lean2/src/kernel/environment.cpp

/*
Copyright (c) 2013 Microsoft Corporation. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.

Author: Leonardo de Moura
*/
#include <algorithm>
#include <vector>
#include <limits>
#include "environment.h"
#include "exception.h"
#include "debug.h"

namespace lean {
constexpr unsigned uninit = std::numeric_limits<int>::max();

struct environment::imp {
    std::vector<std::vector<unsigned>> m_uvar_distances;
    std::vector<level>                 m_uvars;

    static int sub(int v, unsigned k) {
        long long r = static_cast<long long>(v) - static_cast<long long>(k);
        if (r < std::numeric_limits<int>::min())
            throw exception("universe overflow");
        return static_cast<int>(r);
    }

    static int add(int v, unsigned k) {
        long long r = static_cast<long long>(v) + static_cast<long long>(k);
        if (r > std::numeric_limits<int>::max() - 1)
            throw exception("universe overflow");
        return static_cast<int>(r);
    }

    static unsigned add(unsigned v, unsigned k) {
        unsigned long long r = static_cast<unsigned long long>(v) + static_cast<unsigned long long>(k);
        if (r > std::numeric_limits<int>::max() - 1)
            throw exception("universe overflow");
        return static_cast<unsigned>(r);
    }

    /** \brief Return true iff l1 >= l2 + k */
    bool is_implied(level const & l1, level const & l2, int k) {
        switch (kind(l2)) {
        case level_kind::UVar:
            switch (kind(l1)) {
            case level_kind::UVar: {
                unsigned d = m_uvar_distances[uvar_idx(l1)][uvar_idx(l2)];
                return k >= 0 && d != uninit && d >= static_cast<unsigned>(k);
            }
            case level_kind::Lift: return is_implied(lift_of(l1), l2, sub(k, lift_offset(l1)));
            case level_kind::Max:  return is_implied(max_level1(l1), l2, k) || is_implied(max_level2(l1), l2, k);
            }
        case level_kind::Lift: return is_implied(l1, lift_of(l2), add(k, lift_offset(l2)));
        case level_kind::Max:  return is_implied(l1, max_level1(l2), k) && is_implied(l1, max_level2(l2), k);
        }
        lean_unreachable();
        return false;
    }

    bool is_implied(level const & l1, level const & l2) {
        return is_implied(l1, l2, 0);
    }

    level add_var(name const & n) {
        if (std::any_of(m_uvars.begin(), m_uvars.end(), [&](level const & l){ return uvar_name(l) == n; }))
            throw exception("invalid universe variable declaration, it has already been declared");
        unsigned idx = m_uvars.size();
        level r(n, idx);
        m_uvars.push_back(r);
        std::for_each(m_uvar_distances.begin(), m_uvar_distances.end(), [](std::vector<unsigned> & v) { v.push_back(uninit); });
        m_uvar_distances.push_back(std::vector<unsigned>());
        std::vector<unsigned> & d = m_uvar_distances.back();
        d.resize(m_uvars.size(), static_cast<unsigned>(uninit));
        d[idx] = 0;
        return r;
    }

    void add_constraint(uvar v1, uvar v2, unsigned d) {
        lean_assert(v1 != v2);
        unsigned num = m_uvar_distances.size();
        lean_assert(v1 < num);
        lean_assert(v2 < num);
        std::vector<unsigned> & v1_dists = m_uvar_distances[v1];
        if (v1_dists[v2] == uninit || d >= v1_dists[v2]) {
            v1_dists[v2] = d;
            // update forward
            std::vector<unsigned> & v2_dists = m_uvar_distances[v2];
            for (uvar v3 = 0; v3 < num; v3++) {
                if (v2_dists[v3] != uninit) {
                    lean_assert(v1 != v3);
                    unsigned d_v1_v3 = add(d, v2_dists[v3]);
                    if (v1_dists[v3] == uninit || d_v1_v3 >= v1_dists[v3])
                        v1_dists[v3] = d_v1_v3;
                }
            }
        }
    }

    void add_constraints(uvar v1, level const & l, unsigned k) {
        switch (kind(l)) {
        case level_kind::UVar: add_constraint(v1, uvar_idx(l), k);                   return;
        case level_kind::Lift: add_constraints(v1, lift_of(l), add(k, lift_offset(l)));  return;
        case level_kind::Max:  add_constraints(v1, max_level1(l), k); add_constraints(v1, max_level2(l), k); return;
        }
        lean_unreachable();
    }

