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* Lemmas on commutation with big sum and prod
* Added commrB Lemma
* @CohenCyril review
* apply -> apply:
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add existsPn/forallPn lemmas
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Commutative Algebras
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Initial properties of polynomials in R-algebras
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from
`ltngtP m n : compare_nat m n (m <= n) (n <= m) (m < n) (n < m) (n == m) (m == n)`
to
`ltngtP m n : compare_nat m n (n == m) (m == n) (n <= m) (m <= n) (n < m) (m < n)`,
to make it tries to match subterms with `m < n` first, `m <= n`, then `m == n`.
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`V` was wrongly eta-expanded before:
GRing.scale
: forall (R : ringType) (V : lmodType R),
R -> GRing.Zmodule.Pack (GRing.Lmodule.class V) ->
GRing.Zmodule.Pack (GRing.Lmodule.class V)
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More arithmetic theorems
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* Add notation and instances for empty type.
* Update change log.
* Mention void in fintype header.
* Remove unnecessary explicit argument.
* Documentation header for void.
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* Modified the definition of sort to work on any type
* Other Generalizations, fixes and CHANGELOG entry
* Add stability lemmas for `path.sort`
- Inverse the comparison in `merge` and swap arguments of it everywhere.
- Add `sort_rec1` and `sortE` to simplify inductive proofs on `sort`.
- Add `seq.mask_filter`, `mem2E`, `path_mask`, `path_filter`, and `sorted_mask`.
- Generalize `sorted_filter`, `homo_path_in`, `mono_path_in`, `homo_sorted_in`,
and `mono_sorted_in` to non-`eqType`s.
- Add the following lemmas to state the stability of `path.merge` and `path.sort`.
sorted_merge
: forall (T : Type) (leT : rel T),
transitive leT ->
forall s t : seq T, sorted leT (s ++ t) -> merge leT s t = s ++ t
merge_stable_path
: forall (T : Type) (leT leT' : rel T),
total leT ->
forall (x : T) (s1 s2 : seq T),
all (fun y : T => all (leT' y) s2) s1 ->
path [rel x0 y | leT x0 y && (leT y x0 ==> leT' x0 y)] x s1 ->
path [rel x0 y | leT x0 y && (leT y x0 ==> leT' x0 y)] x s2 ->
path [rel x0 y | leT x0 y && (leT y x0 ==> leT' x0 y)] x
(merge leT s1 s2)
merge_stable_sorted
: forall (T : Type) (leT leT' : rel T),
total leT ->
forall s1 s2 : seq T,
all (fun x : T => all (leT' x) s2) s1 ->
sorted [rel x y | leT x y && (leT y x ==> leT' x y)] s1 ->
sorted [rel x y | leT x y && (leT y x ==> leT' x y)] s2 ->
sorted [rel x y | leT x y && (leT y x ==> leT' x y)] (merge leT s1 s2)
sorted_sort
: forall (T : Type) (leT : rel T),
transitive leT -> forall s : seq T, sorted leT s -> sort leT s = s
sort_stable
: forall (T : Type) (leT leT' : rel T),
total leT -> transitive leT' ->
forall s : seq T,
sorted leT' s ->
sorted [rel x y | leT x y && (leT y x ==> leT' x y)] (sort leT s)
filter_sort
: forall (T : Type) (leT : rel T),
total leT -> transitive leT ->
forall (p : pred T) (s : seq T),
[seq x <- sort leT s | p x] = sort leT [seq x <- s | p x]
mask_sort
: forall (T : Type) (leT : rel T),
total leT -> transitive leT ->
forall (s : seq T) (m : bitseq),
{m_s : bitseq | mask m_s (sort leT s) = sort leT (mask m s)}
mask_sort'
: forall (T : Type) (leT : rel T),
total leT -> transitive leT ->
forall (s : seq T) (m : bitseq),
sorted leT (mask m s) ->
{m_s : bitseq | mask m_s (sort leT s) = mask m s}
subseq_sort
: forall (T : eqType) (leT : rel T),
total leT -> transitive leT -> {homo sort leT : t s / subseq t s}
subseq_sort'
: forall (T : eqType) (leT : rel T),
total leT -> transitive leT ->
forall t s : seq T, subseq t s -> sorted leT t -> subseq t (sort leT s)
mem2_sort
: forall (T : eqType) (leT : rel T),
total leT -> transitive leT ->
forall (s : seq T) (x y : T),
leT x y -> mem2 s x y -> mem2 (sort leT s) x y
* Avoid some eta-expansions
* Get the proper fix of `order_path_min` and remove `sort_map_in`
* Update documentation and CHANGELOG entries
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In ssrnat:
- some trivial results in ssrnat `addnKC`, `ltn_predl`, `ltn_predr`, `ltn_subr` and `predn_sub`
- theorems about `n <=/< p +/- m` and `m +/- n <=/< p`
`leq_psubRL`, `ltn_psubLR`, `leq_subRL`, `ltn_subLR`,
`leq_subCl`, `leq_psubCr`, `leq_subCr`, `ltn_subCr`, `ltn_psubCl` and `ltn_subCl`
In div:
- theorems about the euclidean division of additions and subtraction,
+ without preconditions of divisibility:
`edivnD`, `edivnB`, `divnD`, `divnB`, `modnD`, `modnB`
+ with divisibility of one argument:
`divnDMl`, `divnMBl`, `divnBMl`, `divnBl` and `divnBr`
+ specialization of the former theorems for .+1 and .-1:
`edivnS`, `divnS`, `modnS`, `edivn_pred`, `divn_pred` and `modn_pred`
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- Added: `modn_divl` and `divn_modl`.
