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* [ltac] Deprecate nameless fix/cofix.Gravatar Emilio Jesus Gallego Arias2018-04-13
| | | | | | | | | | | | LTAC's `fix` and `cofix` do require access to the proof object inside the tactic monad when used without a name. This is a bit inconvenient as we aim to make the handling of the proof object purely functional. Alternatives have been discussed in #7196, and it seems that deprecating the nameless forms may have the best cost/benefit ratio, so opening this PR for discussion. See also #6171.
* Merge PR #6855: Update headers following #6543.Gravatar Maxime Dénès2018-03-05
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* | Remove the deprecation for some 8.2-8.5 compatibility aliases.Gravatar Théo Zimmermann2018-03-02
| | | | | | | | | | | | | | | | | | | | This was decided during the Fall WG (2017). The aliases that are kept as deprecated are the ones where the difference is only a prefix becoming a qualified module name. The intention is to turn the warning for deprecated notations on. We change the compat version to 8.6 to allow the removal of VOld and V8_5.
| * Update headers following #6543.Gravatar Théo Zimmermann2018-02-27
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* Decimal: proofs that conversions from/to nat,N,Z are bijectionsGravatar Pierre Letouzey2018-02-20
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* Decimal: simple representation of base-10 numbersGravatar Pierre Letouzey2018-02-20
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* Bump year in headers.Gravatar Pierre-Marie Pédrot2017-07-04
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* drop vo.itarget files and compute the corresponding the corresponding values ↵Gravatar Matej Kosik2017-06-01
| | | | automatically instead
* A couple of other useful properties about compare_cont.Gravatar Hugo Herbelin2017-03-03
| | | | | Don't know if compare_cont is very useful to use, but, at least, these extensions make sense.
* Giving a more natural semantics to injection by default.Gravatar Hugo Herbelin2016-06-18
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | There were three versions of injection: 1. "injection term" without "as" clause: was leaving hypotheses on the goal in reverse order 2. "injection term as ipat", first version: was introduction hypotheses using ipat in reverse order without checking that the number of ipat was the size of the injection (activated with "Unset Injection L2R Pattern Order") 3. "injection term as ipat", second version: was introduction hypotheses using ipat in left-to-right order checking that the number of ipat was the size of the injection and clearing the injecting term by default if an hypothesis (activated with "Set Injection L2R Pattern Order", default one from 8.5) There is now: 4. "injection term" without "as" clause, new version: introducing the components of the injection in the context in left-to-right order using default intro-patterns "?" and clearing the injecting term by default if an hypothesis (activated with "Set Structural Injection") The new versions 3. and 4. are the "expected" ones in the sense that they have the following good properties: - introduction in the context is in the natural left-to-right order - "injection" behaves the same with and without "as", always introducing the hypotheses in the goal what corresponds to the natural expectation as the changes I made in the proof scripts for adaptation confirm - clear the "injection" hypothesis when an hypothesis which is the natural expectation as the changes I made in the proof scripts for adaptation confirm The compatibility can be preserved by "Unset Structural Injection" or by calling "simple injection". The flag is currently off.
* Update copyright headers.Gravatar Maxime Dénès2016-01-20
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* Remove some outdated files and fix permissions.Gravatar Guillaume Melquiond2015-07-31
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* Update headers.Gravatar Maxime Dénès2015-01-12
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* eta contractionsGravatar Pierre Boutillier2014-10-01
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* Simpl less (so that cbn will not simpl too much)Gravatar Pierre Boutillier2014-10-01
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* Grammar: "allowing to" is not proper EnglishGravatar Jason Gross2014-08-25
| | | | | | | | | | | I'm not quite sure why, but I'm pretty sure it's not. Rather, in "allowing for foo" and "allowing to foo", "foo" modifies the sense in which someting is allowed, rather than it being "foo" that's allowed. "Allowing fooing" generally works, though it can sound a bit awkward. "Allowing one to foo" (or "Allowing {him,her,it,Coq} to foo") is always acceptable, in-as-much as it's ok to use "one". I haven't touched the older instances of it in the CHANGES file.
* Arith: full integration of the "Numbers" modular frameworkGravatar Pierre Letouzey2014-07-09
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | - The earlier proof-of-concept file NPeano (which instantiates the "Numbers" framework for nat) becomes now the entry point in the Arith lib, and gets renamed PeanoNat. It still provides an inner module "Nat" which sums up everything about type nat (functions, predicates and properties of them). This inner module Nat is usable as soon as you Require Import Arith, or just Arith_base, or simply PeanoNat. - Definitions of operations over type nat are now grouped in a new file Init/Nat.v. This file is meant to be used without "Import", hence providing for instance Nat.add or Nat.sqrt as soon as coqtop starts (but no proofs about them). - The definitions that used to be in Init/Peano.v (pred, plus, minus, mult) are now compatibility notations (for Nat.pred, Nat.add, Nat.sub, Nat.mul where here Nat is Init/Nat.v). - This Coq.Init.Nat module (with only pure definitions) is Include'd in the aforementioned Coq.Arith.PeanoNat.Nat. You might see Init.Nat sometimes instead of just Nat (for instance when doing "Print plus"). Normally it should be ok to just ignore these "Init" since Init.Nat is included in the full PeanoNat.Nat. I'm investigating if it's possible to get rid of these "Init" prefixes. - Concerning predicates, orders le and lt are still defined in Init/Peano.v, with their notations "<=" and "<". Properties in PeanoNat.Nat directly refer to these predicates in Peano. For instantation reasons, PeanoNat.Nat also contains a Nat.le and Nat.lt (defined via "Definition le := Peano.le", we cannot yet include an Inductive to implement a Parameter), but these aliased predicates won't probably be very convenient to use. - Technical remark: I've split the previous property functor NProp in two parts (NBasicProp and NExtraProp), it helps a lot for building PeanoNat.Nat incrementally. Roughly speaking, we have the following schema: Module Nat. Include Coq.Init.Nat. (* definition of operations : add ... sqrt ... *) ... (** proofs of specifications for basic ops such as + * - *) Include NBasicProp. (** generic properties of these basic ops *) ... (** proofs of specifications for advanced ops (pow sqrt log2...) that may rely on proofs for + * - *) Include NExtraProp. (** all remaining properties *) End Nat. - All other files in directory Arith are now taking advantage of PeanoNat : they are now filled with compatibility notations (when earlier lemmas have exact counterpart in the Nat module) or lemmas with one-line proofs based on the Nat module. All hints for database "arith" remain declared in these old-style file (such as Plus.v, Lt.v, etc). All the old-style files are still Require'd (or not) by Arith.v, just as before. - Compatibility should be almost complete. For instance in the stdlib, the only adaptations were due to .ml code referring to some Coq constant name such as Coq.Init.Peano.pred, which doesn't live well with the new compatibility notations.
