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proofs end.
The proof ending commands like Qed and Defined had all the control on what happened to the proof when they are closed. In constrast, proof starting commands were dumb: start a proof, give it a name, that's it.
In such a situation if we want to come up with new reasons to open proofs, we would need new proof-closing commands.
In this commit we decide at proof-starting time how to dispatch the various Qed/Defined, etc… By registering a function in the interactive proof environment. This way, proofs are always closed the same but we can invent new ways to start them.
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Since the new proof engine, Hiddentac has been essentially trivial.
Here is what happened to the functions defined there
- Aliases, or tactics that were trivial to inline were systematically inlined
- Tactics used only in tacinterp have been moved to tacinterp
- Other tactics have been moved to a new module Tactics.Simple.
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It is highlighted in yellow in Coqide.
The unsafe status is tracked throughout the execution of tactics such that
nested calls to admit are caught.
Many function (mainly those building constr with tactics such as typeclass
related stuff, and Function, and a few other like eauto's use of Hint Extern)
drop the unsafe status. This is unfortunate, but a lot of refactoring would
be in order.
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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.
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To reduce the amount of syntactic noise, we now provide
a few inner modules Int.List, Id.List, String.List, Sorts.List
which contain some monomorphic (or semi-monomorphic) functions
such as mem, assoc, ...
NB: for Int.List.mem and co we reuse List.memq and so on.
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Ideally, any component of the global state that is a function or any
other unmarshallable data should be stocked as an ephemeron to make
the state always marshallable.
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with OCaml 3.12.1).
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In some cases, an 'a -> 'b field is changed into an ('a -> b') option
field so that one can forget the closures and marshal the resulting
state
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1. sorts.ml: A small file utility for sorts;
2. constr.ml: Really low-level terms, essentially kind_of_constr, smart
constructor and basic operators;
3. vars.ml: Everything related to term variables, that is, occurences
and substitution;
4. context.ml: Rel/Named context and all that;
5. term.ml: derived utility operations on terms; also includes constr.ml
up to some renaming, and acts as a compatibility layer, to be deprecated.
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Get rid of the LightenLibrary hack : no more last-minute
collect of opaque terms and Obj.magic tricks. Instead, we
make coqc accumulate the opaque terms as soon as constant_bodies
are created outside sections. In these cases, the opaque
terms are placed in a special table, and some (DirPath.t * int)
are used as indexes in constant_body. In an interactive session,
the local opaque terms stay directly stored in the constant_body.
The structure of .vo file stays similar : magic number, regular
library structure, digest of the first part, array of opaque terms.
In addition, we now have a final checksum for checking the
integrity of the whole .vo file. The other difference is that
lazy_constr aren't changed into int indexes in .vo files, but are
now coded as (substitution list * DirPath.t * int). In particular
this approach allows to refer to opaque terms from another
library. This (and accumulating substitutions in lazy_constr)
seems to greatly help decreasing the size of opaque tables :
-20% of vo size on the standard library :-). The compilation times
are slightly better, but that can be statistic noise.
The -force-load-proofs isn't active anymore : it behaves now
just like -lazy-load-proofs. The -dont-load-proofs mode has
slightly changed : opaque terms aren't seen as axioms anymore,
but accessing their bodies will raise an error.
Btw, API change : Declareops.body_of_constant now produces directly
a constr option instead of a constr_substituted option
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For the moment, this anomaly is catched and ignore later,
but that will changed soon.
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- constr_substituted and lazy_constr are now in a dedicated kernel/lazyconstr.ml
- the functions that were in declarations.ml (mostly substitution utilities
and hashcons) are now in kernel/declareops.ml
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List module. That way, an "open Util" in the header permits using
any function of CList in the List namespace (and in particular, this
permits optimized reimplementations of the List functions, as, for
example, tail-rec implementations.
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compiler warnings).
I was afraid that such a brutal refactoring breaks some obscure
invariant about linking order and side-effects but the standard
library still compiles.
