refactor(library/tactic): reorganize tactic API, add assumption_tactic

Signed-off-by: Leonardo de Moura <leonardo@microsoft.com>
2013-11-21 15:31:55 -08:00 · 2013-11-21 15:31:55 -08:00 · 680ec8abba
commit 680ec8abba
parent ca74d069b9
6 changed files with 175 additions and 57 deletions
--- a/src/library/tactic/goal.h
+++ b/src/library/tactic/goal.h
@ -18,9 +18,11 @@ class goal {
    list<std::pair<name, expr>> m_hypotheses;
    expr                        m_conclusion;
 public:
    goal() {}
    goal(list<std::pair<name, expr>> const & h, expr const & c);
    list<std::pair<name, expr>> const & get_hypotheses() const { return m_hypotheses; }
    expr const & get_conclusion() const { return m_conclusion; }
    operator bool() const { return m_conclusion; }
 };
 /**
--- a/src/library/tactic/proof_state.cpp
+++ b/src/library/tactic/proof_state.cpp
@ -10,7 +10,6 @@ Author: Leonardo de Moura
 namespace lean {
 void swap(proof_state & s1, proof_state & s2) {
    swap(s1.m_env, s2.m_env);
    swap(s1.m_goals, s2.m_goals);
    swap(s1.m_menv, s2.m_menv);
    swap(s1.m_proof_builder, s2.m_proof_builder);
@ -20,22 +19,22 @@ void swap(proof_state & s1, proof_state & s2) {
 static name g_main("main");
 proof_state to_proof_state(environment const & env, context const & ctx, expr const & t) {
-    auto p           = to_goal(env, ctx, t);
+    auto gfn         = to_goal(env, ctx, t);
-    goal g           = p.first;
+    goal g           = gfn.first;
-    goal_proof_fn fn = p.second;
+    goal_proof_fn fn = gfn.second;
-    return proof_state(env,
+    proof_builder p  = mk_proof_builder(
-                       goals(mk_pair(g_main, g)),
+        [=](proof_map const & m, environment const &, assignment const &) -> expr {
                       metavar_env(),
                       mk_proof_builder([=](proof_map const & m, environment const &, assignment const &) -> expr {
            expr p = find(m, g_main);
            if (!p)
                throw tactic_exception(sstream() << "failed to find proof for '" << g_main << "' goal");
            return fn(p);
-                           }),
+        });
-                       mk_justification_builder([](name const & n, justification const & j, environment const &, assignment const &) -> justification {
+    justification_builder j = mk_justification_builder(
        [](name const & n, justification const & j, environment const &, assignment const &) -> justification {
            if (n != g_main)
                throw tactic_exception(sstream() << "unknown goal name '" << n << "'");
            return j;
-                           }));
+        });
    return proof_state(goals(mk_pair(g_main, g)), metavar_env(), p, j);
 }
 }
--- a/src/library/tactic/proof_state.h
+++ b/src/library/tactic/proof_state.h
@ -13,17 +13,17 @@ Author: Leonardo de Moura
 namespace lean {
 typedef list<std::pair<name, goal>> goals;
 class proof_state {
    environment                 m_env;
    goals                       m_goals;
    metavar_env                 m_menv;
    proof_builder               m_proof_builder;
    justification_builder       m_justification_builder;
 public:
    proof_state() {}
-    proof_state(environment const & env, list<std::pair<name, goal>> const & gs, metavar_env const & menv, proof_builder const & p, justification_builder const & j):
+    proof_state(list<std::pair<name, goal>> const & gs, metavar_env const & menv, proof_builder const & p, justification_builder const & j):
-        m_env(env), m_goals(gs), m_menv(menv), m_proof_builder(p), m_justification_builder(j) {}
+        m_goals(gs), m_menv(menv), m_proof_builder(p), m_justification_builder(j) {}
    proof_state(proof_state const & s, goals const & gs, proof_builder const & p):
        m_goals(gs), m_menv(s.m_menv), m_proof_builder(p), m_justification_builder(s.m_justification_builder) {}
    friend void swap(proof_state & s1, proof_state & s2);
    environment const & get_environment() const { return m_env; }
    list<std::pair<name, goal>> const & get_goals() const { return m_goals; }
    metavar_env const & get_menv() const { return m_menv; }
    proof_builder const & get_proof_builder() const { return m_proof_builder; }
@ -32,4 +32,18 @@ public:
 void swap(proof_state & s1, proof_state & s2);
 proof_state to_proof_state(environment const & env, context const & ctx, expr const & t);
 template<typename F>
 goals map_goals(proof_state const & s, F && f) {
    return map_filter(s.get_goals(), [=](std::pair<name, goal> const & in, std::pair<name, goal> & out) -> bool {
            goal new_goal = f(in.first, in.second);
            if (new_goal) {
                out.first  = in.first;
                out.second = new_goal;
                return true;
            } else {
                return false;
            }
        });
 }
 }
--- a/src/library/tactic/tactic.cpp
+++ b/src/library/tactic/tactic.cpp
@ -4,18 +4,38 @@ Released under Apache 2.0 license as described in the file LICENSE.