* Cbn reduces Pos.compare p~1 q~1 to Pos.compare p qGravatar Pierre Boutillier2014-05-26
| | | | (refolding of cbn is smarter)
* This commit adds full universe polymorphism and fast projections to Coq.Gravatar Matthieu Sozeau2014-05-06
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | Add [Polymorphic] and [Monomorphic] local flag for definitions as well as [Set Universe Polymorphism] global flag to make all following definitions polymorphic. Mainly syntax for now. First part of the big changes to the kernel: - Const, Ind, Construct now come with a universe level instance - It is used for type inference in the kernel, which now also takes a graph as input: actually a set of local universe variables and their constraints. Type inference just checks that the constraints are enough to satisfy its own rules. - Remove polymorphic_arity and _knowing_parameters everywhere: we don't need full applications for polymorphism to apply anymore, as we generate fresh variables at each constant/inductive/constructor application. However knowing_parameters variants might be reinstated later for optimization. - New structures exported in univ.mli: - universe_list for universe level instances - universe_context(_set) for the local universe constraints, also recording which variables will be local and hence generalized after inference if defining a polymorphic ind/constant. - this patch makes coq stop compiling at indtypes.ml Adapt kernel, library, pretyping, tactics and toplevel to universe polymorphism. Various degrees of integration, places where I was not sure what to do or just postponed bigger reorganizations of the code are marked with FIXMEs. Main changes: - Kernel now checks constraints and does not infer them anymore. - The inference functions produce a context of constraints that were checked during inference, useful to do double-checking of the univ. poly. code but might be removed later. - Constant, Inductive entries now have a universe context (local variables and constraints) associated to them. - Printing, debugging functions for the new structures are also implemented. - Now stopping at Logic.v - Lots of new code in kernel/univ.ml that should be reviewed. - kernel/indtypes probably does not do what's right when inferring inductive type constraints. - Adapted evd to use the new universe context structure. - Did not deal with unification/evar_conv. - Add externalisation code for universe level instances. - Support for polymorphism in pretyping/command and proofs/proofview etc. Needed wrapping of [fresh_.._instance] through the evar_map, which contains the local state of universes during type-checking. - Correct the inductive scheme generation to support polymorphism as well. - Have to review kernel code for correctness, and especially rework the computation of universe constraints for inductives. Stops somewhat later in Logic.v - Fix naming of local/toplevel universes to be correctly done at typechecking time: local variables have no dirpath. - Add code to do substitution of universes in modules, not finished yet. - Move fresh_* functions out of kernel, it won't ever build a universe level again! - Adapt a lot of new_Type to use the correct dirpath and declare the new types in the evar_map so we keep track of them. - A bit of code factorization (evd_comb moved, pretype_global). - Refactor more code - Adapt plugins code (sometimes wrong, marked with FIXME) - Fix cases generating unneeded universe (not sure it's ok though) - Fix scheme generation for good, might have opportunity to cleanup the terms later. Init compiles now (which means rewrite, inversion, elim etc.. work as well). - Unsolved issue of pretyping to lower sorts properly (to Prop for example). This has to do with the (Retyping.get_type_of) giving algebraic universes that would appear on the right of constraints. This makes checking for dangling universes at the end of pretyping fail, hence the check in kernel/univ was removed. It should come back when we have a fix for this. - Correctly (?) compute the levels of inductive types. Removed old code pertaining to universe polymorphism. Note that we generate constraint variables for the conclusion of inductive types invariably. - Shrink constraints before going to the kernel, combine substitution of the smaller universe set with normalization of evars (maybe not done everywhere, only ordinary inductives, definitions and proofs) - More API reworks overall. tclPUSHCONTEXT can be used to add fresh universes to the proof goal (used in a few places to get the right instance. - Quick fix for auto that won't work in the long run. It should always have been restricted to take constant references as input, without any loss of generality over constrs. Fix some plugins and insertion of non-polymorphic constants in a module. Now stops in relation classes. Cleanup and move code from kernel to library and from pretyping to library too. Now there is a unique universe counter declared in library/universes.ml along with all the functions to generate new universes and get fresh constant/inductive terms. - Various function renamings - One important change in kernel/univ.ml: now [sup] can be applied to Prop. - Adapt records/classes to universe polymorphism - Now stops in EqDepFacts due to imprecise universe polymorphism. Forgot to git add those files. interp_constr returns the universe context The context is then pushed through the environment (or proof goal sigma). - Fix insertion of constants/inductives in env, pushing constraints to the global env for non-polymorphic ones. - Add Prop as a universe level to do proper type inference with sorts. It is allowed to take [sup] of [Prop] now. - New nf_evar based on new Evd.map(_undefined) - In proofs/logic.ml: conv_leq_goal might create some constraints that are now recorded. - Adapt Program code to universes. Merge with latest trunk + fixes -Use new constr_of_global from universes - fix eqschemes to use polymorphic universes - begin fixing cctac but f_equal still fails - fix [simpl] and rest of tacred - all the eq_constr with mkConst foo should be fixed as well, only partially done - Fix term hashing function to recognize equal terms up to universe instances. - Fix congruence closure to equate terms that differ only in universe instances, these will be resolved by constraints. Add a set of undefined universe variables to unification. Universe variables can now be declared rigid or flexible (unifiable). Flexible variables are resolved at the end of typechecking by instantiating them to their glb, adding upper bound constraints associated to them. Also: - Add polymorphic flag for inductives. - Fix cooking partially - Fix kernel/univ.ml to do normalization of universe expressions at the end of substitution. Correct classes/structures universe inference - Required a bit of extension in Univ to handle Max properly (sup u (u+1)) was returning (max(u,u+1)) for example. - Try a version where substitution of universe expressions for universe levels is allowed at the end of unification. By an invariant this should only instantiate with max() types that are morally "on the right" only. This is controlled using a rigidity attribute of universe variables, also allowing to properly do unification w.r.t. universes during typechecking/inference. - Currently fails in Vectors/Fin.v because case compilation generates "flexible" universes that actually appear in the term... Fix unification of universe variables. - Fix choice of canonical universe in presence of universe constraints, and do so by relying on a trichotomy for universe variables: rigid (won't be substituted), flexible (might be if not substituted by an algebraic) and flexible_alg (always substituted). - Fix romega