matita 0.5.1 tagged

[helm.git] / components / ng_kernel / TEST

CONTENUTO alluris.txt.OK, NEW typing, OLD typing

matita       11.89 11.71                      tranne freescale
Coq                       fixpoints
BellLabs      0.21  0.22
Cachan                    .....
Dyade                     fixpoints
Eindhoven     0.23  0.85
IdealX        0.05  0.06
Lyon                      impredicative set
Marseille     1.04  2.23
Montevideo    1.90  4.29
Muenchen      0.05  0.07
Nancy         0.13  0.24
Orsay                     fixpoints
Paris         0.39  0.48
Rocq                      impredicative set   tranne ails, coc, higman,
                                              ALGEBRA/CATEGORY_THEORY
Sophia-Antipolis                              tranne algebra, buchberger,
                                              math_groups, float, geometry
Suresnes                  fixpoints
Utrecht       0.82  0.92

++++++++++++++++

TODO: Andrea mi ha cassato la parte sulla reentrance; secondo me quella e'
importante

ATTENZIONE: cosa succede con un PTS non full? Un (Prod : Type) non lo tipiamo,
ma tipiamo (Lambda : Type)!

file bug_universi.ma: sbaglia a fare il ranking!

[CoRN: calcolo grafi da caricare troppo lento]
[Coq: calcolo grafi da caricare troppo lento]
[Sophia-Antipolis: calcolo grafi da caricare troppo lento]

CoRN: type-checking vecchio nucleo troppo lento
Rocq/AILS: type-checking vecchio nucleo troppo lento
Rocq/COC: type-checking vecchio nucleo troppo lento
nijmegen: type-checking vecchio nucleo troppo lento
Sophia-Antipolis/Float: vecchio nucleo troppo lento
Sophia-Antipolis/geometry: vecchio nucleo troppo lento
Rocq/ALGEBRA/CATEGORY_THEORY: vecchio nucleo troppo lento

## = diventato addirittura velocissimo dopo universi + proof irrelevance + altezze
##Sophia-Antipolis/Algebra: nuovo nucleo diverge
##   cic:/Sophia-Antipolis/Algebra/Sub_module/submodule_op.con
##Sophia-Antipolis/Buchberger: nuovo nucleo diverge
##   cic:/Sophia-Antipolis/Buchberger/BuchRed/redbuch_stable.con
matita/freescale: nuovo nucleo molto piu' lento del vecchio?

lannion: nuovo nucleo impredicative set
rocq.higman: nuovo nucleo impredicative set
lyon.impredicative_set: nuovo nucleo impredicative set

============= IMPREDICATIVE SET ======================
Lannion/Continuations
Lyon/GraphBasics
Lyon/Multiplier
Lyon/CoinductiveExamples
Lyon/Streams
Rocq/Paradoxes: Hurkens e Russell
Rocq/HistoricalExamples
Rocq/HigmanNW

============= CONVERSIONE FIX GENERATIVI ================
cic:/Coq/IntMap/Lsort/alist_nth_ad_semantics.con
Appl: wrong application of le_S_n: the parameter H1 has type
le (S (S n0)) (length (prod ad A) (cons (prod ad A) (pair ad A a y) l0))
but it should have type
le (S (S n0)) (S (alist_nth_ad_semantics___1(0) A l0))

cic:/Suresnes/MiniC/Utilitaires/BlockDecl/bdecl_mapkSpec.con
Appl: wrong application of ...
  (eq (prod (list Key) Data) (pair (list Key) Data lk d)
    (pair (list Key) Data x0 x))
  (In___1(0) (prod (list Key) Data) (pair (list Key) Data x0 x) lm), found or
  (eq (prod (list Key) Data) (pair (list Key) Data lk d)
    (pair (list Key) Data x0 x))
  (bdecl_mapkSpec___1(0) Key Data (pair (list Key) Data x0 x) lm)

cic:/Dyade/Otway-Rees/inv1rel5/POinv1rel5.con
Appl: wrong application of AlreadyIn1: the parameter or_introl (eq C (B2C (K2B (KeyAB d0 d1))) (B2C (K2B (KeyAB d0 d1))))
  (POinv1rel5___1(0) (B2C (K2B (KeyAB d0 d1))) (app C l rngDDKKeyAB))
  (refl_equal C (B2C (K2B (KeyAB d0 d1)))) has type
or (eq C (B2C (K2B (KeyAB d0 d1))) (B2C (K2B (KeyAB d0 d1))))
  (POinv1rel5___1(0) (B2C (K2B (KeyAB d0 d1))) (app C l rngDDKKeyAB))
but it should have type
In C (B2C (K2B (KeyAB d0 d1)))
  (cons C (B2C (K2B (KeyAB d0 d1))) (app C l rngDDKKeyAB))

cic:/Dyade/Otway-Rees/invprel5/POinvprel5.con
Appl: wrong application of AlreadyIn1: the parameter or_introl (eq C (B2C (K2B (KeyAB d0 d1))) (B2C (K2B (KeyAB d0 d1))))
  (POinv1rel5___1(0) (B2C (K2B (KeyAB d0 d1))) (app C l rngDDKKeyABminusKab))
  (refl_equal C (B2C (K2B (KeyAB d0 d1)))) has type
or (eq C (B2C (K2B (KeyAB d0 d1))) (B2C (K2B (KeyAB d0 d1))))
  (POinv1rel5___1(0) (B2C (K2B (KeyAB d0 d1))) (app C l rngDDKKeyABminusKab))
but it should have type
In C (B2C (K2B (KeyAB d0 d1)))
  (cons C (B2C (K2B (KeyAB d0 d1))) (app C l rngDDKKeyABminusKab))

