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8.0 -> today

See the main CHANGES file in the archive


7.4 -> 8.0

No revolution this time. Mostly "behind-the-scene" clean-up and bug-fixes, 
but also a few steps toward a more user-friendly extraction:

* syntax of extraction: 
- The old   (Recursive) Extraction Module M.
  is now    (Recursive) Extraction Library M.
  The old name was misleading since this command only works with M being a 
  library M.v, and not a module produced by interactive command Module M. 
- The other commands 
    Extraction foo.
    Recursive Extraction foo bar.
    Extraction "myfile.ml" foo bar. 
  now accept that foo can be a module name instead of just a constant name. 

* Support of type scheme axioms (i.e. axiom whose type is an arity 
  (x1:X1)...(xn:Xn)s with s a sort). For example: 

   Axiom myprod : Set -> Set -> Set.
   Extract Constant myprod "'a" "'b" => "'a * 'b". 
   Recursive Extraction myprod. 
   -------> type ('a,'b) myprod = 'a * 'b		

* More flexible support of axioms. When an axiom isn't realized via Extract 
  Constant before extraction, a warning is produced (instead of an error), 
  and the extracted code must be completed later by hand. To find what
  needs to be completed, search for the following string: AXIOM TO BE REALIZED

* Cosmetics: When extraction produces a file, it tells it. 

* (Experimental) It is allowed to extract under a opened interactive module
  (but still outside sections). Feature to be used with caution. 

* A problem has been identified concerning .v files used as normal interactive 
  modules, like in 
    
    <file A.v>
    Definition foo :=O.
    <End file A.v>

    <at toplevel>
    Require A.
    Module M:=A
    Extraction M.

  I might try to support that in the future. In the meanwhile, the
  current behaviour of extraction is to forbid this.

* bug fixes: 
- many concerning Records. 
- a Stack Overflow with mutual inductive (PR#320)
- some optimizations have been removed since they were not type-safe:
  For example if e has type:  type 'x a = A
  Then:       match e with A -> A     -----X---->    e
  To be investigated further.


7.3 -> 7.4

* The two main new features: 
  - Automatic generation of Obj.magic when the extracted code 
  in Ocaml is not directly typable.
  - An experimental extraction of Coq's new modules to Ocaml modules. 

* Concerning those Obj.magic: 
  - The extraction now computes the expected type of any terms. Then 
  it compares it with the actual type of the produced code. And when 
  a mismatch is found, a Obj.magic is inserted. 
  
  - As a rule, any extracted development that was compiling out of the box 
  should not contain any Obj.magic. At the other hand, generation of 
  Obj.magic is not optimized yet: there might be several of them at a place 
  were one would have been enough. 
  
  - Examples of code needing those Obj.magic: 
     * plugins/extraction/test_extraction.v in the Coq source
     * in the users' contributions: 
	Lannion
	Lyon/CIRCUITS
        Rocq/HIGMAN
 
  - As a side-effect of this Obj.magic feature, we now print the types 
  of the extracted terms, both in .ml files as commented documentation 
  and in interfaces .mli files

  - This feature hasn't been ported yet to Haskell. We are aware of 
  some unsafe casting functions like "unsafeCoerce" on some Haskell implems.
  So it will eventually be done.

* Concerning the extraction of Coq's new modules: 
  - Taking in account the new Coq's modules system has implied a *huge*
  rewrite of most of the extraction code.

  - The extraction core (translation from Coq to an abstract mini-ML) 
  is now complete and fairly stable, and supports modules, modules type 
  and functors and all that stuff.

  - The ocaml pretty-print part, especially the renaming issue, is 
  clearly weaker, and certainly still contains bugs. 

  - Nothing done for translating these Coq Modules to Haskell.

  - A temporary drawback of this module extraction implementation is that 
  efficiency (especially extraction speed) has been somehow neglected.
  To improve ...

  - As an interesting side-effect, definitions are now printed according to 
  the user's original order. No more of this "dependency-correct but weird"
  order. In particular realized axioms via Extract Constant are now at their 
  right place, and not at the beginning. 

* Other news: 
  
  - Records are now printed using the Ocaml record syntax
 
  - Syntax output toward Scheme. Quite funny, but quite experimental and 
  not documented. I recommend using the bigloo compiler since it contains 
  natively some pattern matching.

  - the dummy constant "__" have changed. see README

  - a few bug-fixes (#191 and others)

7.2 -> 7.3

* Improved documentation in the Reference Manual.