code and a few more plugins, most of the standard library goes through now. - Had to define some inductives as Polymorphic explicitly to make proofs go through, more to come, and definitions should be polymorphic too, otherwise inconsistencies appear quickly (two uses of the same polymorphic ind through monomorphic functions (like nth on lists of Props and nats) will fix the monomorphic function's universe with eq constraints that are incompatible). - Correct universe polymorphism handling for fixpoint/cofixpoint definitions. - Fix romega to use the right universes for list constructors. - Fix internalization/externalization to deal properly with the implicit parsing of params. - Fix fourier tactic w.r.t. GRefs - Fix substitution saturation of universes. - Fix number syntax plugin. - Fix setoid_ring to take its coefficients in a Set rather than a Type, avoiding a large number of useless universe constraints. - Fix minor checker decl - Fix btauto w.r.t. GRef - Fix proofview to normalize universes in the original types as well. - Fix definitions of projections to not take two universes at the same level, but at different levels instead, avoiding unnecessary constraints that could lower the level of one component depending on the use of the other component. Fix simpl fst, snd to use @fst @snd as they have maximal implicits now. - More simpl snd, fst fixes. - Try to make the nth theory of lists polymorphic. Check with Enrico if this change is ok. Case appearing in RingMicromega's call to congruence l417, through a call to refine -> the_conv_x_leq. Compile everything. - "Fix" checker by deactivating code related to polymorphism, should be updated. - Make most of List.v polymorphic to help with following definitions. - When starting a lemma, normalize w.r.t. universes, so that the types get a fixed universe, not refinable later. - In record, don't assign a fully flexible universe variable to the record type if it is a definitional typeclass, as translate_constant doesn't expect an algebraic universe in the type of a constant. It certainly should though. - Fix micromega code. Fix after rebase. Update printing functions to print the polymorphic status of definitions and their universe context. Refine printing of universe contexts - Fix printer for universe constraints - Rework normalization of constraints to separate the Union-Find result from computation of lubs/glbs. Keep universe contexts of inductives/constants in entries for correct substitution inside modules. Abstract interface to get an instantiation of an inductive with its universe substitution in the kernel (no substitution if the inductive is not polymorphic, even if mind_universes is non-empty). Make fst and snd polymorphic, fix instances in RelationPairs to use different universes for the two elements of a pair. - Fix bug in nf_constraints: was removing Set <= constraints, but should remove Prop <= constraints only. - Make proj1_sig, projT1... polymorphic to avoid weird universe unifications, giving rise to universe inconsistenties. Adapt auto hints to polymorphic references. Really produce polymorphic hints... second try - Remove algebraic universes that can't appear in the goal when taking the type of a lemma to start. Proper handling of universe contexts in clenv and auto so that polymorphic hints are really refreshed at each application. Fix erroneous shadowing of sigma variable. - Make apparent the universe context used in pretyping, including information about flexibility of universe variables. - Fix induction to generate a fresh constant instance with flexible universe variables. Add function to do conversion w.r.t. an evar map and its local universes. - Fix define_evar_as_sort to not forget constraints coming from the refinement. - Do not nf_constraints while we don't have the whole term at hand to substitute in. - Move substitution of full universes to Universes - Normalize universes inside an evar_map when doing nf_evar_map_universes. - Normalize universes at each call to interp_ltac (potentially expensive) Do not normalize all evars at each call to interp_gen in tactics: rather incrementally normalize the terms at hand, supposing the normalization of universes will concern only those appearing in it (dangerous but much more efficient). Do not needlessly generate new universes constraints for projections of records. Correct polymorphic discharge of section variables. Fix autorewrite w.r.t. universes: polymorphic rewrite hints get fresh universe instances at each application. Fix r2l rewrite scheme to support universe polymorphism Fix a bug in l2r_forward scheme and fix congruence scheme to handle polymorphism correctly. Second try at fixing autorewrite, cannot do without pushing the constraints and the set of fresh universe variables into the proof context. - tclPUSHCONTEXT allow to set the ctx universe variables as flexible or rigid - Fix bug in elimschemes, not taking the right sigma Wrong sigma used in leibniz_rewrite Avoid recomputation of bounds for equal universes in normalization of constraints, only the canonical one need to be computed. Make coercions work with universe polymorphic projections. Fix eronneous bound in universes constraint solving. Make kernel reduction and term comparison strictly aware of universe instances, with variants for relaxed comparison that output constraints. Otherwise some constraints that should appear during pretyping don't and we generate unnecessary constraints/universe variables. Have to adapt a few tactics to this new behavior by making them universe aware. - Fix elimschemes to minimize universe variables - Fix coercions to not forget the universe constraints generated by an application - Change universe substitutions to maps instead of assoc lists. - Fix absurd tactic to handle univs properly - Make length and app polymorphic in List, unification sets their levels otherwise. Move to modules for namespace management instead of long names in universe code. More putting things into modules. Change evar_map structure to support an incremental substitution of universes (populated from Eq constraints), allowing safe and fast inference of precise levels, without computing lubs. - Add many printers and reorganize code - Extend nf_evar to normalize universe variables according to the substitution. - Fix ChoiceFacts.v in Logic, no universe inconsistencies anymore. But Diaconescu still has one (something fixes a universe to Set). - Adapt omega, functional induction to the changes. Fix congruence, eq_constr implem, discharge of polymorphic inductives. Fix merge in auto. The [-parameters-matter] option (formerly relevant_equality). Add -parameters-matter to coqc Do compute the param levels at elaboration time if parameters_matter. - Fix generalize tactic - add ppuniverse_subst - Start fixing normalize_universe_context w.r.t. normalize_univ_variables. - Fix HUGE bug in Ltac interpretation not folding the sigma correctly if interpreting a tactic application to multiple arguments. - Fix bug in union of universe substitution. - rename parameters-matter to indices-matter - Fix computation of levels from indices not parameters. - Fixing parsing so that [Polymorphic] can be applied to gallina extensions. - When elaborating definitions, make the universes from the type rigid when checking the term: they should stay abstracted. - Fix typeclasses eauto's handling of universes for exact hints. Rework all the code for infering the levels of inductives and checking their allowed eliminations sorts. This is based on the computation of a natural level for an inductive type I. The natural level [nat] of [I : args -> sort := c1 : A1 -> I t1 .. cn : An -> I tn] is computed by taking the max of the levels of