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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Use the compatibility match construction to extract the compatibility
constant associated to a primitive projection.
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The Haskell extraction code would allow line-wrapping of the Haskell
type definition, which would lead to unparseable Haskell code when the
linebreak occured just before the type name. In particular, with a term
name of 46 characters or more, the following Coq code:
Definition xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx := tt.
Extraction Language Haskell.
Extraction xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx.
would produce:
xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx ::
Unit
xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx =
Tt
which failed to compile with GHC (according to Haskell's indentation
rules, the "Unit" line must be indented to be treated as a continuation
of the previous line).
This patch always forces the type onto a separate line, and ensures that
it is always indented by 2 spaces (just like the body of each definition).
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Note that extracting terms containing primitive projections is still
utterly broken, so don't use them.
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trunk
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The extraction of [Z] into Ocaml's [Big_int] passed arguments in the
wrong order to [Big.compare_case] for [Pos.compare_cont]. It seems
unlikely this ever worked before.
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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 Haskell extraction code would allow line-wrapping of the Haskell
type definition, which would lead to unparseable Haskell code when the
linebreak occured just before the type name. In particular, with a term
name of 46 characters or more, the following Coq code:
Definition xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx := tt.
Extraction Language Haskell.
Extraction xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx.
would produce:
xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx ::
Unit
xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx =
Tt
which failed to compile with GHC (according to Haskell's indentation
rules, the "Unit" line must be indented to be treated as a continuation
of the previous line).
This patch always forces the type onto a separate line, and ensures that
it is always indented by 2 spaces (just like the body of each definition).
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Originally, rel-context was represented as:
Context.rel_context = Names.Name.t * Constr.t option * Constr.t
Now it is represented as:
Context.Rel.t = LocalAssum of Names.Name.t * Constr.t
| LocalDef of Names.Name.t * Constr.t * Constr.t
Originally, named-context was represented as:
Context.named_context = Names.Id.t * Constr.t option * Constr.t
Now it is represented as:
Context.Named.t = LocalAssum of Names.Id.t * Constr.t
| LocalDef of Names.Id.t * Constr.t * Constr.t
Motivation:
(1) In "tactics/hipattern.ml4" file we define "test_strict_disjunction"
function which looked like this:
let test_strict_disjunction n lc =
Array.for_all_i (fun i c ->
match (prod_assum (snd (decompose_prod_n_assum n c))) with
| [_,None,c] -> isRel c && Int.equal (destRel c) (n - i)
| _ -> false) 0 lc
Suppose that you do not know about rel-context and named-context.
(that is the case of people who just started to read the source code)
Merlin would tell you that the type of the value you are destructing
by "match" is:
'a * 'b option * Constr.t (* worst-case scenario *)
or
Named.Name.t * Constr.t option * Constr.t (* best-case scenario (?) *)
To me, this is akin to wearing an opaque veil.
It is hard to figure out the meaning of the values you are looking at.
In particular, it is hard to discover the connection between the value
we are destructing above and the datatypes and functions defined
in the "kernel/context.ml" file.
In this case, the connection is there, but it is not visible
(between the function above and the "Context" module).
------------------------------------------------------------------------
Now consider, what happens when the reader see the same function
presented in the following form:
let test_strict_disjunction n lc =
Array.for_all_i (fun i c ->
match (prod_assum (snd (decompose_prod_n_assum n c))) with
| [LocalAssum (_,c)] -> isRel c && Int.equal (destRel c) (n - i)
| _ -> false) 0 lc
If the reader haven't seen "LocalAssum" before, (s)he can use Merlin
to jump to the corresponding definition and learn more.
In this case, the connection is there, and it is directly visible
(between the function above and the "Context" module).
(2) Also, if we already have the concepts such as:
- local declaration
- local assumption
- local definition
and we describe these notions meticulously in the Reference Manual,
then it is a real pity not to reinforce the connection
of the actual code with the abstract description we published.
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The structure of the Context module was refined in such a way that:
- Types and functions related to rel-context declarations were put into the Context.Rel.Declaration module.
- Types and functions related to rel-context were put into the Context.Rel module.
- Types and functions related to named-context declarations were put into the Context.Named.Declaration module.
- Types and functions related to named-context were put into the Context.Named module.
- Types and functions related to named-list-context declarations were put into Context.NamedList.Declaration module.
- Types and functions related to named-list-context were put into Context.NamedList module.
Some missing comments were added to the *.mli file.
The output of ocamldoc was checked whether it looks in a reasonable way.
"TODO: cleanup" was removed
The order in which are exported functions listed in the *.mli file was changed.
(as in a mature modules, this order usually is not random)
The order of exported functions in Context.{Rel,Named} modules is now consistent.
(as there is no special reason why that order should be different)
The order in which are functions defined in the *.ml file is the same as the order in which they are listed in the *.mli file.
(as there is no special reason to define them in a different order)
The name of the original fold_{rel,named}_context{,_reverse} functions was changed to better indicate what those functions do.
(Now they are called Context.{Rel,Named}.fold_{inside,outside})
The original comments originally attached to the fold_{rel,named}_context{,_reverse} did not full make sense so they were updated.
Thrown exceptions are now documented.
Naming of formal parameters was made more consistent across different functions.
Comments of similar functions in different modules are now consistent.
Comments from *.mli files were copied to *.ml file.
(We need that information in *.mli files because that is were ocamldoc needs it.
It is nice to have it also in *.ml files because when we are using Merlin and jump to the definion of the function,
we can see the comments also there and do not need to open a different file if we want to see it.)
When we invoke ocamldoc, we instruct it to generate UTF-8 HTML instead of (default) ISO-8859-1.
(UTF-8 characters are used in our ocamldoc markup)
"open Context" was removed from all *.mli and *.ml files.
(Originally, it was OK to do that. Now it is not.)
An entry to dev/doc/changes.txt file was added that describes how the names of types and functions have changed.
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Conflicts:
lib/cSig.mli
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The Map interface of upcoming OCaml 4.03 includes a new union operator. In
order to make our homemade implementation of Maps compatible with OCaml
versions from 3.12 to 4.03, we define our own signatures for Maps.
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For instance, calling only Id.print is faster than calling both str and
Id.to_string, since the latter performs a copy. It also makes the code a
bit simpler to read.
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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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On an application (f args) where the head is magic, we first remove Obj.magic
on arguments before continuing with simplifications (that may push magic down
inside the arguments).
For instance, starting with ((Obj.magic f) (Obj.magic (g h))), we now end
with ((Obj.magic f) (g h)) instead of ((Obj.magic f) ((Obj.magic g) h))) as
before.
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Pierre-Marie Pédrot
Matej Kosik
Pierre Letouzey
Emilio Jesus Gallego Arias
Guillaume Melquiond
Maxime Dénès
Matthieu Sozeau
Nickolai Zeldovich
Matej Kosik
Pierre Courtieu