* Theoretical bad news: 
- a naughty example (see the end of test_extraction.v)
forced me to stop eliminating lambdas and arguments corresponding to 
so-called "arity" in the general case. 

- The dummy constant used in extraction ( let prop = () in ocaml ) 
may in some cases be applied to arguments. This problem is dealt by 
generating sufficient abstraction before the (). 


* Theoretical good news: 
- there is now a mechanism that remove useless prop/arity lambdas at the 
top of function declarations. If your function had signature 
nat -> prop -> nat in the previous extraction, it will now be nat -> nat. 
So the extractions of common terms should look very much like the old 
V6.2 one, except in some particular cases (functions as parameters, partial 
applications, etc). In particular the bad news above have nearly no 
impact...


* By the way there is no more "let prop = ()" in ocaml. Those () are
directly inlined. And in Haskell the dummy constant is now __ (two
underscore) and is defined by 
__ = Prelude.error "Logical or arity value used"
This dummy constant should never be evaluated when computing an
informative value, thanks to the lazy strategy. Hence the error message. 


* Syntax changes, see Documentation for details: 

Extraction Language Ocaml.
Extraction Language Haskell. 
Extraction Language Toplevel.

That fixes the target language of extraction. Default is Ocaml, even in the 
coq toplevel: you can now do copy-paste from the coq toplevel without 
renaming problems. Toplevel language is the ocaml pseudo-language used 
previously used inside the coq toplevel: coq names are printed with the coq 
way, i.e. with no renaming. 

So there is no more particular commands for Haskell, like 
Haskell Extraction "file" id. Just set your favourite language and go... 


* Haskell extraction has been tested at last (and corrected...). 
See specificities in Documentation. 


* Extraction of CoInductive in Ocaml language is now correct: it uses the 
Lazy.force and lazy features of Ocaml. 


* Modular extraction in Ocaml is now far more readable: 
instead of qualifying everywhere (A.foo), there are now some "open" at the 
beginning of files. Possible clashes are dealt with. 


* By default, any recursive function associated with an inductive type 
(foo_rec and foo_rect when foo is inductive type) will now be inlined 
in extracted code. 


* A few constants are explicitely declared to be inlined in extracted code. 
For the moment there are: 
	Wf.Acc_rec
	Wf.Acc_rect
	Wf.well_founded_induction
	Wf.well_founded_induction_type
Those constants does not match the auto-inlining criterion based on strictness.
Of course, you can still overide this behaviour via some Extraction NoInline. 

* There is now a web page showing the extraction of all standard theories: 
http://www.lri.fr/~letouzey/extraction


7.1 -> 7.2 :

* Syntax changes, see Documentation for more details: 

Set/Unset Extraction Optimize. 

Default is Set. This control all optimizations made on the ML terms 
(mostly reduction of dummy beta/iota redexes, but also simplications on 
Cases, etc). Put this option to Unset if you what a ML term as close as 
possible to the Coq term.

Set/Unset Extraction AutoInline. 

Default in Set, so by default, the extraction mechanism feels free to 
inline the bodies of some defined constants, according to some heuristics 
like size of bodies, useness of some arguments, etc. Those heuristics are 
not always perfect, you may want to disable this feature, do it by Unset. 

Extraction Inline toto foo. 
Extraction NoInline titi faa bor. 

In addition to the automatic inline feature, you can now tell precisely to 
inline some more constants by the Extraction Inline command. Conversely, 
you can forbid the inlining of some specific constants by automatic inlining. 
Those two commands enable a precise control of what is inlined and what is not. 

Print Extraction Inline. 

Sum up the current state of the table recording the custom inlings 
(Extraction (No)Inline). 

Reset Extraction Inline. 

Put the table recording the custom inlings back to empty. 

As a consequence, there is no more need for options inside the commands of 
extraction: 

Extraction foo. 
Recursive Extraction foo bar. 
Extraction "file" foo bar. 
Extraction Module Mymodule. 
Recursive Extraction Module Mymodule. 

New: The last syntax extracts the module Mymodule and all the modules 
it depends on. 

You can also try the Haskell versions (not tested yet): 

Haskell Extraction foo.
Haskell Recursive Extraction foo bar.
Haskell Extraction "file" foo bar.
Haskell Extraction Module Mymodule.
Haskell Recursive Extraction Module Mymodule.

And there's still the realization syntax: 

Extract Constant coq_bla => "caml_bla".
Extract Inlined Constant coq_bla => "caml_bla".
Extract Inductive myinductive => mycamlind [my_caml_constr1 ... ].