    level define_uvar(name const & n, level const & l) {
        level r = add_var(n);
        add_constraints(uvar_idx(r), l, 0);
        return r;
    }

    void init_uvars() {
        m_uvars.push_back(level());
        m_uvar_distances.push_back(std::vector<unsigned>());
        m_uvar_distances.back().push_back(0);
        lean_assert(uvar_idx(m_uvars.back()) == 0);
    }

    void display_uvars(std::ostream & out) const {
        std::for_each(m_uvars.begin(), m_uvars.end(),
                      [&](level const & u) {
                          std::vector<unsigned> const & u_dists = m_uvar_distances[uvar_idx(u)];
                          unsigned num = u_dists.size();
                          for (uvar v2 = 0; v2 < num; v2++) {
                              if (v2 != uvar_idx(u) && u_dists[v2] != uninit) {
                                  out << uvar_name(u) << "  >= " << uvar_name(m_uvars[v2]);
                                  if (u_dists[v2] > 0)
                                      out << " + " << u_dists[v2];
                                  out << "\n";
                              }
                          }
                      });
    }

    imp() {
        init_uvars();
    }
};

environment::environment():
    m_imp(new imp) {
}

environment::~environment() {
}

level environment::define_uvar(name const & n, level const & l) {
    return m_imp->define_uvar(n, l);
}

bool environment::is_implied(level const & l1, level const & l2) const {
    return m_imp->is_implied(l1, l2);
}

void environment::display_uvars(std::ostream & out) const {
    m_imp->display_uvars(out);
}
}
Universe levels Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2013-07-29 05:34:39 +00:00			`/*`
			`Copyright (c) 2013 Microsoft Corporation. All rights reserved.`
			`Released under Apache 2.0 license as described in the file LICENSE.`

			`Author: Leonardo de Moura`
			`*/`
			`#include <algorithm>`
			`#include <vector>`
			`#include <limits>`
			`#include "environment.h"`
			`#include "exception.h"`
			`#include "debug.h"`

			`namespace lean {`
			`constexpr unsigned uninit = std::numeric_limits<int>::max();`

			`struct environment::imp {`
			`std::vector<std::vector<unsigned>> m_uvar_distances;`
			`std::vector<level> m_uvars;`

			`static int sub(int v, unsigned k) {`
			`long long r = static_cast<long long>(v) - static_cast<long long>(k);`
			`if (r < std::numeric_limits<int>::min())`
			`throw exception("universe overflow");`
			`return static_cast<int>(r);`
			`}`

			`static int add(int v, unsigned k) {`
			`long long r = static_cast<long long>(v) + static_cast<long long>(k);`
			`if (r > std::numeric_limits<int>::max() - 1)`
			`throw exception("universe overflow");`
			`return static_cast<int>(r);`
			`}`

			`static unsigned add(unsigned v, unsigned k) {`
			`unsigned long long r = static_cast<unsigned long long>(v) + static_cast<unsigned long long>(k);`
			`if (r > std::numeric_limits<int>::max() - 1)`
			`throw exception("universe overflow");`
			`return static_cast<unsigned>(r);`
			`}`

			`/** \brief Return true iff l1 >= l2 + k */`
			`bool is_implied(level const & l1, level const & l2, int k) {`
			`switch (kind(l2)) {`
			`case level_kind::UVar:`
			`switch (kind(l1)) {`
			`case level_kind::UVar: {`
			`unsigned d = m_uvar_distances[uvar_idx(l1)][uvar_idx(l2)];`
			`return k >= 0 && d != uninit && d >= static_cast<unsigned>(k);`
			`}`
			`case level_kind::Lift: return is_implied(lift_of(l1), l2, sub(k, lift_offset(l1)));`
			`case level_kind::Max: return is_implied(max_level1(l1), l2, k) \|\| is_implied(max_level2(l1), l2, k);`
			`}`
			`case level_kind::Lift: return is_implied(l1, lift_of(l2), add(k, lift_offset(l2)));`
			`case level_kind::Max: return is_implied(l1, max_level1(l2), k) && is_implied(l1, max_level2(l2), k);`
			`}`
			`lean_unreachable();`
			`return false;`
			`}`

