feat(frontends/lean): display '[congr]' attribute when printing theorems

This commit is contained in:
Leonardo de Moura 2015-07-23 18:49:50 -07:00
parent 3e6b80d38c
commit bcf057f4f3
5 changed files with 38 additions and 3 deletions

View file

@ -192,6 +192,8 @@ void print_attributes(parser & p, name const & n) {
out << " [instance]";
if (is_simp_rule(env, n))
out << " [simp]";
if (is_congr_rule(env, n))
out << " [congr]";
switch (get_reducible_status(env, n)) {
case reducible_status::Reducible: out << " [reducible]"; break;
case reducible_status::Irreducible: out << " [irreducible]"; break;

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@ -382,16 +382,18 @@ void add_congr_core(environment const & env, simp_rule_sets & s, name const & n)
struct rrs_state {
simp_rule_sets m_sets;
name_set m_snames;
name_set m_simp_names;
name_set m_congr_names;
void add_simp(environment const & env, name const & cname) {
type_checker tc(env);
m_sets = add_core(tc, m_sets, cname);
m_snames.insert(cname);
m_simp_names.insert(cname);
}
void add_congr(environment const & env, name const & n) {
add_congr_core(env, m_sets, n);
m_congr_names.insert(n);
}
};
@ -433,7 +435,11 @@ environment add_congr_rule(environment const & env, name const & n, bool persist
}
bool is_simp_rule(environment const & env, name const & n) {
return rrs_ext::get_state(env).m_snames.contains(n);
return rrs_ext::get_state(env).m_simp_names.contains(n);
}
bool is_congr_rule(environment const & env, name const & n) {
return rrs_ext::get_state(env).m_congr_names.contains(n);
}
simp_rule_sets get_simp_rule_sets(environment const & env) {

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@ -106,6 +106,8 @@ environment add_congr_rule(environment const & env, name const & n, bool persist
/** \brief Return true if \c n is an active simplification rule in \c env */
bool is_simp_rule(environment const & env, name const & n);
/** \brief Return true if \c n is an active congruence rule in \c env */
bool is_congr_rule(environment const & env, name const & n);
/** \brief Get current simplification rule sets */
simp_rule_sets get_simp_rule_sets(environment const & env);
/** \brief Get simplification rule sets in the given namespace. */

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@ -0,0 +1,5 @@
import data.list
open list perm
set_option pp.max_depth 10
print perm_erase_dup_of_perm

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@ -0,0 +1,20 @@
theorem perm.perm_erase_dup_of_perm [congr] : ∀ {A : Type} [H : decidable_eq A] {l₁ l₂ : list A}, l₁ ~ l₂ → erase_dup l₁ ~ erase_dup l₂ :=
λ (A : Type) (H : decidable_eq A) (l₁ l₂ : list A) (p : l₁ ~ l₂),
perm_induction_on p nil
(λ (x : A) (t₁ t₂ : list A) (p : t₁ ~ t₂) (r : erase_dup t₁ ~ erase_dup t₂),
decidable.by_cases
(λ (xint₁ : x ∈ t₁), assert xint₂ : x ∈ t₂, from mem_of_mem_erase_dup …, … …)
(λ (nxint₁ : x ∉ t₁),
assert nxint₂ : x ∉ t₂, from λ (xint₂ : x ∈ t₂), … nxint₁,
eq.rec … (eq.symm …)))
(λ (y x : A) (t₁ t₂ : list A) (p : t₁ ~ t₂) (r : erase_dup t₁ ~ erase_dup t₂),
decidable.by_cases
(λ (xinyt₁ : x ∈ y :: t₁),
decidable.by_cases (λ (yint₁ : …), …)
(λ (nyint₁ : y ∉ t₁), assert nyint₂ : …, from …, …))
(λ (nxinyt₁ : x ∉ y :: t₁),
have xney : x ≠ y, from ne_of_not_mem_cons nxinyt₁,
have nxint₁ : x ∉ t₁, from not_mem_of_not_mem_cons nxinyt₁,
assert nxint₂ : x ∉ t₂, from λ (xint₂ : …), …,
… …))
(λ (t₁ t₂ t₃ : list A) (p₁ : t₁ ~ t₂) (p₂ : t₂ ~ t₃), trans)