refactor(library/tactic): refine interface between tactic and proof-term modes
Some constraints were being lost with the previous interface. This is why we had a workaround in fintype.lean. We can also remove some hacks we have used in the past.
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12 changed files with 89 additions and 56 deletions
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@ -74,7 +74,7 @@ namespace functor
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apply (apd10' c'),
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apply (apd10' c'),
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apply concat, rotate_left 1, esimp,
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apply concat, rotate_left 1, esimp,
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exact (pi_transport_constant (eq_of_homotopy pF) H₁ c),
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exact (pi_transport_constant (eq_of_homotopy pF) H₁ c),
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reflexivity
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esimp
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end))))
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end))))
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definition functor_eq {F₁ F₂ : C ⇒ D} : Π(p : to_fun_ob F₁ ∼ to_fun_ob F₂),
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definition functor_eq {F₁ F₂ : C ⇒ D} : Π(p : to_fun_ob F₁ ∼ to_fun_ob F₂),
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@ -136,13 +136,7 @@ match h₁ with
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match check_pred (λ a, ¬ p a) e with
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match check_pred (λ a, ¬ p a) e with
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| tt := λ h : check_pred (λ a, ¬ p a) e = tt, inr (λ ex : (∃ x, p x),
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| tt := λ h : check_pred (λ a, ¬ p a) e = tt, inr (λ ex : (∃ x, p x),
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obtain x px, from ex,
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obtain x px, from ex,
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begin
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absurd px (all_of_check_pred_eq_tt h (c x)))
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-- TODO(Leo): remove the following hack. This hack is needed to workaround a problem in
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-- the method elaborator::elaborate_nested
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apply absurd px,
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apply all_of_check_pred_eq_tt h,
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apply c x,
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end)
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| ff := λ h : check_pred (λ a, ¬ p a) e = ff, inl (
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| ff := λ h : check_pred (λ a, ¬ p a) e = ff, inl (
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assert aux₁ : ∃ x, ¬¬p x, from ex_of_check_pred_eq_ff h,
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assert aux₁ : ∃ x, ¬¬p x, from ex_of_check_pred_eq_ff h,
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obtain x nnpx, from aux₁, exists.intro x (not_not_elim nnpx))
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obtain x nnpx, from aux₁, exists.intro x (not_not_elim nnpx))
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@ -1640,13 +1640,13 @@ optional<tactic> elaborator::pre_tactic_to_tactic(expr const & pre_tac) {
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try {
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try {
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bool relax = m_relax_main_opaque;
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bool relax = m_relax_main_opaque;
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auto fn = [=](goal const & g, name_generator const & ngen, expr const & e, optional<expr> const & expected_type,
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auto fn = [=](goal const & g, name_generator const & ngen, expr const & e, optional<expr> const & expected_type,
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bool report_unassigned) {
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substitution const & subst, bool report_unassigned) {
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elaborator aux_elaborator(m_ctx, ngen);
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elaborator aux_elaborator(m_ctx, ngen);
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// Disable tactic hints when processing expressions nested in tactics.
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// Disable tactic hints when processing expressions nested in tactics.
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// We must do it otherwise, it is easy to make the system loop.
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// We must do it otherwise, it is easy to make the system loop.