the args (if indices matter) and the levels of the constructor arguments. The declared level [decl] of I is [sort], which might be Prop, Set or some Type u (u fresh or not). If [decl >= nat && not (decl = Prop && n >= 2)], the level of the inductive is [decl], otherwise, _smashing_ occured. If [decl] is impredicative (Prop or Set when Set is impredicative), we accept the declared level, otherwise it's an error. To compute the allowed elimination sorts, we have the following situations: - No smashing occured: all sorts are allowed. (Recall props that are not smashed are Empty/Unitary props) - Some smashing occured: - if [decl] is Type, we allow all eliminations (above or below [decl], not sure why this is justified in general). - if [decl] is Set, we used smashing for impredicativity, so only small sorts are allowed (Prop, Set). - if [decl] is Prop, only logical sorts are allowed: I has either large universes inside it or more than 1 constructor. This does not treat the case where only a Set appeared in I which was previously accepted it seems. All the standard library works with these changes. Still have to cleanup kernel/indtypes.ml. It is a good time to have a whiskey with OJ. Thanks to Peter Lumsdaine for bug reporting: - fix externalisation of universe instances (still appearing when no Printing Universes) - add [convert] and [convert_leq] tactics that keep track of evars and universe constraints. - use them in [exact_check]. Fix odd behavior in inductive type declarations allowing to silently lower a Type i parameter to Set for squashing a naturally Type i inductive to Set. Reinstate the LargeNonPropInductiveNotInType exception. Fix the is_small function not dealing properly with aliases of Prop/Set in Type. Add check_leq in Evd and use it to decide if we're trying to squash an inductive naturally in some Type to Set. - Fix handling of universe polymorphism in typeclasses Class/Instance declarations. - Don't allow lowering a rigid Type universe to Set silently. - Move Ring/Field back to Type. It was silently putting R in Set due to the definition of ring_morph. - Rework inference of universe levels for inductive definitions. - Make fold_left/right polymorphic on both levels A and B (the list's type). They don't have to be at the same level. Handle selective Polymorphic/Monomorphic flag right for records. Remove leftover command Fix after update with latest trunk. Backport patches on HoTT/coq to rebased version of universe polymorphism. - Fix autorewrite wrong handling of universe-polymorphic rewrite rules. Fixes part of issue #7. - Fix the [eq_constr_univs] and add an [leq_constr_univs] to avoid eager equation of universe levels that could just be inequal. Use it during kernel conversion. Fixes issue #6. - Fix a bug in unification that was failing too early if a choice in unification of universes raised an inconsistency. - While normalizing universes, remove Prop in the le part of Max expressions. - Stop rigidifying the universes on the right hand side of a : in definitions. - Now Hints can be declared polymorphic or not. In the first case they must be "refreshed" (undefined universes are renamed) at each application. - Have to refresh the set of universe variables associated to a hint when it can be used multiple times in a single proof to avoid fixing a level... A better & less expensive solution should exist. - Do not include the levels of let-ins as part of records levels. - Fix a NotConvertible uncaught exception to raise a more informative error message. - Better substitution of algebraics in algebraics (for universe variables that can be algebraics). - Fix issue #2, Context was not properly normalizing the universe context. - Fix issue with typeclasses that were not catching UniverseInconsistencies raised by unification, resulting in early failure of proof-search. - Let the result type of definitional classes be an algebraic. - Adapt coercions to universe polymorphic flag (Identity Coercion etc..) - Move away a dangerous call in autoinstance that added constraints for every polymorphic definitions once in the environment for no use. Forgot one part of the last patch on coercions. - Adapt auto/eauto to polymorphic hints as well. - Factor out the function to refresh a clenv w.r.t. undefined universes. Use leq_univ_poly in evarconv to avoid fixing universes. Disallow polymorphic hints based on a constr as it is not possible to infer their universe context. Only global references can be made polymorphic. Fixes issue #8. Fix SearchAbout bug (issue #10). Fix program w.r.t. universes: the universe context of a definition changes according to the successive refinements due to typechecking obligations. This requires the Proof modules to return the generated universe substitution when finishing a proof, and this information is passed in the closing hook. The interface is not very clean, will certainly change in the future. - Better treatment of polymorphic hints in auto: terms can be polymorphic now, we refresh their context as well. - Needs a little change in test-pattern that seems breaks multiary uses of destruct in NZDiv.v, l495. FIX to do. Fix [make_pattern_test] to keep the universe information around and still allow tactics to take multiple patterns at once. - Fix printing of universe instances that should not be factorized blindly - Fix handling of the universe context in program definitions by allowing the hook at the end of an interactive proof to give back the refined universe context, before it is transformed in the kernel. - Fix a bug in evarconv where solve_evar_evar was not checking types of instances, resulting in a loss of constraints in unification of universes and a growing number of useless parametric universes. - Move from universe_level_subst to universe_subst everywhere. - Changed representation of universes for a canonical one - Adapt the code so that universe variables might be substituted by arbitrary universes (including algebraics). Not used yet except for polymorphic universe variables instances. - Adapt code to new constraint structure. - Fix setoid rewrite handling of evars that was forgetting the initial universe substitution ! - Fix code that was just testing conversion instead of keeping the resulting universe constraints around in the proof engine. - Make a version of reduction/fconv that deals with the more general set of universe constraints. - [auto using] should use polymorphic versions of the constants. - When starting a proof, don't forget about the algebraic universes in the universe context. Rationalize substitution and normalization functions for universes. Also change back the structure of universes to avoid considering levels n+k as pure levels: they are universe expressions like max. Everything is factored out in the Universes and Univ modules now and the normalization functions can be efficient in the sense that they can cache the normalized universes incrementally. - Adapt normalize_context code to new normalization/substitution functions. - Set more things to be polymorphic, e.g. in Ring or SetoidList for the rest of the code to work properly while the constraint generation code is not adapted. And temporarily extend the universe constraint code in univ to solve max(is) = max(js) by first-order unification (these constraints should actually be implied not enforced). - Fix romega plugin to use the right universes for polymorphic lists. - Fix auto not refreshing the poly hints correctly. - Proper postponing of universe constraints during unification, avoid making arbitrary choices. - Fix nf_evars_and* to keep the substitution around for later normalizations. - Do add simplified universe constraints coming from unification during