- Generalized `muln_modr` and `muln_modl` removing hypothesis `0 < p`.
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### Added
- Fintype theorems: `fintype0`, `card_le1P`, `mem_card1`,
`card1P`, `fintype_le1P`, `fintype1`, `fintype1P`.
- Bigop theorems: `big_rmcond`, `bigD1_seq`,
`reindex_enum_val_cond`, `reindex_enum_rank_cond`,
`reindex_enum_val`, `reindex_enum_rank`, `big_set`.
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Fix and improve the test suite and Makefile
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- improve an error message produced by the `check_join` tactic,
- fix the build of the test suite: `make test-suite`, and
- add a new rule `only` to build a subset of MathComp.
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Thanks!
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Reimplement the hierarchy related tools in OCaml
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Also changed eqsVneq.
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Addressing a suggestion by @CohenCyril
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- Change the naming of permutation lemmas so they conform to a
consistent policy: `perm_eq` lemmas have a `perm_` (_not_ `perm_eq`)
prefix, or sometimes a `_perm` suffix for lemmas that _prove_ `perm_eq`
using a property when there is also a lemma _using_ `perm_eq` for the
same property. Lemmas that do not concern `perm_eq` do _not_ have
`perm` in their name.
- Change the definition of `permutations` for a time- and space-
back-to-front generation algorithm.
- Add frequency tally operations `tally`, `incr_tally`, `wf_tally` and
`tally_seq`, used by the improved `permutation` algorithm.
- add deprecated aliases for renamed lemmas
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- add notation support for lemma renaming PRs, helping clients adjust
to the name change by emitting warning or raising errors when the old
name is used. The default is to emit warnings, but clients can change
this to silence (if electing to delay migration) or errors (to help
with actual migration). Usage:
Notation old_id := (deprecate old_id new_id) (only parsing).
—> Caveat 1: only prenex maximal implicit of `new_id` are preserved, so,
as `Notation` does not support on-demand implicits, the latter should
be added explicitly as in `(deprecate old new _ _)`.
—> Caveat 2: the warnings are emitted by a tactic-in-term, which
is interpreted during type elaboration. As the SSReflect elaborator may
re-infer type in arguments multiple times (notably, views and arguments
to `apply` and `rewrite`), clients may see duplicate warnings.
- use the `deprecate` facility to introduce the first part of the
refactoring of `seq` permutation lemmas : only lemmas concerning
`perm_eq` should have `perm` as a component of their name.
- document local additions in `ssreflect.v` and `ssrbool.v`
- add 8.8 `odd-order` regression
- the explicit beta-redex idiom use in the `perm_uniq` and
`leq_min_perm` aliases avoids a strange name-sensitive bug of view
interpretation in Coq 8.7.
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The functionalities of the structure hierarchy related tools `hierarchy-diagram`
and `hierarchy_test.py` are provided by an OCaml script `hierarchy.ml`.
`test_suite/hierarchy_test.v` is deleted. Now make can generate it.
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- reprove rather than specialize `Some_inj` to allow for redefinition
of `nonPropType` in `mathcomp.ssreflect.ssreflect`
- retarget finmap CI to coq-9995-compatibility
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Appears to be needed fo v8.7 compatibility, to avert some bug in early
`only printing` implementation whose fix was not back ported.
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Use `{pred T}` systematically for generic _collective_ boolean
predicate.
Use `PredType` to construct `predType` instances.
Instrument core `ssreflect` files to replicate these and other new
features introduces by coq/coq#9555 (`nonPropType` interface,
`simpl_rel` that simplifies with `inE`).
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Replace improper use of non-dependent `return` clause in `if` with a
type cast; an upcoming coq-side PR will discontinue support for this,
in order to support dependent return clauses with an implicit `as`
annotation.
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