/*
Copyright (c) 2016 Microsoft Corporation. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.

Author: Leonardo de Moura
*/
#include <iostream>
#include "library/vm/vm.h"
#include "library/vm/vm_nat.h"

#define LEAN_MAX_SMALL_INT (1 << 30)
#define LEAN_MIN_SMALL_INT -(1 << 30)

namespace lean {
// =======================================
// Builtin int operations
inline bool is_small_int(int n)         { return LEAN_MIN_SMALL_INT <= n && n < LEAN_MAX_SMALL_INT; }
inline bool is_small_int(unsigned n)    { return n < LEAN_MAX_SMALL_INT; }
inline bool is_small_int(long long n)   { return LEAN_MIN_SMALL_INT <= n && n < LEAN_MAX_SMALL_INT; }
inline bool is_small_int(mpz const & n) { return LEAN_MIN_SMALL_INT <= n && n < LEAN_MAX_SMALL_INT; }

inline unsigned to_unsigned(int n) {
    lean_assert(is_small_int(n));
    unsigned r = static_cast<unsigned>(n) & 0x7FFFFFFF;
    lean_assert(r < LEAN_MAX_SMALL_NAT);
    return r;
}

inline  int of_unsigned(unsigned n) {
    return static_cast<int>(n << 1) / 2;
}

vm_obj mk_vm_int(int n) {
    return is_small_int(n) ? mk_vm_simple(to_unsigned(n)) : mk_vm_mpz(mpz(n));
}

vm_obj mk_vm_int(unsigned n) {
    return is_small_int(n) ? mk_vm_simple(to_unsigned(n)) : mk_vm_mpz(mpz(n));
}

vm_obj mk_vm_int(mpz const & n) {
    return is_small_int(n) ? mk_vm_simple(to_unsigned(n.get_int())) : mk_vm_mpz(n);
}

inline int to_small_int(vm_obj const & o) {
    lean_assert(is_simple(o));
    return of_unsigned(cidx(o));
}

int to_int(vm_obj const & o) {
    if (is_simple(o))
        return to_small_int(o);
    else
        return to_mpz(o).get_int();
}

optional<int> try_to_int(vm_obj const & o) {
    if (is_simple(o)) {
        return optional<int>(to_small_int(o));
    } else {
        mpz const & v = to_mpz(o);
        if (v.is_int())
            return optional<int>(v.get_int());
        else
            return optional<int>();
    }
}

int force_to_int(vm_obj const & o, int def) {
    if (auto r = try_to_int(o))
        return *r;
    else
        return def;
}

MK_THREAD_LOCAL_GET_DEF(mpz, get_mpz1);
MK_THREAD_LOCAL_GET_DEF(mpz, get_mpz2);

static mpz const & to_mpz1(vm_obj const & o) {
    if (is_simple(o)) {
        mpz & r = get_mpz1();
        r = to_small_int(o);
        return r;
    } else {
        return to_mpz(o);
    }
}

static mpz const & to_mpz2(vm_obj const & o) {
    if (is_simple(o)) {
        mpz & r = get_mpz2();
        r = to_small_int(o);
        return r;
    } else {
        return to_mpz(o);
    }
}

vm_obj int_add(vm_obj const & a1, vm_obj const & a2) {
    if (is_simple(a1) && is_simple(a2)) {
        return mk_vm_int(to_small_int(a1) + to_small_int(a2));
    } else {
        return mk_vm_int(to_mpz1(a1) + to_mpz2(a2));
    }
}

vm_obj int_mul(vm_obj const & a1, vm_obj const & a2) {
    if (is_simple(a1) && is_simple(a2)) {
        long long r = static_cast<long long>(to_small_int(a1)) * static_cast<long long>(to_small_int(a2));
        if (is_small_int(r)) {
            return mk_vm_simple(to_unsigned(r));
        }
    }
    return mk_vm_int(to_mpz1(a1) * to_mpz2(a2));
}

vm_obj int_quot(vm_obj const & a1, vm_obj const & a2) {
    if (is_simple(a1) && is_simple(a2)) {
        int v1 = to_small_int(a1);
        int v2 = to_small_int(a2);
        if (v2 == 0)
            return mk_vm_simple(0);
        else
            return mk_vm_int(v1 / v2);
    } else {
        mpz const & v1 = to_mpz1(a1);
        mpz const & v2 = to_mpz2(a2);
        if (v2 == 0)
            return mk_vm_simple(0);
        else
            return mk_vm_int(v1 / v2);
    }
}