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bool use_tactic_hints = false;
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bool use_tactic_hints = false;
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return aux_elaborator.elaborate_nested(g.to_context(), expected_type, e,
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return aux_elaborator.elaborate_nested(g.to_context(), expected_type, e,
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relax, use_tactic_hints, report_unassigned);
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relax, use_tactic_hints, subst, report_unassigned);
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};
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};
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return optional<tactic>(expr_to_tactic(env(), fn, pre_tac, pip()));
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return optional<tactic>(expr_to_tactic(env(), fn, pre_tac, pip()));
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} catch (expr_to_tactic_exception & ex) {
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} catch (expr_to_tactic_exception & ex) {
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@ -2067,9 +2067,9 @@ static expr translate(environment const & env, list<expr> const & ctx, expr cons
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}
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}
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/** \brief Elaborate expression \c e in context \c ctx. */
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/** \brief Elaborate expression \c e in context \c ctx. */
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pair<expr, constraints> elaborator::elaborate_nested(list<expr> const & ctx, optional<expr> const & expected_type,
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elaborate_result elaborator::elaborate_nested(list<expr> const & ctx, optional<expr> const & expected_type,
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expr const & n, bool relax, bool use_tactic_hints,
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expr const & n, bool relax, bool use_tactic_hints,
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bool report_unassigned) {
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substitution const & subst, bool report_unassigned) {
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if (infom()) {
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if (infom()) {
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if (auto ps = get_info_tactic_proof_state()) {
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if (auto ps = get_info_tactic_proof_state()) {
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save_proof_state_info(*ps, n);
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save_proof_state_info(*ps, n);
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@ -2089,21 +2089,24 @@ pair<expr, constraints> elaborator::elaborate_nested(list<expr> const & ctx, opt
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flet<bool> set_use_hints(m_use_tactic_hints, use_tactic_hints);
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flet<bool> set_use_hints(m_use_tactic_hints, use_tactic_hints);
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constraint_seq cs;
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constraint_seq cs;
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expr r = visit(e, cs);
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expr r = visit(e, cs);
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auto p = solve(cs).pull();
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buffer<constraint> tmp;
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cs.linearize(tmp);
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auto p = unify(env(), tmp.size(), tmp.data(), m_ngen.mk_child(), subst, m_unifier_config).pull();
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lean_assert(p);
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lean_assert(p);
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substitution s = p->first.first;
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substitution new_subst = p->first.first;
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constraints rcs = p->first.second;
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constraints rcs = p->first.second;
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r = s.instantiate_all(r);
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r = new_subst.instantiate_all(r);
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r = solve_unassigned_mvars(s, r);
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r = solve_unassigned_mvars(new_subst, r);
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rcs = map(rcs, [&](constraint const & c) { return instantiate_metavars(c, s); });
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rcs = map(rcs, [&](constraint const & c) { return instantiate_metavars(c, new_subst); });
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copy_info_to_manager(s);
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copy_info_to_manager(new_subst);
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if (report_unassigned)
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if (report_unassigned)
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display_unassigned_mvars(r, s);
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display_unassigned_mvars(r, new_subst);
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if (expected_type) {
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if (expected_type) {
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justification j;
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justification j;
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rcs = append(rcs, cls.mk_constraints(s, j, relax));
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rcs = append(rcs, cls.mk_constraints(new_subst, j, relax));
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}
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}
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return mk_pair(r, rcs);
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return elaborate_result(r, new_subst, rcs);
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}
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}
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static name * g_tmp_prefix = nullptr;
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static name * g_tmp_prefix = nullptr;
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@ -12,8 +12,9 @@ Author: Leonardo de Moura
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#include "kernel/type_checker.h"
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#include "kernel/type_checker.h"
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#include "library/expr_lt.h"
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#include "library/expr_lt.h"
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#include "library/unifier.h"
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#include "library/unifier.h"
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#include "library/tactic/tactic.h"
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#include "library/local_context.h"
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#include "library/local_context.h"
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#include "library/tactic/tactic.h"
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#include "library/tactic/elaborate.h"
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#include "frontends/lean/elaborator_context.h"