typechecking. - Fix solve_by_tac in obligations to handle universes right, and the corresponding substitution function. Test global universe equality early during simplication of constraints. Better hashconsing, but still not good on universe lists. - Add postponing of "lub" constraints that should not be checked early, they are implied by the others. - Fix constructor tactic to use a fresh constructor instance avoiding fixing universes. - Use [eq_constr_universes] instead of [eq_constr_univs] everywhere, this is the comparison function that doesn't care about the universe instances. - Almost all the library compiles in this new setting, but some more tactics need to be adapted. - Reinstate hconsing. - Keep Prop <= u constraints that can be used to set the level of a universe metavariable. Add better hashconsing and unionfind in normalisation of constraints. Fix a few problems in choose_canonical, normalization and substitution functions. Fix after merge Fixes after rebase with latest Coq trunk, everything compiles again, albeit slowly in some cases. - Fix module substitution and comparison of table keys in conversion using the wrong order (should always be UserOrd now) - Cleanup in universes, removing commented code. - Fix normalization of universe context which was assigning global levels to local ones. Should always be the other way! - Fix universe implementation to implement sorted cons of universes preserving order. Makes Univ.sup correct again, keeping universe in normalized form. - In evarconv.ml, allow again a Fix to appear as head of a weak-head normal form (due to partially applied fixpoints). - Catch anomalies of conversion as errors in reductionops.ml, sad but necessary as eta-expansion might build ill-typed stacks like FProd, [shift;app Rel 1], as it expands not only if the other side is rigid. - Fix module substitution bug in auto.ml - Fix case compilation: impossible cases compilation was generating useless universe levels. Use an IDProp constant instead of the polymorphic identity to not influence the level of the original type when building the case construct for the return type. - Simplify normalization of universe constraints. - Compute constructor levels of records correctly. Fall back to levels for universe instances, avoiding issues of unification. Add more to the test-suite for universe polymorphism. Fix after rebase with trunk Fix substitution of universes inside fields/params of records to be made after all normalization is done and the level of the record has been computed. Proper sharing of lower bounds with fixed universes. Conflicts: library/universes.ml library/universes.mli Constraints were not enforced in compilation of cases Fix after rebase with trunk - Canonical projections up to universes - Fix computation of class/record universe levels to allow squashing to Prop/Set in impredicative set mode. - Fix descend_in_conjunctions to properly instantiate projections with universes - Avoid Context-bound variables taking extra universes in their associated universe context. - Fix evar_define using the wrong direction when refreshing a universe under cumulativity - Do not instantiate a local universe with some lower bound to a global one just because they have the same local glb (they might not have the same one globally). - Was loosing some global constraints during normalization (brought again by the kernel), fixed now. - Proper [abstract] with polymorphic lemmas (polymorphic if the current proof is). - Fix silly bug in autorewrite: any hint after the first one was always monomorphic. - Fix fourier after rebase - Refresh universes when checking types of metas in unification (avoid (sup (sup univ))). - Speedup a script in FSetPositive.v Rework definitions in RelationClasses and Morphisms to share universe levels as much as possible. This factorizes many useless x <= RelationClasses.foo constraints in code that uses setoid rewriting. Slight incompatible change in the implicits for Reflexivity and Irreflexivity as well. - Share even more universes in Morphisms using a let. - Use splay_prod instead of splay_prod_assum which doesn't reduce let's to find a relation in setoid_rewrite - Fix [Declare Instance] not properly dealing with let's in typeclass contexts. Fixes in inductiveops, evarutil. Patch by Yves Bertot to allow naming universes in inductive definitions. Fixes in tacinterp not propagating evars correctly. Fix for issue #27: lowering a Type to Prop is allowed during inference (resulting in a Type (* Set *)) but kernel reduction was wrongly refusing the equation [Type (*Set*) = Set]. Fix in interface of canonical structures: an instantiated polymorphic projection is not needed to lookup a structure, just the projection name is enough (reported by C. Cohen). Move from universe inference to universe checking in the kernel. All tactics have to be adapted so that they carry around their generated constraints (living in their sigma), which is mostly straightforward. The more important changes are when refering to Coq constants, the tactics code is adapted so that primitive eq, pairing and sigma types might be polymorphic. Fix another few places in tacinterp and evarconv/evarsolve where the sigma was not folded correctly. - Fix discharge adding spurious global constraints on polymorphic universe variables appearing in assumptions. - Fixes in inductiveops not taking into account universe polymorphic inductives. WIP on checked universe polymorphism, it is clearly incompatible with the previous usage of polymorphic inductives + non-polymorphic definitions on them as universe levels now appear in the inductive type, and add equality constraints between universes that were otherwise just in a cumulativity relation (not sure that was actually correct). Refined version of unification of universe instances for first-order unification, prefering unfolding to arbitrary identification of universes. Moved kernel to universe checking only. Adapt the code to properly infer constraints during typechecking and refinement (tactics) and only check constraints when adding constants/inductives to the environment. Exception made of module subtyping that needs inference of constraints... The kernel conversion (fconv) has two modes: checking only and inference, the later being used by modules only. Evarconv/unification make use of a different strategy for conversion of constants that prefer unfolding to blind unification of rigid universes. Likewise, conversion checking backtracks on different universe instances (modulo the constraints). - adapt congruence/funind/ring plugins to this new mode, forcing them to declare their constraints. - To avoid big performance penalty with reification, make ring/field non-polymorphic (non-linear explosion in run time to be investigated further). - pattern and change tactics need special treatment: as they are not _reduction_ but conversion functions, their operation requires to update an evar_map with new universe constraints. - Fix vm_compute to work better with universes. If the normal form is made only of constructors then the readback is correct. However a deeper change will be needed to treat substitution of universe instances when unfolding constants. Remove libtypes.ml Fix after merge. Fix after rebase with trunk. **** Add projections to the kernel, as optimized implementations of constants. - New constructor Proj expects a projection constant applied to its principal inductive argument. - Reduction machines shortcut the expansion to a case and directly project the right argument. - No need to keep parameters as part of the projection's arguments as they are inferable from the type of the principal argument. - ML code now compiles, debugging needed. Start