vm_obj int_rem(vm_obj const & a1, vm_obj const & a2) {
    if (LEAN_LIKELY(is_simple(a1) && is_simple(a2))) {
        int v1 = to_small_int(a1);
        int v2 = to_small_int(a2);
        if (v2 == 0)
            return a1;
        else
            return mk_vm_int(v1 % v2);
    } else {
        mpz const & v1 = to_mpz1(a1);
        mpz const & v2 = to_mpz2(a2);
        if (v2 == 0)
            return a1;
        else
            return mk_vm_int(v1 % v2);
    }
}

vm_obj int_gcd(vm_obj const & a1, vm_obj const & a2) {
    mpz r;
    gcd(r, to_mpz1(a1), to_mpz2(a2));
    return mk_vm_nat(r);
}

vm_obj int_shiftl(vm_obj const & a1, vm_obj const & a2) {
    if (LEAN_LIKELY(is_simple(a1) && is_simple(a2))) {
        int v1 = to_small_int(a1);
        int v2 = to_small_int(a2);

        if (v1 >= 0) {
            if (v2 >= 0) {
                if (v2 <= 30 && v1 >> (30 - v2) == 0) // LEAN_MAX_SMALL_INT = 1 >> 30
                    return mk_vm_int(v1 << v2);
            } else {
                return mk_vm_int(v1 >> -v2);
            }
        }
    }
    mpz v1 = to_mpz1(a1);
    int v2 = to_int(a2);
    if (v2 >= 0) {
        mul2k(v1, v1, v2);
    } else {
        div2k(v1, v1 + 1, -v2);
        v1--;
    }
    return mk_vm_int(v1);
}

vm_obj int_land(vm_obj const & a1, vm_obj const & a2) {
    if (LEAN_LIKELY(is_simple(a1) && is_simple(a2))) {
        return mk_vm_int(to_small_int(a1) & to_small_int(a2));
    } else {
        return mk_vm_int(to_mpz1(a1) & to_mpz2(a2));
    }
}

vm_obj int_lor(vm_obj const & a1, vm_obj const & a2) {
    if (LEAN_LIKELY(is_simple(a1) && is_simple(a2))) {
        return mk_vm_int(to_small_int(a1) | to_small_int(a2));
    } else {
        return mk_vm_int(to_mpz1(a1) | to_mpz2(a2));
    }
}

vm_obj int_lxor(vm_obj const & a1, vm_obj const & a2) {
    if (LEAN_LIKELY(is_simple(a1) && is_simple(a2))) {
        return mk_vm_int(to_small_int(a1) ^ to_small_int(a2));
    } else {
        return mk_vm_int(to_mpz1(a1) ^ to_mpz2(a2));
    }
}

vm_obj int_lnot(vm_obj const & a) {
    if (LEAN_LIKELY(is_simple(a))) {
        return mk_vm_int(~to_small_int(a));
    } else {
        return mk_vm_int(~to_mpz1(a));
    }
}

vm_obj int_ldiff(vm_obj const & a1, vm_obj const & a2) {
    if (LEAN_LIKELY(is_simple(a1) && is_simple(a2))) {
        return mk_vm_int(to_small_int(a1) & ~to_small_int(a2));
    } else {
        return mk_vm_int(to_mpz1(a1) & ~to_mpz2(a2));
    }
}

vm_obj int_test_bit(vm_obj const & a1, vm_obj const & a2) {
    if (LEAN_LIKELY(is_simple(a1) && is_simple(a2))) {
        return mk_vm_bool((to_small_int(a1) & (1 << cidx(a2))) != 0);
    } else {
        mpz const & v1 = to_mpz1(a1);
        mpz const & v2 = to_mpz2(a2);
        if (v2.is_unsigned_long_int())
            return mk_vm_bool(v1.test_bit(v2.get_unsigned_long_int()));
        else
            return mk_vm_bool(false);
    }
}

vm_obj int_decidable_eq(vm_obj const & a1, vm_obj const & a2) {
    if (is_simple(a1) && is_simple(a2)) {
        return mk_vm_bool(to_small_int(a1) == to_small_int(a2));
    } else {
        return mk_vm_bool(to_mpz1(a1) == to_mpz2(a2));
    }
}