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#include "frontends/lean/elaborator_context.h"
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#include "frontends/lean/coercion_elaborator.h"
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#include "frontends/lean/coercion_elaborator.h"
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#include "frontends/lean/util.h"
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#include "frontends/lean/util.h"
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@ -165,8 +166,8 @@ class elaborator : public coercion_info_manager {
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void check_sort_assignments(substitution const & s);
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void check_sort_assignments(substitution const & s);
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expr apply(substitution & s, expr const & e, name_set & univ_params, buffer<name> & new_params);
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expr apply(substitution & s, expr const & e, name_set & univ_params, buffer<name> & new_params);
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std::tuple<expr, level_param_names> apply(substitution & s, expr const & e);
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std::tuple<expr, level_param_names> apply(substitution & s, expr const & e);
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pair<expr, constraints> elaborate_nested(list<expr> const & ctx, optional<expr> const & expected_type, expr const & e,
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elaborate_result elaborate_nested(list<expr> const & ctx, optional<expr> const & expected_type, expr const & e,
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bool relax, bool use_tactic_hints, bool report_unassigned);
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bool relax, bool use_tactic_hints, substitution const &, bool report_unassigned);
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expr const & get_equation_fn(expr const & eq) const;
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expr const & get_equation_fn(expr const & eq) const;
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expr visit_equations(expr const & eqns, constraint_seq & cs);
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expr visit_equations(expr const & eqns, constraint_seq & cs);
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@ -36,7 +36,7 @@ tactic mk_info_tactic(elaborate_fn const & fn, expr const & e) {
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// create dummy variable just to communicate position to the elaborator
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// create dummy variable just to communicate position to the elaborator
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expr dummy = mk_sort(mk_level_zero(), e.get_tag());
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expr dummy = mk_sort(mk_level_zero(), e.get_tag());
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scoped_info_tactic_proof_state scope(ps);
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scoped_info_tactic_proof_state scope(ps);
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fn(goal(), name_generator("dummy"), dummy, none_expr(), false);
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fn(goal(), name_generator("dummy"), dummy, none_expr(), substitution(), false);
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return ps;
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return ps;
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});
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});
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}
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}
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@ -234,13 +234,13 @@ tactic apply_tactic_core(elaborate_fn const & elab, expr const & e, add_meta_kin
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}
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}
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goal const & g = head(gs);
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goal const & g = head(gs);
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name_generator ngen = s.get_ngen();
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name_generator ngen = s.get_ngen();
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expr new_e;
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expr new_e; substitution new_subst; constraints cs_;
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auto ecs = elab(g, ngen.mk_child(), e, none_expr(), s.get_subst(), false);
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std::tie(new_e, new_subst, cs_) = ecs;
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buffer<constraint> cs;
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buffer<constraint> cs;
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auto ecs = elab(g, ngen.mk_child(), e, none_expr(), false);
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to_buffer(cs_, cs);
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new_e = ecs.first;
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to_buffer(ecs.second, cs);
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to_buffer(s.get_postponed(), cs);
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to_buffer(s.get_postponed(), cs);
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proof_state new_s(s, ngen, constraints());
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proof_state new_s(s, new_subst, ngen, constraints());
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return apply_tactic_core(env, ios, new_s, new_e, cs, add_meta, k);
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return apply_tactic_core(env, ios, new_s, new_e, cs, add_meta, k);
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});
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});
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}
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}
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@ -21,7 +21,7 @@ tactic check_expr_tactic(elaborate_fn const & elab, expr const & e,
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}
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}
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goal const & g = head(gs);
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goal const & g = head(gs);
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name_generator ngen = s.get_ngen();
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name_generator ngen = s.get_ngen();
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expr new_e = elab(g, ngen.mk_child(), e, none_expr(), false).first;
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expr new_e = std::get<0>(elab(g, ngen.mk_child(), e, none_expr(), s.get_subst(), false));
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auto tc = mk_type_checker(env, ngen.mk_child(), s.relax_main_opaque());
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auto tc = mk_type_checker(env, ngen.mk_child(), s.relax_main_opaque());
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expr new_t = tc->infer(new_e).first;
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expr new_t = tc->infer(new_e).first;
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auto out = regular(env, ios);
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auto out = regular(env, ios);
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@ -44,13 +44,14 @@ optional<expr> elaborate_with_respect_to(environment const & env, io_state const
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optional<expr> elab_expected_type;