 Author: Leonardo de Moura
 */
 #include <utility>
 #include "util/interrupt.h"
 #include "library/tactic/tactic_exception.h"
 #include "library/tactic/tactic.h"
 namespace lean {
 tactic_result::~tactic_result() {
 }
 void tactic_result::interrupt() {
-    m_result = true;
+    m_interrupted = true;
 }
 void tactic_result::request_interrupt() {
    {
        std::lock_guard<std::mutex> lock(m_mutex);
        interrupt();
    }
    ::lean::request_interrupt();
 }
 proof_state_ref tactic_result::next(environment const & env, state const & s) {
    try {
        return next_core(env, s);
    } catch (interrupted &) {
        if (m_interrupted) {
            // promote to tactic_exception if tactic is marked as interrupted
            throw tactic_exception("interrupted");
        } else {
            // if tactic was not interrupted, then continue propagating interrupted exception
            throw;
        }
    }
 }
 tactic_cell::~tactic_cell() {
 }
@ -28,25 +48,6 @@ tactic & tactic::operator=(tactic && s) {
    LEAN_MOVE_REF(tactic, s);
 }
 class id_tactic : public tactic_cell {
 public:
    class result : public tactic_result {
        proof_state_ref m_r;
    public:
        result(proof_state const & s):m_r(new proof_state(s)) {}
        virtual proof_state_ref next() {
            return proof_state_ref(std::move(m_r));
        }
    };
    virtual tactic_result_ref operator()(proof_state const & s) const {
        return tactic_result_ref(new result(s));
    }
 };
 tactic idtac() { return tactic(new id_tactic()); }
 class then_tactic : public tactic_cell {
    tactic m_t1;
    tactic m_t2;
@ -67,9 +68,9 @@ public:
    public:
        result(tactic_result_ref && r1, tactic const & t2):m_r1(std::move(r1)), m_t2(t2) {}
-        virtual proof_state_ref next() {
+        virtual proof_state_ref next_core(environment const & env, state const & s) {
            if (m_r2) {
-                proof_state_ref s2 = m_r2->next();
+                proof_state_ref s2 = m_r2->next(env, s);
                if (s2)
                    return s2;
                m_r2.release();
@ -77,20 +78,64 @@ public:
            }
            lean_assert(!m_r2);
            lean_assert(!m_s1);
-            proof_state_ref new_s1(m_r1->next());
+            proof_state_ref new_s1(m_r1->next(env, s));
            if (!new_s1)
                return proof_state_ref(); // done, m_r1 has no more solutions
            m_s1.swap(new_s1);
            tactic_result_ref r2 = m_t2(proof_state(*m_s1));
            exclusive_update([&]() { m_r2.swap(r2); }); // must protect because interrupt() may be invoked from different thread
-            return m_r2->next();
+            return m_r2->next(env, s);
        }
    };
-    virtual tactic_result_ref operator()(proof_state const & s) const {
+    virtual tactic_result_ref operator()(proof_state const & s) {
        return tactic_result_ref(new result(m_t1(s), m_t2));
    }
 };
 tactic then(tactic const & t1, tactic const & t2) { return tactic(new then_tactic(t1, t2)); }
 tactic id_tactic() { return mk_tactic([](environment const &, state const &, proof_state const & s) -> proof_state { return s; }); }
 tactic fail_tactic() { return mk_tactic([](environment const &, state const &, proof_state const &) -> proof_state { throw tactic_exception("failed"); }); }
 tactic now_tactic() {
    return mk_tactic([](environment const &, state const &, proof_state const & s) -> proof_state {
            if (!empty(s.get_goals()))
                throw tactic_exception("nowtac failed");
            return s;
        });
 }
 tactic assumption_tactic() {
    return mk_tactic([](environment const &, state const &, proof_state const & s) -> proof_state {
            list<std::pair<name, expr>> proofs;
            goals new_goals = map_goals(s, [&](name const & ng, goal const & g) -> goal {
                    expr const & c  = g.get_conclusion();
                    expr pr;
                    for (auto const & p : g.get_hypotheses()) {
                        check_interrupted();
                        if (p.second == c) {
                            pr = mk_constant(p.first);
                            break;
                        }
                    }
                    if (pr) {
                        proofs.emplace_front(ng, pr);
                        return goal();
                    } else {
                        return g;
                    }