cic:/Coq/NArith/Pnat/Pmult_nat_l_plus_morphism.con
Branch for constructor xI :=
λp0:positive.
 λn:nat. refl_equal nat (plus n (Pmult_nat (Pplus_carry p p0) (plus n n)))
has type ∀p0: positive.
 ∀n: nat.
  eq nat (plus n (Pmult_nat (Pplus_carry p p0) (plus n n)))
    (plus n (Pmult_nat (Pplus_carry p p0) (plus n n)))
not convertible with positive
 → (λp0:positive.
       ∀n: nat.
        eq nat (Pmult_nat (Pplus_carry (xI p) p0) n)
          (plus n (Pmult_nat (Pplus (xI p) p0) n))) (xI __1)

cic:/Coq/NArith/Pnat/Pmult_nat_l_plus_morphism.con
has type ∀p0: positive.
 ∀m: nat.
  eq nat (Pmult_nat (Pplus_carry p p0) (plus m m))
    (plus (plus m (Pmult_nat p (plus m m)))
      (plus m (Pmult_nat p0 (plus m m))))
not convertible with positive
 → (λp0:positive.
       ∀n: nat.
        eq nat (Pmult_nat (Pplus (xI p) p0) n)
          (plus (Pmult_nat (xI p) n) (Pmult_nat p0 n))) (xI __1)

cic:/Coq/NArith/BinPos/Pplus_carry_spec.con
has type ∀p0: positive. eq positive (xI (Pplus_carry p p0)) (xI (Pplus_carry p p0))
not convertible with positive
 → (λp0:positive.
       eq positive (Pplus_carry (xI p) p0) (Psucc (Pplus (xI p) p0)))
       (xI __1)

cic:/Coq/NArith/BinPos/Pplus_comm.con
has type ∀p0: positive. eq positive (xO (Pplus_carry p p0)) (xO (Pplus_carry p0 p))
not convertible with positive
 → (λp0:positive. eq positive (Pplus (xI p) p0) (Pplus p0 (xI p)))
       (xI __1)

cic:/Coq/NArith/BinPos/Pplus_succ_permute_r.con
has type ∀p0: positive.
 eq positive (xI (Pplus p (Psucc p0))) (xI (Pplus_carry p p0))
not convertible with positive
 → (λp0:positive.
       eq positive (Pplus (xI p) (Psucc p0)) (Psucc (Pplus (xI p) p0)))
       (xI __1)

cic:/Coq/NArith/BinPos/Pplus_assoc.con
 eq positive (xI (Pplus x1 (Pplus_carry y0 z0)))
   (xI (Pplus (Pplus_carry x1 y0) z0))
not convertible with positive
 → (λp:positive.
       eq positive (Pplus (xI x1) (Pplus (xI y0) p))
         (Pplus (Pplus (xI x1) (xI y0)) p)) (xI __1)

cic:/Coq/NArith/BinPos/Pplus_reg_r.con
has type ∀y1: positive.
 ∀H: eq positive (xO (Pplus_carry x1 z0)) (xO (Pplus_carry y1 z0)).
  eq positive (xI x1) (xI y1)
not convertible with positive
 → (λp:positive.
       eq positive (Pplus (xI x1) (xI z0)) (Pplus p (xI z0))
        → eq positive (xI x1) p) (xI __1)

cic:/Coq/NArith/BinPos/ZL10.con
has type ∀q: positive.
 ∀H: eq positive_mask (Pdouble_plus_one_mask (Pminus_mask p q)) (IsPos xH).
  eq positive_mask (Pdouble_mask (Pminus_mask p q)) IsNul
not convertible with positive
 → (λp0:positive.
       eq positive_mask (Pminus_mask (xI p) p0) (IsPos xH)
        → eq positive_mask (Pminus_mask_carry (xI p) p0) IsNul) (xO __1)
      End: cic:/Coq/NArith/BinPos/ZL10.con

cic:/Coq/NArith/BinPos/Pminus_mask_Gt.con
has type ∀q: positive.
 ∀H: eq comparison (Pcompare p q Eq) Gt.
  ex positive
    (λh:positive.
      and (eq positive_mask (Pdouble_mask (Pminus_mask p q)) (IsPos h))
        (and
          (eq positive
            match h return λp0:positive. positive
             [ xI ⇒ λy':positive. xO (Pplus_carry q y')
             | xO ⇒ λy':positive. xI (Pplus q y')
             | xH ⇒ xO (Psucc q)]  (xI p))
          (or (eq positive h xH)
            (eq positive_mask (Pdouble_plus_one_mask (Pminus_mask_carry p q))
              (IsPos (Ppred h))))))
not convertible with positive
 → (λp0:positive.
       eq comparison (Pcompare (xI p) p0 Eq) Gt
        → ex positive
              (λh:positive.
                and (eq positive_mask (Pminus_mask (xI p) p0) (IsPos h))
                  (and (eq positive (Pplus p0 h) (xI p))
                    (or (eq positive h xH)
                      (eq positive_mask (Pminus_mask_carry (xI p) p0)
                        (IsPos (Ppred h))))))) (xI __1)

cic:/Coq/NArith/BinPos/Pplus_diag.con
∀x0: positive.
 ∀IHx: eq positive (Pplus x0 x0) (xO x0).
  eq positive (xO (Pplus_carry x0 x0)) (xO (xI x0))
but it should have type
∀p: positive.
 eq positive (Pplus p p) (xO p)
  → eq positive (Pplus (xI p) (xI p)) (xO (xI p))