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optional<expr> elab_expected_type;
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if (enforce_type_during_elaboration)
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if (enforce_type_during_elaboration)
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elab_expected_type = expected_type;
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elab_expected_type = expected_type;
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auto ecs = elab(head(gs), ngen.mk_child(), e, elab_expected_type, report_unassigned);
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auto esc = elab(head(gs), ngen.mk_child(), e, elab_expected_type, subst, report_unassigned);
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expr new_e = ecs.first;
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expr new_e; substitution new_subst; constraints cs_;
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std::tie(new_e, new_subst, cs_) = esc;
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buffer<constraint> cs;
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buffer<constraint> cs;
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to_buffer(ecs.second, cs);
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to_buffer(cs_, cs);
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if (cs.empty() && (!expected_type || enforce_type_during_elaboration)) {
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if (cs.empty() && (!expected_type || enforce_type_during_elaboration)) {
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// easy case: no constraints to be solved
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// easy case: no constraints to be solved
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s = proof_state(s, ngen);
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s = proof_state(s, new_subst, ngen);
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return some_expr(new_e);
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return some_expr(new_e);
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} else {
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} else {
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to_buffer(s.get_postponed(), cs);
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to_buffer(s.get_postponed(), cs);
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@ -75,7 +76,7 @@ optional<expr> elaborate_with_respect_to(environment const & env, io_state const
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d_cs.second.linearize(cs);
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d_cs.second.linearize(cs);
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}
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}
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unifier_config cfg(ios.get_options());
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unifier_config cfg(ios.get_options());
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unify_result_seq rseq = unify(env, cs.size(), cs.data(), ngen.mk_child(), subst, cfg);
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unify_result_seq rseq = unify(env, cs.size(), cs.data(), ngen.mk_child(), new_subst, cfg);
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if (auto p = rseq.pull()) {
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if (auto p = rseq.pull()) {
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substitution new_subst = p->first.first;
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substitution new_subst = p->first.first;
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constraints new_postponed = p->first.second;
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constraints new_postponed = p->first.second;
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@ -17,10 +17,16 @@ bool solve_constraints(environment const & env, io_state const & ios, proof_stat
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2- name generator
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2- name generator
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3- expression to be elaborated
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3- expression to be elaborated
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4- expected type
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4- expected type
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5- a flag indicating whether the elaborator should report unassigned/unsolved placeholders
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5- substitution associated with the proof state
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6- a flag indicating whether the elaborator should report unassigned/unsolved placeholders
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The results are
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1- elaborated expression
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2- updated substitution
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3- postponed constraints
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*/
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*/
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typedef std::function<pair<expr, constraints>(goal const &, name_generator const &, expr const &,
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typedef std::tuple<expr, substitution, constraints> elaborate_result;
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optional<expr> const &, bool)> elaborate_fn;
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typedef std::function<elaborate_result(goal const &, name_generator const &, expr const &,
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optional<expr> const &, substitution const &, bool)> elaborate_fn;
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/** \brief Try to elaborate expression \c e using the elaboration function \c elab. The elaboration is performed
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/** \brief Try to elaborate expression \c e using the elaboration function \c elab. The elaboration is performed
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with respect to (local context of) the first goal in \c s. The constraints generated during elaboration
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with respect to (local context of) the first goal in \c s. The constraints generated during elaboration
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@ -7,6 +7,7 @@ Author: Leonardo de Moura
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#include "kernel/abstract.h"
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#include "kernel/abstract.h"
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#include "library/constants.h"
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#include "library/constants.h"
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#include "library/reducible.h"
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#include "library/reducible.h"
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#include "library/unifier.h"
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#include "library/tactic/tactic.h"
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#include "library/tactic/tactic.h"
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#include "library/tactic/elaborate.h"
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#include "library/tactic/elaborate.h"
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#include "library/tactic/expr_to_tactic.h"
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#include "library/tactic/expr_to_tactic.h"
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@ -28,10 +29,11 @@ tactic let_tactic(elaborate_fn const & elab, name const & id, expr const & e) {