                });
            proof_builder p     = s.get_proof_builder();
            proof_builder new_p = mk_proof_builder([=](proof_map const & m, environment const & env, assignment const & a) -> expr {
                    proof_map new_m(m);
                    for (auto const & np : proofs) {
                        new_m.insert(np.first, np.second);
                    }
                    return p(new_m, env, a);
                });
            return proof_state(s, new_goals, new_p);
        });
 }
 }
--- a/src/library/tactic/tactic.h
+++ b/src/library/tactic/tactic.h
@ -8,6 +8,7 @@ Author: Leonardo de Moura
 #include <algorithm>
 #include <memory>
 #include <mutex>
 #include "library/state.h"
 #include "library/tactic/proof_state.h"
 namespace lean {
@ -17,7 +18,7 @@ typedef std::unique_ptr<tactic_result> tactic_result_ref;
 class tactic_result {
    std::mutex        m_mutex;
-    bool          m_result;
+    std::atomic<bool> m_interrupted;
 protected:
    template<typename F>
    void exclusive_update(F && f) {
@ -26,12 +27,12 @@ protected:
    }
    virtual void interrupt();
    void propagate_interrupt(tactic_result_ref & r) { if (r) r->interrupt(); }
    virtual proof_state_ref next_core(environment const & env, state const & s) = 0;
 public:
-    tactic_result():m_result(false) {}
+    tactic_result():m_interrupted(false) {}
    bool interrupted() const { return m_result; }
    void request_interrupt();
    proof_state_ref next(environment const & env, state const & s);
    virtual ~tactic_result();
    virtual proof_state_ref next() = 0;
 };
 class tactic_cell {
@ -39,7 +40,7 @@ class tactic_cell {
    MK_LEAN_RC();
 public:
    virtual ~tactic_cell();
-    virtual tactic_result_ref operator()(proof_state const & s) const = 0;
+    virtual tactic_result_ref operator()(proof_state const & s) = 0;
 };
 class tactic {
@ -54,9 +55,47 @@ public:
    tactic & operator=(tactic const & s);
    tactic & operator=(tactic && s);
-    tactic_result_ref operator()(proof_state const & s) const { return m_ptr->operator()(s); }
+    tactic_result_ref operator()(proof_state const & s) { return m_ptr->operator()(s); }
 };
-tactic idtac();
+template<typename F>
 class simple_tactic_cell : public tactic_cell {
    F m_f;
 public:
    simple_tactic_cell(F && f):m_f(f) {}
    class result : public tactic_result {
        simple_tactic_cell * m_cell;
        proof_state          m_in;
    public:
        result(simple_tactic_cell * c, proof_state const & in):m_cell(c), m_in(in) {
            lean_assert(m_cell);
            m_cell->inc_ref();
        }
        virtual ~result() { if (m_cell) m_cell->dec_ref(); }
        virtual proof_state_ref next_core(environment const & env, state const & io) {
            if (m_cell) {
                proof_state_ref r(new proof_state(m_cell->m_f(env, io, m_in)));
                m_cell = nullptr;
                return std::move(r);
            } else {
                return proof_state_ref();
            }
        }
    };
    virtual tactic_result_ref operator()(proof_state const & s) {
        return tactic_result_ref(new result(this, s));
    }
 };
 template<typename F>
 tactic mk_tactic(F && f) { return tactic(new simple_tactic_cell<F>(std::forward<F>(f))); }
 tactic id_tactic();
 tactic fail_tactic();
 tactic now_tactic();
 tactic assumption_tactic();
 tactic then(tactic const & t1, tactic const & t2);
 }
--- a/src/tests/library/tactic/tactic.cpp
+++ b/src/tests/library/tactic/tactic.cpp
@ -5,6 +5,8 @@ Released under Apache 2.0 license as described in the file LICENSE.
 Author: Leonardo de Moura
 */
 #include "util/test.h"
 #include "kernel/builtin.h"
 #include "library/all/all.h"
 #include "library/tactic/goal.h"
 #include "library/tactic/proof_builder.h"
 #include "library/tactic/justification_builder.h"
@ -12,6 +14,23 @@ Author: Leonardo de Moura
 #include "library/tactic/tactic.h"
 using namespace lean;
 static void tst1() {
    environment env;
    import_all(env);
    env.add_var("p", Bool);
    env.add_var("q", Bool);
    expr p = Const("p");
    expr q = Const("q");
    context ctx;
    ctx = extend(ctx, "H1", p);
    ctx = extend(ctx, "H2", q);
    // proof_state s1 = to_proof_state(env, ctx, mk_var(0));
    // tactic t = then(assumption_tactic(), now_tactic());
    // tactic_result_ref r = t(s1);
    // proof_state_ref s2 = r->next();
 }
 int main() {
    tst1();
    return has_violations() ? 1 : 0;
 }