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This is a bit more uniform.
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We make clearer which arguments are optional and which are mandatory.
Some of these representations are tricky because of small differences
between Program and Function, which share the same infrastructure.
As a side-effect of this cleanup, Program Fixpoint can now be used with
e.g. {measure (m + n) R}. Previously, parentheses were required around
R.
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I had to reorganize the code a bit. The Context command moved to
comAssumption, as it is not so related to type classes. We were able to
remove a few hooks on the way.
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Rather than integers '[0-9]+', numeral constant can now be parsed
according to the regexp '[0-9]+ ([.][0-9]+)? ([eE][+-]?[0-9]+)?'.
This can be used in one of the two following ways:
- using the function `Notation.register_rawnumeral_interpreter` in an OCaml plugin
- using `Numeral Notation` with the type `decimal` added to `Decimal.v`
See examples of each use case in the next two commits.
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Instead of just string (and empty strings for tokens without payload)
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This should make https://github.com/coq/coq/pull/9129 easier.
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Reviewed-by: Zimmi48
Reviewed-by: ejgallego
Ack-by: gares
Ack-by: jfehrle
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Kernel should be mostly correct, higher levels do random stuff at
times.
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Note currently it's impossible to define inductives in SProp because
indtypes.ml and the pretyper aren't fully plugged.
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I think the usage looks cleaner this way.
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Ack-by: JasonGross
Ack-by: SkySkimmer
Ack-by: ejgallego
Ack-by: gares
Ack-by: maximedenes
Ack-by: ppedrot
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Ack-by: herbelin
Reviewed-by: ppedrot
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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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[About] still says it.
Close #9056.
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Since it returns an Id.t and not a Pp.t.
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Diff code uses the lexer to recognize tokens in the inputs, which can be
Pp.t's or strings. To add the highlights in the Pp.t, the diff code
matches characters in the input to characters in the tokens. Current
code fails for inputs containing quote marks or "(*" because the quote
marks and comments don't appear in the tokens. This commit adds a "diff
mode" to the lexer to return those characters, making the diff routine
more robust.
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You can tell which it is from the `@{}` if you really care, and seeing
`Monomorphic List (A:Type)` with no indication that `Monomorphic` is
about universes can confuse people.
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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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These modules do actually belong there.
We have to slightly reorganize printers, removing a couple of
duplicated ones in the way.
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Improve debug output
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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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Set Printing Universes.
Set Universe Polymorphism.
Lemma foo : Type.
Proof. exact (forall _ : Type, Type).
Qed.
Print foo.
Before:
(*
foo@{Top.1} =
Type@{Top.2} -> Type@{Top.3}
: Type@{Top.1}
(* Top.1 |= Prop < Set
Set < Top.1
local: {Top.3 Top.2} |= Top.2 < Top.1
Top.3 < Top.1
*)
foo is universe polymorphic
*)
Now:
(* Public universes:
Top.1 |= Set < Top.1
Private universes:
{Top.3 Top.2} |= Top.2 < Top.1
Top.3 < Top.1 *)
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We remove the `Proof_types` file which was a trivial stub, we also
cleanup a few layers of aliases.
This is not a lot but every little step helps.
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This makes the make-based build system stop linking to Camlp5's
gramlib and instead links to our own gramlib.
We use the style done in the packing of `Stdlib` in OCaml 4.07.
As to introduce a minimal amount of noise in history we use an
autogenerated `gramlib__pack` directory.
Co-authored-by: Gaëtan Gilbert <gaetan.gilbert@skyskimmer.net>
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This is documented in dev/doc/changes.md.
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Close #8891
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Allow for new goals that don't map to old goals
Include background_goals in all_goals return value
Fix incorrect change to raw diffs in shorten_diff_span
Fixes #8922
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We move `object_prefix` to `Nametab`. This highlights the coupling of
`Lib` and `Nametab` wrt naming.
This also thins `Libname`, which IMHO is a good thing as we are
talking about "local, internal" naming here.
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This type is "private" to the Nametab, which manages it. It thus makes
sense IMHO to live there.
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