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goal const & g = head(gs);
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goal const & g = head(gs);
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name_generator ngen = s.get_ngen();
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name_generator ngen = s.get_ngen();
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bool report_unassigned = true;
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bool report_unassigned = true;
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auto ecs = elab(g, ngen.mk_child(), e, none_expr(), report_unassigned);
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elaborate_result esc = elab(g, ngen.mk_child(), e, none_expr(), new_s.get_subst(), report_unassigned);
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if (ecs.second)
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expr new_e; substitution new_subst; constraints cs;
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std::tie(new_e, new_subst, cs) = esc;
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if (cs)
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throw_tactic_exception_if_enabled(s, "invalid 'let' tactic, fail to resolve generated constraints");
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throw_tactic_exception_if_enabled(s, "invalid 'let' tactic, fail to resolve generated constraints");
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expr new_e = ecs.first;
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auto tc = mk_type_checker(env, ngen.mk_child(), s.relax_main_opaque());
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auto tc = mk_type_checker(env, ngen.mk_child(), s.relax_main_opaque());
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expr new_e_type = tc->infer(new_e).first;
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expr new_e_type = tc->infer(new_e).first;
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expr new_local = mk_local(ngen.next(), id, new_e_type, binder_info());
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expr new_local = mk_local(ngen.next(), id, new_e_type, binder_info());
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@ -43,7 +45,6 @@ tactic let_tactic(elaborate_fn const & elab, name const & id, expr const & e) {
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expr new_meta_core = mk_app(new_mvar, hyps);
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expr new_meta_core = mk_app(new_mvar, hyps);
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expr new_meta = mk_app(new_meta_core, new_local);
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expr new_meta = mk_app(new_meta_core, new_local);
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goal new_goal(new_meta, g.get_type());
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goal new_goal(new_meta, g.get_type());
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substitution new_subst = new_s.get_subst();
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assign(new_subst, g, mk_app(new_meta_core, new_e));
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assign(new_subst, g, mk_app(new_meta_core, new_e));
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return some_proof_state(proof_state(s, cons(new_goal, tail(gs)), new_subst, ngen));
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return some_proof_state(proof_state(s, cons(new_goal, tail(gs)), new_subst, ngen));
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});
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});
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@ -40,10 +40,17 @@ public:
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proof_state(s, gs, s.m_subst, ngen) {}
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proof_state(s, gs, s.m_subst, ngen) {}
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proof_state(proof_state const & s, goals const & gs):
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proof_state(proof_state const & s, goals const & gs):
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proof_state(s, gs, s.m_subst) {}
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proof_state(s, gs, s.m_subst) {}
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proof_state(proof_state const & s, substitution const & subst, name_generator const & ngen,
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constraints const & postponed):
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proof_state(s.m_goals, subst, ngen, postponed, s.relax_main_opaque(), s.report_failure()) {}
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proof_state(proof_state const & s, name_generator const & ngen, constraints const & postponed):
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proof_state(proof_state const & s, name_generator const & ngen, constraints const & postponed):
|
||||||
proof_state(s.m_goals, s.m_subst, ngen, postponed, s.relax_main_opaque(), s.report_failure()) {}
|
proof_state(s, s.m_goals, s.m_subst, ngen, postponed) {}
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||||||
|
proof_state(proof_state const & s, substitution const & subst, name_generator const & ngen):
|
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|
proof_state(s, s.m_goals, subst, ngen, s.m_postponed) {}
|
||||||
proof_state(proof_state const & s, name_generator const & ngen):
|
proof_state(proof_state const & s, name_generator const & ngen):
|
||||||
proof_state(s, ngen, s.m_postponed) {}
|
proof_state(s, ngen, s.m_postponed) {}
|
||||||
|
proof_state(proof_state const & s, substitution const & subst):
|
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|
proof_state(s, subst, s.m_ngen) {}
|
||||||
|
|
||||||
proof_state update_report_failure(bool f) const {
|
proof_state update_report_failure(bool f) const {
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||||||
return m_report_failure == f ? *this : proof_state(m_goals, m_subst, m_ngen, m_postponed, m_relax_main_opaque, f);
|
return m_report_failure == f ? *this : proof_state(m_goals, m_subst, m_ngen, m_postponed, m_relax_main_opaque, f);
|
||||||
|
|
|
@ -677,11 +677,31 @@ class rewrite_fn {
|
||||||
return process_reduce_step(info.get_names(), info.get_location());
|
return process_reduce_step(info.get_names(), info.get_location());
|
||||||
}
|
}
|
||||||
|
|
||||||
|
optional<pair<expr, constraints>> elaborate_core(expr const & e, bool fail_if_cnstrs) {
|
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|
expr new_expr; substitution new_subst; constraints cs;
|
||||||
|
std::tie(new_expr, new_subst, cs) = m_elab(m_g, m_ngen.mk_child(), e, none_expr(), m_ps.get_subst(), false);
|
||||||
|
if (fail_if_cnstrs && cs)
|
||||||
|
return optional<pair<expr, constraints>>();
|
||||||
|
m_ps = proof_state(m_ps, new_subst);
|
||||||
|
return optional<pair<expr, constraints>>(new_expr, cs);
|
||||||
|
}
|
||||||
|
|
||||||
|
optional<expr> elaborate_if_no_cnstr(expr const & e) {
|
||||||
|
if (auto r = elaborate_core(e, true))
|
||||||
|
return some_expr(r->first);
|
||||||
|
else
|
||||||
|
return none_expr();
|
||||||
|
}
|
||||||
|
|
||||||
|
pair<expr, constraints> elaborate(expr const & e) {
|
||||||
|
return *elaborate_core(e, false);
|
||||||
|
}
|
||||||
|
|
||||||
optional<expr> fold(expr const & type, expr const & e, occurrence const & occ) {
|
optional<expr> fold(expr const & type, expr const & e, occurrence const & occ) {
|
||||||
auto ecs = m_elab(m_g, m_ngen.mk_child(), e, none_expr(), false);
|
auto oe = elaborate_if_no_cnstr(e);
|
||||||
expr new_e = ecs.first;
|
if (!oe)
|
||||||
if (ecs.second)
|
return none_expr();
|
||||||
return none_expr(); // contain constraints...
