| Commit message (Collapse) | Author | Age |
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We turn coqtop "plugins" into standalone executables, which will be
installed in `COQBIN` and located using the standard `PATH`
mechanism. Using dynamic linking for `coqtop` customization didn't
make a lot of sense, given that only one of such "plugins" could be
loaded at a time. This cleans up some code and solves two problems:
- `coqtop` needing to locate plugins,
- dependency issues as plugins in `stm` depended on files in `toplevel`.
In order to implement this, we do some minor cleanup of the toplevel
API, making it functional, and implement uniform build rules. In
particular:
- `stm` and `toplevel` have become library-only directories,
- a new directory, `topbin`, contains the new executables,
- 4 new binaries have been introduced, for coqide and the stm.
- we provide a common and cleaned up way to locate toplevels.
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We refactor top-level load path handling. This is in preparation to
make load paths become local to a particular document.
To this effect, we introduce a new data type `coq_path` that includes
the full specification of a load path:
```
type add_ml = AddNoML | AddTopML | AddRecML
type vo_path_spec = {
unix_path : string; (* Filesystem path contaning vo/ml files *)
coq_path : Names.DirPath.t; (* Coq prefix for the path *)
implicit : bool; (* [implicit = true] avoids having to qualify with [coq_path] *)
has_ml : add_ml; (* If [has_ml] is true, the directory will also be search for plugins *)
}
type coq_path_spec =
| VoPath of vo_path_spec
| MlPath of string
type coq_path = {
path_spec: coq_path_spec;
recursive: bool;
}
```
Then, initialization of load paths is split into building a list of
load paths and actually making them effective. A future commit will
make thus the list of load paths a parameter for document creation.
This API is necessarily internal [for now] thus I don't think a
changes entry is needed.
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In the transition towards a less global state handling we have the
necessity of mix imperative setting [notably for the modules/section
code] and functional handling of state [notably in the STM].
In that scenario, it is very convenient to have typed access to the
Coq's `summary`. Thus, I reify the API to support typed access to the
`summary`, and implement such access in a couple of convenient places.
We also update some internal datatypes to simplify the `frozen` data
type. We also remove the use of hashes as it doesn't really make
things faster, and most operations are now over `Maps` anyways.
I believe this goes in line with recent work by @ppedrot.
We also deprecate the non-typed accessors, which were only supposed to
be used in the STM, which is now ported to the finer primitives.
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to escape non-UTF-8 file names)
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An incoming commit is removing some toplevel-specific global flags in
favor of local toplevel state; this commit flags `Flags` use so it
becomes clearer in the code whether we are relying on some "global"
settable status in code.
A good candidate for further cleanup is the pattern:
`Flags.if_verbose Feedback.msg_info`
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On Win32, Sys.readdir translates the file names to the charset of the
local "code page", which may be not compatible with utf8.
Warnings referring to these names can be generated. These warnings may
be sent to CoqIDE. To ensure a utf8 compliant communication, we escape
non-utf8 file names under win32.
In the CoqIDE/Coq communication, Glib.IO.read_chars expects an
utf8-encoding and raises otherwise a Glib.Error "Invalid byte sequence in
conversion input".
This fixes bug #5715 (Hangul characters not recognized in file names)
but this does not solve the case of an operating system mounting a
file system with a different coding convention than the default one,
i.e. unicode using "Normalization Form Canonical Decomposition" in
UTF-8 for HFS+ on MacOS X, no encoding for ext3/ext4 on Linux,
(non-normalized?) UTF-16 for NTFS on Windows.
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Today, both modes are controlled by a single flag, however this is a
bit misleading as is_silent really means "quiet", that is to say `coqc
-q` whereas "verbose" is Coq normal operation.
We also restore proper behavior of goal printing in coqtop on quiet
mode, thanks to @Matafou for the report.
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Currently, the STM, vernac interpretation, and the toplevel are
intertwined in a mutual dependency that needs to be resolved using
imperative callbacks.
This is problematic for a few reasons, in particular it makes the
interpretation of commands that affect the document quite intricate.
As a first step, we split the `toplevel/` directory into two: "pure"
vernac interpretation is moved to the `vernac/` directory, on which
the STM relies.
Test suite passes, and only one command seems to be disabled with this
approach, "Show Script" which is to my understanding
obsolete. Subsequent commits will fix this and refine some of the
invariants that are not needed anymore.
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