			`bool is_implied(level const & l1, level const & l2) {`
			`return is_implied(l1, l2, 0);`
			`}`

			`level add_var(name const & n) {`
			`if (std::any_of(m_uvars.begin(), m_uvars.end(), [&](level const & l){ return uvar_name(l) == n; }))`
			`throw exception("invalid universe variable declaration, it has already been declared");`
			`unsigned idx = m_uvars.size();`
			`level r(n, idx);`
			`m_uvars.push_back(r);`
			`std::for_each(m_uvar_distances.begin(), m_uvar_distances.end(), [](std::vector<unsigned> & v) { v.push_back(uninit); });`
			`m_uvar_distances.push_back(std::vector<unsigned>());`
			`std::vector<unsigned> & d = m_uvar_distances.back();`
			`d.resize(m_uvars.size(), static_cast<unsigned>(uninit));`
			`d[idx] = 0;`
			`return r;`
			`}`

			`void add_constraint(uvar v1, uvar v2, unsigned d) {`
			`lean_assert(v1 != v2);`
			`unsigned num = m_uvar_distances.size();`
			`lean_assert(v1 < num);`
			`lean_assert(v2 < num);`
			`std::vector<unsigned> & v1_dists = m_uvar_distances[v1];`
Fix bug in universe levels Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2013-07-29 06:11:35 +00:00			`if (v1_dists[v2] == uninit \|\| d >= v1_dists[v2]) {`
			`v1_dists[v2] = d;`
			`// update forward`
			`std::vector<unsigned> & v2_dists = m_uvar_distances[v2];`
			`for (uvar v3 = 0; v3 < num; v3++) {`
			`if (v2_dists[v3] != uninit) {`
			`lean_assert(v1 != v3);`
			`unsigned d_v1_v3 = add(d, v2_dists[v3]);`
			`if (v1_dists[v3] == uninit \|\| d_v1_v3 >= v1_dists[v3])`
			`v1_dists[v3] = d_v1_v3;`
			`}`
Universe levels Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2013-07-29 05:34:39 +00:00			`}`
			`}`
			`}`

			`void add_constraints(uvar v1, level const & l, unsigned k) {`
			`switch (kind(l)) {`
			`case level_kind::UVar: add_constraint(v1, uvar_idx(l), k); return;`
			`case level_kind::Lift: add_constraints(v1, lift_of(l), add(k, lift_offset(l))); return;`
			`case level_kind::Max: add_constraints(v1, max_level1(l), k); add_constraints(v1, max_level2(l), k); return;`
			`}`
			`lean_unreachable();`
			`}`

			`level define_uvar(name const & n, level const & l) {`
			`level r = add_var(n);`
			`add_constraints(uvar_idx(r), l, 0);`
			`return r;`
			`}`

			`void init_uvars() {`
			`m_uvars.push_back(level());`
			`m_uvar_distances.push_back(std::vector<unsigned>());`
			`m_uvar_distances.back().push_back(0);`
			`lean_assert(uvar_idx(m_uvars.back()) == 0);`
			`}`

			`void display_uvars(std::ostream & out) const {`
			`std::for_each(m_uvars.begin(), m_uvars.end(),`
			`[&](level const & u) {`
			`std::vector<unsigned> const & u_dists = m_uvar_distances[uvar_idx(u)];`
			`unsigned num = u_dists.size();`
			`for (uvar v2 = 0; v2 < num; v2++) {`
			`if (v2 != uvar_idx(u) && u_dists[v2] != uninit) {`
			`out << uvar_name(u) << " >= " << uvar_name(m_uvars[v2]);`
			`if (u_dists[v2] > 0)`
			`out << " + " << u_dists[v2];`
			`out << "\n";`
			`}`
			`}`
			`});`
			`}`

			`imp() {`
			`init_uvars();`
			`}`
			`};`

			`environment::environment():`
			`m_imp(new imp) {`
			`}`

			`environment::~environment() {`
			`}`

			`level environment::define_uvar(name const & n, level const & l) {`
			`return m_imp->define_uvar(n, l);`
			`}`

			`bool environment::is_implied(level const & l1, level const & l2) const {`
			`return m_imp->is_implied(l1, l2);`
			`}`

			`void environment::display_uvars(std::ostream & out) const {`
			`m_imp->display_uvars(out);`
			`}`
			`}`