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grammar.cma
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Stuff about reductions now in genredexpr.mli, operations in redops.ml
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Corresponding operations in locusops.ml and miscops.ml
The type of occurrences is now a clear algebraic one instead of
a bool*list hard to understand.
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To mitigate the lack of a general "info" tactical, let's
introduce some specialized tactics info_trivial, info_auto
and info_eauto that display the basic tactics used when
solving a goal.
We also add tactics "debug trivial" and "debug auto" which
display every basic tactics attempted by trivial or auto.
Triggering the "info" or "debug" mode for auto, eauto, trivial
can also be done now via global options, such as Set Debug Auto
or Set Info Eauto. In case both debug and info modes are
activated, the debug mode takes precedence.
NB: it would be nice to name these tactics "info xxx" instead
of "info_xxx", but I don't see how to implement a "info eauto"
in eauto.ml4 (hence by TACTIC EXTEND) while keeping
a generic "info foo" tactic in g_ltac.ml4 (useful to display
a nice message about the unavailability of the general info).
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Util only depends on Ocaml stdlib and Utf8 tables.
Generic pretty printing and loc functions are in Pp.
Generic errors are in Errors.
+ Training white-spaces, useless open, prlist copies random erasure.
Too many "open Errors" on the contrary.
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+ Allowing much more function to be defined.
+ Using completely new algorithm to define non structural fixpoints
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evars when rewriting. Use it for autorewrite and subst. Accept evars
instantiation in multi_rewrite so that rewrite alone remains
compatible (it is used in contribs, e.g. Godel, in places where it
does not seem absurd to allow it), but there are no good reason for
it. Comments welcome.
+ addition of some tests for rewriting (one being related to commit 14217)
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plugins so that errors are indeed processed. Not sure this is the best
way to do it. Maybe funind should use with_heavy_rollback for
delimitating its use of vernac commands.
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Instead of the monolitic Cerrors, I introduce a lightweight Errors module
whose error message can be expanded by module introducing exceptions.
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This reverts commit 33434695615806a85cec88452c93ea69ffc0e719.
Conflicts:
kernel/term_typing.ml
test-suite/success/polymorphism.v
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The recent experiment with -dont-load-proofs in the stdlib showed that
this options isn't fully safe: some axioms were generated (Include ?
functor application ? This is still to be fully understood).
Instead, I've implemented an idea of Yann: only load opaque proofs when
we need them. This is almost as fast as -dont-load-proofs (on the stdlib,
we're now 15% faster than before instead of 20% faster with -dont-load-proofs),
but fully compatible with Coq standard behavior.
Technically, the const_body field of Declarations.constant_body now regroup
const_body + const_opaque + const_inline in a ternary type. It is now either:
- Undef : an axiom or parameter, with an inline info
- Def : a transparent definition, with a constr_substituted
- OpaqueDef : an opaque definition, with a lazy constr_substitued
Accessing the lazy constr of an OpaqueDef might trigger the read on disk of
the final section of a .vo, where opaque proofs are located.
Some functions (body_of_constant, is_opaque, constant_has_body) emulate
the behavior of the old fields. The rest of Coq (including the checker)
has been adapted accordingly, either via direct access to the new const_body
or via these new functions. Many places look nicer now (ok, subjective notion).
There are now three options: -lazy-load-proofs (default), -force-load-proofs
(earlier semantics), -dont-load-proofs. Note that -outputstate now implies
-force-load-proofs (otherwise the marshaling fails on some delayed lazy).
On the way, I fixed what looked like a bug : a module type
(T with Definition x := c) was accepted even when x in T was opaque.
I also tried to clarify Subtyping.check_constant.
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option of "auto". Works for not too complicated hints (e.g. "@pair _ _ 0").
Would be simpler if make_apply_entry supported lemmas containing evars.
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Functions from Termops were sometimes fully qualified, sometimes not
in the same module. This commit makes their usage more uniform.