debugging the implementation of projections. Externalisation should keep the information about projections. Internalization, pattern-matching, unification and reduction of projections. Fix some code that used to have _ for parameters that are no longer present in projections. Fixes in unification, reduction, term indexing, auto hints based on projections, add debug printers. Fix byte-compilation of projections, unification, congruence with projections. Adapt .v files using "@proj _ _ record" syntax, should come back on this later. Fix coercion insertion code to properly deal with projection coercions. Fix [simpl proj]... TODO [unfold proj], proj is not considered evaluable. - Fix whnf of projections, now respecting opacity information. - Fix conversion of projections to try first-order first and then incrementally unfold them. - Fix computation of implicit args for projections, simply dropping the information for parameters. - Fix a few scripts that relied on projections carrying their parameters (few at's, rewrites). - Fix unify_with_subterm to properly match under projections. - Fix bug in cooking of projections. - Add pattern PProj for projections. - A very strange bug appeared in BigZ.v, making coqtop segfault on the export of BigN... tofix Fixes after rebase with trunk. Everything compiles now, with efficient projections. Fixes after rebase with trunk (esp. reductionops). Remove warnings, backport patch from old univs+projs branch. Proper expansion of projections during unification. They are considered as maybe flexible keys in evarconv/unification. We try firstorder unification and otherwise expand them as necessary, completely mimicking the original behavior, when they were constants. Fix head_constr_bound interface, the arguments are never needed (they're outside their environment actually). [simpl] and [red]/[intro] should behave just like before now. Fix evarconv that was giving up on proj x = ?e problems too early. - Port patch by Maxime Denes implementing fast projections in the native conversion. - Backport patch to add eta-expansion for records. Do not raise an exception but simply fails if trying to do eta on an inductive that is not a record. Fix projections detyping/matching and unification.ml not always recovering on first-order universe inequalities. Correct eta-expansion for records, and change strategy for conversion with projections to favor reduction over first-order unification a little more. Fix a bug in Ltac pattern matching on projections. Fix evars_reset_evd to not recheck existing constraints in case it is just an update (performance improvement for typeclass resolution). - Respect Global/Transparent oracle during unification. Opaque means _never_ unfolded there. - Add empty universes as well as the initial universes (having Prop < Set). - Better display of universe inconsistencies. - Add Beta Ziliani's patch to go fast avoiding imitation when possible. - Allow instantiation by lower bound even if there are universes above - (tentative) In refinement, avoid incremental refinement of terms containing no holes and do it in one step (much faster on big terms). Turned on only if not a checked command. Remove dead code in univ/universes.ml and cleanup setup of hashconsing, for a small speed and memory footprint improvement. - Fix bug in unification using cumulativity when conversion should have been used. - Fix unification of evars having type Type, no longer forcing them to be equal (potentially more constraints): algorithm is now complete w.r.t. cumulativity. - In clenvtac, use refine_nocheck as we are guaranteed to get well-typed terms from unification now, including sufficient universe constraints. Small general speedup. - Fix inference of universe levels of inductive types to avoid smashing inadvertently from Set to Prop. - Fix computation of discharged hypotheses forgetting the arity in inductives. - Fix wrong order in printing of universe inconsistency explanation - Allow coercions between two polymorphic instances of the same inductive/constant. - Do evar normalization and saturation by classes before trying to use program coercion during pretyping. - In unification, force equalities of universes when unifying the same rigid head constants. - Fix omission of projections in constr_leq - Fix [admit] tactic's handling of normalized universes. Fix typing of projections not properly normalizing w.r.t. evars, resulting in anomaly sometimes. Adapt rewrite to work with computational relations (in Type), while maintaining backward compatibility with Propositional rewriting. Introduce a [diff] function on evar maps and universe contexts to properly deal with clause environments. Local hints in auto now store just the extension of the evar map they rely on, so merging them becomes efficient. This fixes an important performance issue in auto and typeclass resolution in presence of a large number of universe constraints. Change FSetPositive and MSetPositive to put their [elt] and [t] universes in Type to avoid restricting global universes to [Set]. This is due to [flip]s polymorphic type being fixed in monomorphic instances of Morphisms.v, and rewriting hence forcing unification of levels that could be left unrelated. - Try a fast_typeops implementation of kernel type inference that allocates less by not rebuilding the term, shows a little performance improvement, and less allocation. - Build universe inconsistency explanations lazily, avoiding huge blowup (x5) in check_constraints/merge_constraints in time and space (these are stressed in universe polymorphic mode). - Hashcons universe instances. Add interface file for fast_typeops Use monomorphic comparisons, little optimizations of hashconsing and comparison in univ.ml. Fix huge slowdown due to building huge error messages. Lazy is not enough to tame this completely. Fix last performance issue, due to abstracts building huge terms abstracting on parts of the section context. Was due to wrong handling of Let... Qed.s in abstract. Performance is a tiny bit better than the trunk now. First step at compatibility layer for projections. Compatibility mode for projections. c.(p), p c use primitive projs, while @p refers to an expansion [λ params c, c.(p)]. Recovers almost entire source compatibility with trunk scripts, except when mixing @p and p and doing syntactic matching (they're unifiable though). Add a [Set Primitive Projections] flag to set/unset the use of primitive projections, selectively for each record. Adapt code to handle both the legacy encoding and the primitive projections. Library is almost source-to-source compatible, except for syntactic operations relying on the presence of parameters. In primitive projections mode, @p refers to an expansion [λ params r. p.(r)]. More information in CHANGES (to be reformated/moved to reference manual). Backport changes from HoTT/coq: - Fix anomaly on uncatched NotASort in retyping. - Better recognition of evars that are subject to typeclass resolution. Fixes bug reported by J. Gross on coq-club. - Print universe polymorphism information for parameters as well. Fix interface for unsatisfiable constraints error, now a type error. Try making ring polymorphic again, with a big slowdown, to be investigated. Fix evar/universe leak in setoid rewrite. - Add profiling flag - Move setoid_ring back to non-polymorphic mode to compare perfs with trunk - Change unification to allow using infer_conv more often (big perf culprit), but semantics of backtracking on unification of constants is not properly implemented there. - Fix is_empty/union_evar_universe_context forgetting about some assignments. - Performance is now very close to the trunk from june, with projections deactivated.