|
expr new_e = *oe;
|
||||||
optional<expr> unfolded_e = unfold_app(m_env, new_e);
|
optional<expr> unfolded_e = unfold_app(m_env, new_e);
|
||||||
if (!unfolded_e)
|
if (!unfolded_e)
|
||||||
return none_expr();
|
return none_expr();
|
||||||
|
@ -750,7 +770,7 @@ class rewrite_fn {
|
||||||
}
|
}
|
||||||
|
|
||||||
optional<expr> unify_with(expr const & t, expr const & e) {
|
optional<expr> unify_with(expr const & t, expr const & e) {
|
||||||
auto ecs = m_elab(m_g, m_ngen.mk_child(), e, none_expr(), false);
|
auto ecs = elaborate(e);
|
||||||
expr new_e = ecs.first;
|
expr new_e = ecs.first;
|
||||||
buffer<constraint> cs;
|
buffer<constraint> cs;
|
||||||
to_buffer(ecs.second, cs);
|
to_buffer(ecs.second, cs);
|
||||||
|
@ -1074,7 +1094,7 @@ class rewrite_fn {
|
||||||
unify_result unify_target(expr const & t, expr const & orig_elem, bool is_goal) {
|
unify_result unify_target(expr const & t, expr const & orig_elem, bool is_goal) {
|
||||||
try {
|
try {
|
||||||
expr rule = get_rewrite_rule(orig_elem);
|
expr rule = get_rewrite_rule(orig_elem);
|
||||||
auto rcs = m_elab(m_g, m_ngen.mk_child(), rule, none_expr(), false);
|
auto rcs = elaborate(rule);
|
||||||
rule = rcs.first;
|
rule = rcs.first;
|
||||||
buffer<constraint> cs;
|
buffer<constraint> cs;
|
||||||
to_buffer(rcs.second, cs);
|
to_buffer(rcs.second, cs);
|
||||||
|
@ -1376,11 +1396,11 @@ class rewrite_fn {
|
||||||
expr rule = get_rewrite_rule(elem);
|
expr rule = get_rewrite_rule(elem);
|
||||||
expr new_elem;
|
expr new_elem;
|
||||||
if (has_rewrite_pattern(elem)) {
|
if (has_rewrite_pattern(elem)) {
|
||||||
expr pattern = m_elab(m_g, m_ngen.mk_child(), get_rewrite_pattern(elem), none_expr(), false).first;
|
expr pattern = elaborate(get_rewrite_pattern(elem)).first;
|
||||||
expr new_args[2] = { rule, pattern };
|
expr new_args[2] = { rule, pattern };
|
||||||
new_elem = mk_macro(macro_def(elem), 2, new_args);
|
new_elem = mk_macro(macro_def(elem), 2, new_args);
|
||||||
} else {
|
} else {
|
||||||
rule = m_elab(m_g, m_ngen.mk_child(), rule, none_expr(), false).first;
|
rule = elaborate(rule).first;
|
||||||
new_elem = mk_macro(macro_def(elem), 1, &rule);
|
new_elem = mk_macro(macro_def(elem), 1, &rule);
|
||||||
}
|
}
|
||||||
return process_rewrite_step(new_elem, elem);
|
return process_rewrite_step(new_elem, elem);
|
||||||
|
@ -1504,8 +1524,8 @@ tactic mk_simple_rewrite_tactic(buffer<expr> const & rw_elems) {
|
||||||
auto fn = [=](environment const & env, io_state const & ios, proof_state const & s) {
|
auto fn = [=](environment const & env, io_state const & ios, proof_state const & s) {
|
||||||
// dummy elaborator
|
// dummy elaborator
|
||||||
auto elab = [](goal const &, name_generator const &, expr const & H,
|
auto elab = [](goal const &, name_generator const &, expr const & H,
|
||||||
optional<expr> const &, bool) -> pair<expr, constraints> {
|
optional<expr> const &, substitution const & s, bool) -> elaborate_result {
|
||||||
return mk_pair(H, constraints());
|
return elaborate_result(H, s, constraints());
|
||||||
};
|
};
|
||||||
return rewrite_fn(env, ios, elab, s)(rw_elems);
|
return rewrite_fn(env, ios, elab, s)(rw_elems);
|
||||||
};
|
};
|
||||||
|
|
Loading…
Reference in a new issue