feat(library/unifier): allow unifier to unfold opaque definitions of the current module
It is not clear whether this is a good idea or not. In some cases, it seems to do more harm than good. Signed-off-by: Leonardo de Moura <leonardo@microsoft.com>
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4 changed files with 21 additions and 3 deletions
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@ -20,4 +20,19 @@ theorem cond_b0 {A : Type} (t e : A) : cond b0 t e = e
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theorem cond_b1 {A : Type} (t e : A) : cond b1 t e = t
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:= refl (cond b1 t e)
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definition bor (a b : bit)
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:= bit_rec (bit_rec b0 b1 b) b1 a
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theorem bor_b1_left (a : bit) : bor b1 a = b1
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:= refl (bor b1 a)
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theorem bor_b1_right (a : bit) : bor a b1 = b1
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:= bit_rec (refl (bor b0 b1)) (refl (bor b1 b1)) a
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theorem bor_b0_left (a : bit) : bor b0 a = a
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:= bit_rec (refl (bor b0 b0)) (refl (bor b0 b1)) a
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theorem bor_b0_right (a : bit) : bor a b0 = a
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:= bit_rec (refl (bor b0 b0)) (refl (bor b1 b0)) a
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end
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@ -226,8 +226,11 @@ definition cast {A B : Type} (H : A = B) (a : A) : B
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theorem cast_refl {A : Type} (a : A) : cast (refl A) a = a
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:= refl (cast (refl A) a)
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theorem cast_proof_irrel {A B : Type} (H1 H2 : A = B) (a : A) : cast H1 a = cast H2 a
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:= refl (cast H1 a)
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theorem cast_eq {A : Type} (H : A = A) (a : A) : cast H a = a
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:= calc cast H a = cast (refl A) a : refl (cast H a) -- by proof irrelevance
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:= calc cast H a = cast (refl A) a : cast_proof_irrel H (refl A) a
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... = a : cast_refl a
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definition heq {A B : Type} (a : A) (b : B) := ∃ H, cast H a = b
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@ -335,7 +335,7 @@ struct unifier_fn {
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name_generator const & ngen, substitution const & s, unifier_plugin const & p,
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bool use_exception, unsigned max_steps):
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m_env(env), m_ngen(ngen), m_subst(s), m_plugin(p),
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m_tc(env, m_ngen.mk_child()),
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m_tc(env, m_ngen.mk_child(), mk_default_converter(env, optional<module_idx>(0))),
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m_use_exception(use_exception), m_max_steps(max_steps), m_num_steps(0) {
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m_next_assumption_idx = 0;
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m_next_cidx = 0;
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@ -29,7 +29,7 @@ definition assump : tactic := eassumption
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theorem T1 {p : nat → Bool} {a : nat } (H : p (a+2)) : ∃ x, p (succ x)
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:= by apply exists_intro; assump
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definition is_zero [inline] (n : nat)
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definition is_zero (n : nat)
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:= nat_rec true (λ n r, false) n
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theorem T2 : ∃ a, (is_zero a) = true
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