* Pos.iter arguments in a better order for cbn.Gravatar Pierre Boutillier2014-05-02
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* Eta contractions to please cbnGravatar Pierre Boutillier2014-05-02
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* Pos.compare_cont takes the comparison as first argumentGravatar Pierre Boutillier2014-02-28
| | | | Helps cbn tactic refolding
* "Boolean Equality" and "Case Analysis" are already off by default...Gravatar letouzey2013-07-17
| | | | | | ... no need to Unset them manually git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@16631 85f007b7-540e-0410-9357-904b9bb8a0f7
* More dynamic argument scopesGravatar letouzey2013-07-17
| | | | | | | | | | | | | | | | | | | | When arguments scopes are set manually, nothing new, they stay as they are (until maybe another Arguments invocation). But when argument scopes are computed out of the argument type and the Bind Scope information, this kind of scope is now dynamic: a later Bind Scope will be able to impact the scopes of an earlier constant. For Instance: Definition f (n:nat) := n. About f. (* Argument scope is [nat_scope] *) Bind Scope other_scope with nat. About f. (* Argument scope is [other_scope] *) This allows to get rid of hacks for modifying scopes during functor applications. Moreover, the subst_arguments_scope is now environment-insensitive (needed for forthcoming changes in declaremods). git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@16626 85f007b7-540e-0410-9357-904b9bb8a0f7
* nat_iter n f x -> nat_rect _ x (fun _ => f) nGravatar pboutill2012-12-21
| | | | | | | | It is much beter for everything (includind guard condition and simpl refolding) excepts typeclasse inference because unification does not recognize (fun x => f x b) a when it sees f a b ... git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@16112 85f007b7-540e-0410-9357-904b9bb8a0f7
* Rework of GenericMinMax and OrdersTac (helps extraction, cf. #2904)Gravatar letouzey2012-12-18
| | | | | | | | | | | | | | | | | | | | | | | Inner sub-modules with "Definition t := t" is hard to handle by extraction: "type t = t" is recursive by default in OCaml, and the aliased t cannot easily be fully qualified if it comes from a higher unterminated module. There already exists some workarounds (generating Coq__XXX modules), but this isn't playing nicely with module types, where it's hard to insert code without breaking subtyping. To avoid falling too often in this situation, I've reorganized: - GenericMinMax : we do not try anymore to deduce facts about min by saying "min is a max on the reversed order". This hack was anyway not so nice, some code was duplicated nonetheless (at least statements), and the module structure was complex. - OrdersTac : by splitting the functor argument in two (EqLtLe <+ IsTotalOrder instead of TotalOrder), we avoid the need for aliasing the type t, cf NZOrder. git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@16100 85f007b7-540e-0410-9357-904b9bb8a0f7
* Updating headers.Gravatar herbelin2012-08-08
| | | | git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@15715 85f007b7-540e-0410-9357-904b9bb8a0f7
* BinPos/BinInt/BinNat : fix some argument scopesGravatar letouzey2012-07-06
| | | | git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@15540 85f007b7-540e-0410-9357-904b9bb8a0f7
* ZArith + other : favor the use of modern names instead of compat notationsGravatar letouzey2012-07-05
| | | | | | | | | | | | | | | | | | - For instance, refl_equal --> eq_refl - Npos, Zpos, Zneg now admit more uniform qualified aliases N.pos, Z.pos, Z.neg. - A new module BinInt.Pos2Z with results about injections from positive to Z - A result about Z.pow pushed in the generic layer - Zmult_le_compat_{r,l} --> Z.mul_le_mono_nonneg_{r,l} - Using tactic Z.le_elim instead of Zle_lt_or_eq - Some cleanup in ring, field, micromega (use of "Equivalence", "Proper" ...) - Some adaptions in QArith (for instance changed Qpower.Qpower_decomp) - In ZMake and ZMake, functor parameters are now named NN and ZZ instead of N and Z for avoiding confusions git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@15515 85f007b7-540e-0410-9357-904b9bb8a0f7
* Notation: a new annotation "compat 8.x" extending "only parsing"Gravatar letouzey2012-07-05
| | | | | | | | | | | | | | | | | | | | | | Suppose we declare : Notation foo := bar (compat "8.3"). Then each time foo is used in a script : - By default nothing particular happens (for the moment) - But we could get a warning explaining that "foo is bar since coq > 8.3". For that, either use the command-line option -verb-compat-notations or the interactive command "Set Verbose Compat Notations". - There is also a strict mode, where foo is forbidden : the previous warning is now an error. For that, either use the command-line option -no-compat-notations or the interactive command "Unset Compat Notations". When Coq is launched in compatibility mode (via -compat 8.x), using a notation tagged "8.x" will never trigger a warning or error. git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@15514 85f007b7-540e-0410-9357-904b9bb8a0f7
* Functions *_beq aren't generated anymore, remove comments about themGravatar letouzey2012-05-30
| | | | git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@15402 85f007b7-540e-0410-9357-904b9bb8a0f7
* Cleanup of files related with power over Z.Gravatar letouzey2011-07-01
| | | | | | | | | | | | | | - Zpow_def, Zpower, Zpow_facts shortened thanks to stuff in BinInt.Z - The alternative Zpower_alt is now in a separate file Zpow_alt.v, not loaded by default. - Some more injection lemmas in Znat (pow, div, mod, quot, rem) - Btw, added a "square" function in Z, N, Pos, ... (instead of Zpow_facts.Zsquare). git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@14253 85f007b7-540e-0410-9357-904b9bb8a0f7
* Numbers: change definition of divide (compat with Znumtheory)Gravatar letouzey2011-06-24
| | | | git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@14237 85f007b7-540e-0410-9357-904b9bb8a0f7
* Arithemtic: more concerning compare, eqb, leb, ltbGravatar letouzey2011-06-20
| | | | | | | | | | | | | | | | | | | | Start of a uniform treatment of compare, eqb, leb, ltb: - We now ensure that they are provided by N,Z,BigZ,BigN,Nat and Pos - Some generic properties are derived in OrdersFacts.BoolOrderFacts In BinPos, more work about sub_mask with nice implications on compare (e.g. simplier proof of lt_trans). In BinNat/BinPos, for uniformity, compare_antisym is now (y ?= x) = CompOpp (x ?=y) instead of the symmetrical result. In BigN / BigZ, eq_bool is now eqb In BinIntDef, gtb and geb are kept for the moment, but a comment advise to rather use ltb and leb. Z.div now uses Z.ltb and Z.leb. git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@14227 85f007b7-540e-0410-9357-904b9bb8a0f7
* Peano recursion for positive: integration of Daniel Schepler's codeGravatar letouzey2011-05-05
| | | | git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@14110 85f007b7-540e-0410-9357-904b9bb8a0f7
* Modularisation of Znat, a few name changed elsewhereGravatar letouzey2011-05-05