vm_obj int_decidable_le(vm_obj const & a1, vm_obj const & a2) {
    if (is_simple(a1) && is_simple(a2)) {
        return mk_vm_bool(to_small_int(a1) <= to_small_int(a2));
    } else {
        return mk_vm_bool(to_mpz1(a1) <= to_mpz2(a2));
    }
}

vm_obj int_decidable_lt(vm_obj const & a1, vm_obj const & a2) {
    if (is_simple(a1) && is_simple(a2)) {
        return mk_vm_bool(to_small_int(a1) < to_small_int(a2));
    } else {
        return mk_vm_bool(to_mpz1(a1) < to_mpz2(a2));
    }
}

vm_obj int_neg(vm_obj const & a) {
    if (is_simple(a)) {
        return mk_vm_int(-to_small_int(a));
    } else {
        return mk_vm_int(0 - to_mpz1(a));
    }
}

vm_obj int_of_nat(vm_obj const & a) {
    if (is_simple(a)) {
        return mk_vm_int(cidx(a));
    } else {
        return a;
    }
}

vm_obj int_neg_succ_of_nat(vm_obj const & a) {
    if (is_simple(a)) {
        return mk_vm_int(-static_cast<int>(cidx(a)) - 1);
    } else {
        return mk_vm_int(0 - to_mpz1(a) - 1);
    }
}


void int_rec(vm_state &) {
    /* recursors are implemented by the compiler */
    lean_unreachable();
}

void int_no_confusion(vm_state &) {
    /* no_confusion is implemented by the compiler */
    lean_unreachable();
}

unsigned int_cases_on(vm_obj const & o, buffer<vm_obj> & data) {
    if (is_simple(o)) {
        int v = to_small_int(o);
        if (v >= 0) {
            data.push_back(mk_vm_nat(v));
            return 0;
        } else {
            data.push_back(mk_vm_nat(-v - 1));
            return 1;
        }
    } else {
        mpz const & v = to_mpz1(o);
        if (v >= 0) {
            data.push_back(mk_vm_nat(v));
            return 0;
        } else {
            data.push_back(mk_vm_nat(0 - v - 1));
            return 1;
        }
    }
}

void initialize_vm_int() {
    DECLARE_VM_BUILTIN(name({"int", "of_nat"}),           int_of_nat);
    DECLARE_VM_BUILTIN(name({"int", "neg_succ_of_nat"}),  int_neg_succ_of_nat);
    DECLARE_VM_BUILTIN(name({"int", "add"}),              int_add);
    DECLARE_VM_BUILTIN(name({"int", "mul"}),              int_mul);
    DECLARE_VM_BUILTIN(name({"int", "neg"}),              int_neg);
    DECLARE_VM_BUILTIN(name({"int", "quot"}),             int_quot);
    DECLARE_VM_BUILTIN(name({"int", "rem"}),              int_rem);
    DECLARE_VM_BUILTIN(name({"int", "gcd"}),              int_gcd);
    DECLARE_VM_BUILTIN(name({"int", "decidable_eq"}),     int_decidable_eq);
    DECLARE_VM_BUILTIN(name({"int", "decidable_le"}),     int_decidable_le);
    DECLARE_VM_BUILTIN(name({"int", "decidable_lt"}),     int_decidable_lt);
    DECLARE_VM_BUILTIN(name({"int", "shiftl"}),           int_shiftl);
    DECLARE_VM_BUILTIN(name({"int", "lor"}),              int_lor);
    DECLARE_VM_BUILTIN(name({"int", "land"}),             int_land);
    DECLARE_VM_BUILTIN(name({"int", "ldiff"}),            int_ldiff);
    DECLARE_VM_BUILTIN(name({"int", "lnot"}),             int_lnot);
    DECLARE_VM_BUILTIN(name({"int", "lxor"}),             int_lxor);
    DECLARE_VM_BUILTIN(name({"int", "test_bit"}),         int_test_bit);

    DECLARE_VM_CASES_BUILTIN(name({"int", "cases_on"}),   int_cases_on);

    declare_vm_builtin(name({"int", "rec_on"}),            "int_rec",          4, int_rec);
    declare_vm_builtin(name({"int", "no_confusion"}),      "int_no_confusion", 5, int_no_confusion);
    declare_vm_builtin(name({"int", "no_confusion_type"}), "int_no_confusion", 3, int_no_confusion);
}

void finalize_vm_int() {
}
}