Note that now, the Extract Inlined Constant command is sugar for an Extract 
Constant followed by a Extraction Inline. So be careful with 
Reset Extraction Inline. 

 

* Lot of works around optimization of produced code. Should make code more 
readable. 

- fixpoint definitions : there should be no more stupid printings like 

let foo x = 
  let rec f x = 
    .... (f y) ....
  in f x

but rather 

let rec foo x = 
  .... (foo y) .... 

- generalized iota (in particular iota and permutation cases/cases):

A generalized iota redex is a "Cases e of ...." where e is ok. 
And the recursive predicate "ok" is given by:  
e is ok if e is a Constructor or a Cases where all branches are ok.
In the case of generalized iota redex, it might be good idea to reduce it, 
so we do it. 
Example: 

match (match t with 
         O -> Left
       | S n -> match n with 
                  O -> Right 
                | S m -> Left) with 
 Left -> blabla 
| Right -> bloblo

After simplification, that gives: 

match t with 
  O -> blabla
| S n -> match n with 
          O -> bloblo
        | S n -> blabla

As shown on the example, code duplication can occur. In practice 
it seems not to happen frequently. 

- "constant" case:
In V7.1 we used to simplify cases where all branches are the same. 
In V7.2 we can simplify in addition terms like 
	cases e of 
	  C1 x y -> f (C x y)
	| C2 z -> f (C2 z) 
If x y z don't occur in f, we can produce (f e). 

- permutation cases/fun: 
extracted code has frequenty functions in branches of cases: 

let foo x = match x with 
   O -> fun _ -> .... 
 | S y -> fun _ -> .... 

the optimization consist in lifting the common "fun _ ->", and that gives
 
let foo x _ = match x with 
   O -> .....
 | S y -> ....
 

* Some bug corrections (many thanks in particular to Michel Levy). 

* Testing in coq contributions: 
If you are interested in extraction, you can look at the extraction tests 
I'have put in the following coq contributions 

Bordeaux/Additions			computation of fibonacci(2000)
Bordeaux/EXCEPTIONS			multiplication using exception.
Bordeaux/SearchTrees			list -> binary tree. maximum.
Dyade/BDDS				boolean tautology checker.
Lyon/CIRCUITS				multiplication via a modelization of a circuit.
Lyon/FIRING-SQUAD			print the states of the firing squad.
Marseille/CIRCUITS			compares integers via a modelization of a circuit. 
Nancy/FOUnify				unification of two first-order terms.
Rocq/ARITH/Chinese			computation of the chinese remainder.  
Rocq/COC				small coc typechecker. (test by B. Barras, not by me)
Rocq/HIGMAN				run the proof on one example. 
Rocq/GRAPHS				linear constraints checker in Z. 
Sophia-Antipolis/Stalmarck		boolean tautology checker.
Suresnes/BDD				boolean tautology checker.

Just do "make" in those contributions, the extraction test is integrated. 
More tests will follow on more contributions.



7.0 -> 7.1 : mostly bug corrections. No theoretical problems dealed with.

* The semantics of Extract Constant changed: If you provide a extraction 
for p by Extract Constant p => "0", your generated ML file will begin by 
a let p = 0. The old semantics, which was to replace p everywhere by the
provided terms, is still available via the Extract Inlined Constant p => 
"0" syntax.


* There are more optimizations applied to the generated code: 
- identity cases: match e with P x y -> P x y | Q z -> Q z | ...
is simplified into e. Especially interesting with the sumbool terms: 
there will be no more match ... with Left -> Left | Right -> Right

- constant cases: match e with P x y -> c | Q z -> c | ...
is simplified into c as soon as x, y, z do not occur in c.
So no more match ... with Left -> Left | Right -> Left.
  

* the extraction at Toplevel (Extraction foo and Recursive Extraction foo),
which was only a development tool at the beginning, is now closer to 
the real extraction to a file. In particular optimizations are done, 
and constants like recursors ( ..._rec ) are expanded. 


* the singleton optimization is now protected against circular type.
( Remind : this optimization is the one that simplify 
type 'a sig = Exists of 'a  into type 'a sig = 'a and 
match e with (Exists c) -> d into let c = e in d ) 


* Fixed one bug concerning casted code


* The inductives generated should now have always correct type-var list 
('a,'b,'c...)


* Code cleanup until three days before release. Messing-up code 
in the last three days before release.







6.x -> 7.0 : Everything changed. See README