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These functions are applied much more often without labels than with
them (the alternate of adding the label wherever relevant changes 124
lines instead of 41). Moreover, this is more consistent with the Term
module and there is no ambiguity in argument types. This commit goes
towards elimination of occurrences of OCaml warning 6.
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thunks. Move from [lazy] to [delayed] in subtac.
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checking function was used instead of a test of existence in the context.
Also restricted constr_of_id which had no reason to interpret a
posteriori an already interpreted identifier as a global
reference. Consequently adapted funind.
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This is a fairly large commit (around 140 files and 7000 lines of code
impacted), it will cause some troubles for sure (I've listed the know
regressions below, there is bound to be more).
At this state of developpement it brings few features to the user, as
the old tactics were
ported with no change. Changes are on the side of the developer mostly.
Here comes a list of the major changes. I will stay brief, but the code
is hopefully well documented so that it is reasonably easy to infer the
details from it.
Feature developer-side:
* Primitives for a "real" refine tactic (generating a goal for each
evar).
* Abstract type of tactics, goals and proofs
* Tactics can act on several goals (formally all the focused goals). An
interesting consequence of this is that the tactical (. ; [ . | ... ])
can be separated in two
tacticals (. ; .) and ( [ . | ... ] ) (although there is a conflict for
this particular syntax). We can also imagine a tactic to reorder the
goals.
* Possibility for a tactic to pass a value to following tactics (a
typical example is
an intro function which tells the following tactics which name it
introduced).
* backtracking primitives for tactics (it is now possible to implement a
tactical '+'
with (a+b);c equivalent to (a;c+b;c) (itself equivalent to
(a;c||b;c)). This is a valuable
tool to implement tactics like "auto" without nowing of the
implementation of tactics.
* A notion of proof modes, which allows to dynamically change the parser
for tactics. It is controlled at user level with the keywords Set
Default Proof Mode (this is the proof mode which is loaded at the start
of each proof) and Proof Mode (switches the proof mode of the current
proof) to control them.
* A new primitive Evd.fold_undefined which operates like an Evd.fold,
except it only goes through the evars whose body is Evar_empty. This is
a common operation throughout the code,
some of the fold-and-test-if-empty occurences have been replaced by
fold_undefined. For now,
it is only implemented as a fold-and-test, but we expect to have some
optimisations coming some day, as there can be a lot of evars in an
evar_map with this new implementation (I've observed a couple of
thousands), whereas there are rarely more than a dozen undefined ones.
Folding being a linear operation, this might result in a significant
speed-up.
* The declarative mode has been moved into the plugins. This is made
possible by the proof mode feature. I tried to document it so that it
can serve as a tutorial for a tactic mode plugin.
Features user-side:
* Unfocus does not go back to the root of the proof if several Focus-s
have been performed.
It only goes back to the point where it was last focused.
* experimental (non-documented) support of keywords
BeginSubproof/EndSubproof:
BeginSubproof focuses on first goal, one can unfocus only with
EndSubproof, and only
if the proof is completed for that goal.
* experimental (non-documented) support for bullets ('+', '-' and '*')
they act as hierarchical BeginSubproof/EndSubproof:
First time one uses '+' (for instance) it focuses on first goal, when
the subproof is
completed, one can use '+' again which unfocuses and focuses on next
first goal.
Meanwhile, one cas use '*' (for instance) to focus more deeply.
Known regressions:
* The xml plugin had some functions related to proof trees. As the
structure of proof changed significantly, they do not work anymore.
* I do not know how to implement info or show script in this new engine.
Actually I don't even know what they were suppose to actually mean in
earlier versions either. I wager they would require some calm thinking
before going back to work.
* Declarative mode not entirely working (in particular proofs by
induction need to be restored).
* A bug in the inversion tactic (observed in some contributions)
* A bug in Program (observed in some contributions)
* Minor change in the 'old' type of tactics causing some contributions
to fail.
* Compilation time takes about 10-15% longer for unknown reasons (I
suspect it might be linked to the fact that I don't perform any
reduction at QED-s, and also to some linear operations on evar_map-s
(see Evd.fold_undefined above)).
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