| | | | | | For instance inj_plus is now Nat2Z.inj_add git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@14108 85f007b7-540e-0410-9357-904b9bb8a0f7
* Modularization of BinInt, related fixes in the stdlibGravatar letouzey2011-05-05
| | | | | | | | | | | All the functions about Z is now in a separated file BinIntDef, which is Included in BinInt.Z. This BinInt.Z directly implements ZAxiomsSig, and instantiates derived properties ZProp. Note that we refer to Z instead of t inside BinInt.Z, otherwise ring breaks later on @eq Z.t git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@14106 85f007b7-540e-0410-9357-904b9bb8a0f7
* Wf.iter_nat becomes Peano.nat_iter (with an implicit arg)Gravatar letouzey2011-05-05
| | | | git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@14103 85f007b7-540e-0410-9357-904b9bb8a0f7
* BinNatDef containing all functions of BinNat, misc adaptations in BinPosGravatar letouzey2011-05-05
| | | | git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@14102 85f007b7-540e-0410-9357-904b9bb8a0f7
* BinPosDef: a module with all code about positive, later Included in BinPosGravatar letouzey2011-05-05
| | | | git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@14101 85f007b7-540e-0410-9357-904b9bb8a0f7
* Modularization of BinNat + fixes of stdlibGravatar letouzey2011-05-05
| | | | | | | | | | | | A sub-module N in BinNat now contains functions add (ex-Nplus), mul (ex-Nmult), ... and properties. In particular, this sub-module N directly instantiates NAxiomsSig and includes all derived properties NProp. Files Ndiv_def and co are now obsolete and kept only for compat git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@14100 85f007b7-540e-0410-9357-904b9bb8a0f7
* Modularization of PnatGravatar letouzey2011-05-05
| | | | | | | For instance, former Pplus_plus is now Pos2Nat.inj_add. As usual, compatibility notation are provided. git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@14099 85f007b7-540e-0410-9357-904b9bb8a0f7
* Modularization of BinPos + fixes in StdlibGravatar letouzey2011-05-05
| | | | | | | | | | | | | | | | | | | | | | | BinPos now contain a sub-module Pos, in which are placed functions like add (ex-Pplus), mul (ex-Pmult), ... and properties like add_comm, add_assoc, ... In addition to the name changes, the organisation is changed quite a lot, to try to take advantage more of the orders < and <= instead of speaking only of the comparison function. The main source of incompatibilities in scripts concerns this compare: Pos.compare is now a binary operation, expressed in terms of the ex-Pcompare which is ternary (expecting an initial comparision as 3rd arg), this ternary version being called now Pos.compare_cont. As for everything else, compatibility notations (only parsing) are provided. But notations "_ ?= _" on positive will have to be edited, since they now point to Pos.compare. We also make the sub-module Pos to be directly an OrderedType, and include results about min and max. git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@14098 85f007b7-540e-0410-9357-904b9bb8a0f7
* Definitions of positive, N, Z moved in Numbers/BinNums.vGravatar letouzey2011-05-05
| | | | | | | | | | | | In the coming reorganisation, the name Z in BinInt will be a module containing all code and properties about binary integers. The inductive type Z hence cannot be at the same location. Same for N and positive. Apart for this naming constraint, it also have advantages : presenting the three types at once is clearer, and we will be able to refer to N in BinPos (for instance for output type of a predecessor function on positive). git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@14097 85f007b7-540e-0410-9357-904b9bb8a0f7
* Fixed a bug of destruct which was sometimes forgetting local definitions ↵Gravatar herbelin2011-04-24
| | | | | | behind it. git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@14053 85f007b7-540e-0410-9357-904b9bb8a0f7
* CompareSpec: a slight generalization/reformulation of CompSpecGravatar letouzey2011-03-17
| | | | | | | | | | | | | | | | | | | CompareSpec expects 3 propositions Peq Plt Pgt instead of 2 relations eq lt and 2 points x y. For the moment, we still always use (Peq=eq x y), (Plt=lt x y) (Pgt=lt y x), but this may not be always the case, especially for Pgt. The former CompSpec is now defined in term of CompareSpec. Compatibility is preserved (except maybe a rare unfold or red to break the CompSpec definition). Typically, CompareSpec looks nicer when we have infix notations, e.g. forall x y, CompareSpec (x=y) (x<y) (y<x) (x?=x) while CompSpec is shorter when we directly refer to predicates: forall x y, CompSpec eq lt x y (compare x y) git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@13914 85f007b7-540e-0410-9357-904b9bb8a0f7
* Remove the "Boxed" syntaxes and the const_entry_boxed fieldGravatar letouzey2011-01-28
| | | | | | | | | | | | | | | | According to B. Gregoire, this stuff is obsolete. Fine control on when to launch the VM in conversion problems is now provided by VMcast. We were already almost never boxing definitions anymore in stdlib files. "(Un)Boxed Definition foo" will now trigger a parsing error, same with Fixpoint. The option "(Un)Set Boxed Definitions" aren't there anymore, but tolerated (as no-ops), since unknown options raise a warning instead of an error by default. Some more cleaning could be done in the vm. git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@13806 85f007b7-540e-0410-9357-904b9bb8a0f7
* First release of Vector library.Gravatar pboutill2010-12-10
| | | | | | | | | | To avoid names&notations clashs with list, Vector shouldn't be "Import"ed but one can "Import Vector.VectorNotations." to have notations. SetoidVector at least remains to do. git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@13702 85f007b7-540e-0410-9357-904b9bb8a0f7
* In passing, very quick uniformization of coqdoc headers in a few files.Gravatar herbelin2010-12-09
| | | | git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@13696 85f007b7-540e-0410-9357-904b9bb8a0f7
* Numbers and bitwise functions.Gravatar letouzey2010-12-06
| | | | | | | | | | | | | | | | | | | | | | | See NatInt/NZBits.v for the common axiomatization of bitwise functions over naturals / integers. Some specs aren't pretty, but easier to prove, see alternate statements in property functors {N,Z}Bits. Negative numbers are considered via the two's complement convention. We provide implementations for N (in Ndigits.v), for nat (quite dummy, just for completeness), for Z (new file Zdigits_def), for BigN (for the moment partly by converting to N, to be improved soon) and for BigZ. NOTA: For BigN.shiftl and BigN.shiftr, the two arguments are now in the reversed order (for consistency with the rest of the world): for instance BigN.shiftl 1 10 is 2^10. NOTA2: Zeven.Zdiv2 is _not_ doing (Zdiv _ 2), but rather (Zquot _ 2) on negative numbers. For the moment I've kept it intact, and have just added a Zdiv2' which is truly equivalent to (Zdiv _ 2). To reorganize someday ? git-svn-id: svn+ssh://scm.gforge.inria.fr/svn/coq/trunk@13689 85f007b7-540e-0410-9357-904b9bb8a0f7