256 lines
10 KiB
C++
256 lines
10 KiB
C++
/*
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Copyright (c) 2013 Microsoft Corporation. All rights reserved.
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Released under Apache 2.0 license as described in the file LICENSE.
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Author: Leonardo de Moura
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*/
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#include <algorithm>
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#include <limits>
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#include "kernel/replace_fn.h"
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#include "kernel/declaration.h"
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#include "kernel/instantiate.h"
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namespace lean {
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expr instantiate(expr const & a, unsigned s, unsigned n, expr const * subst) {
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if (s >= get_loose_bvar_range(a) || n == 0)
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return a;
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return replace(a, [=](expr const & m, unsigned offset) -> optional<expr> {
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unsigned s1 = s + offset;
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if (s1 < s)
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return some_expr(m); // overflow, vidx can't be >= max unsigned
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if (s1 >= get_loose_bvar_range(m))
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return some_expr(m); // expression m does not contain loose bound variables with idx >= s1
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if (is_bvar(m)) {
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nat const & vidx = bvar_idx(m);
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if (vidx >= s1) {
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unsigned h = s1 + n;
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if (h < s1 /* overflow, h is bigger than any vidx */ || vidx < h) {
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return some_expr(lift_loose_bvars(subst[vidx.get_small_value() - s1], offset));
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} else {
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return some_expr(mk_bvar(vidx - nat(n)));
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}
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}
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}
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return none_expr();
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});
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}
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expr instantiate(expr const & e, unsigned n, expr const * s) { return instantiate(e, 0, n, s); }
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expr instantiate(expr const & e, std::initializer_list<expr> const & l) { return instantiate(e, l.size(), l.begin()); }
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expr instantiate(expr const & e, unsigned i, expr const & s) { return instantiate(e, i, 1, &s); }
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expr instantiate(expr const & e, expr const & s) { return instantiate(e, 0, s); }
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extern "C" LEAN_EXPORT object * lean_expr_instantiate1(object * a0, object * e0) {
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expr const & a = reinterpret_cast<expr const &>(a0);
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if (!has_loose_bvars(a)) {
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lean_inc(a0);
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return a0;
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}
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expr const & e = reinterpret_cast<expr const &>(e0);
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expr r = instantiate(a, 1, &e);
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return r.steal();
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}
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static object * lean_expr_instantiate_core(b_obj_arg a0, size_t n, object** subst) {
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expr const & a = reinterpret_cast<expr const &>(a0);
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if (!has_loose_bvars(a) || n == 0) {
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lean_inc(a0);
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return a0;
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}
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expr r = replace(a, [=](expr const & m, unsigned offset) -> optional<expr> {
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if (offset >= get_loose_bvar_range(m))
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return some_expr(m); // expression m does not contain loose bound variables with idx >= offset
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if (is_bvar(m)) {
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nat const & vidx = bvar_idx(m);
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if (vidx >= offset) {
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size_t h = offset + n;
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if (h < offset /* overflow, h is bigger than any vidx */ || (vidx.is_small() && vidx.get_small_value() < h)) {
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object * v = subst[vidx.get_small_value() - offset];
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return some_expr(lift_loose_bvars(TO_REF(expr, v), offset));
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} else {
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return some_expr(mk_bvar(vidx - nat::of_size_t(n)));
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}
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}
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}
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return none_expr();
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});
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return r.steal();
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}
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extern "C" LEAN_EXPORT object * lean_expr_instantiate(b_obj_arg a, b_obj_arg subst) {
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return lean_expr_instantiate_core(a, lean_array_size(subst), lean_array_cptr(subst));
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}
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extern "C" LEAN_EXPORT object * lean_expr_instantiate_range(b_obj_arg a, b_obj_arg begin, b_obj_arg end, b_obj_arg subst) {
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if (!lean_is_scalar(begin) || !lean_is_scalar(end)) {
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lean_internal_panic("invalid range for Expr.instantiateRange");
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} else {
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usize sz = lean_array_size(subst);
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usize b = lean_unbox(begin);
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usize e = lean_unbox(end);
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if (b > e || e > sz) {
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lean_internal_panic("invalid range for Expr.instantiateRange");
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}
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return lean_expr_instantiate_core(a, e - b, lean_array_cptr(subst) + b);
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}
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}
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expr instantiate_rev(expr const & a, unsigned n, expr const * subst) {
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if (!has_loose_bvars(a))
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return a;
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return replace(a, [=](expr const & m, unsigned offset) -> optional<expr> {
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if (offset >= get_loose_bvar_range(m))
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return some_expr(m); // expression m does not contain loose bound variables with idx >= offset
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if (is_bvar(m)) {
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nat const & vidx = bvar_idx(m);
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if (vidx >= offset) {
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size_t h = offset + n;
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if (h < offset /* overflow, h is bigger than any vidx */ || (vidx.is_small() && vidx.get_small_value() < h)) {
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return some_expr(lift_loose_bvars(subst[n - (vidx.get_small_value() - offset) - 1], offset));
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} else {
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return some_expr(mk_bvar(vidx - nat(n)));
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}
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}
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}
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return none_expr();
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});
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}
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static object * lean_expr_instantiate_rev_core(object * a0, size_t n, object ** subst) {
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expr const & a = reinterpret_cast<expr const &>(a0);
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if (!has_loose_bvars(a)) {
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lean_inc(a0);
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return a0;
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}
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expr r = replace(a, [=](expr const & m, unsigned offset) -> optional<expr> {
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if (offset >= get_loose_bvar_range(m))
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return some_expr(m); // expression m does not contain loose bound variables with idx >= offset
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if (is_bvar(m)) {
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nat const & vidx = bvar_idx(m);
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if (vidx >= offset) {
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size_t h = offset + n;
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if (h < offset /* overflow, h is bigger than any vidx */ || (vidx.is_small() && vidx.get_small_value() < h)) {
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object * v = subst[n - (vidx.get_small_value() - offset) - 1];
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return some_expr(lift_loose_bvars(TO_REF(expr, v), offset));
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} else {
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return some_expr(mk_bvar(vidx - nat::of_size_t(n)));
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}
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}
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}
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return none_expr();
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});
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return r.steal();
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}
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extern "C" LEAN_EXPORT object * lean_expr_instantiate_rev(b_obj_arg a, b_obj_arg subst) {
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return lean_expr_instantiate_rev_core(a, lean_array_size(subst), lean_array_cptr(subst));
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}
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extern "C" LEAN_EXPORT object * lean_expr_instantiate_rev_range(b_obj_arg a, b_obj_arg begin, b_obj_arg end, b_obj_arg subst) {
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if (!lean_is_scalar(begin) || !lean_is_scalar(end)) {
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lean_internal_panic("invalid range for Expr.instantiateRevRange");
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} else {
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usize sz = lean_array_size(subst);
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usize b = lean_unbox(begin);
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usize e = lean_unbox(end);
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if (b > e || e > sz) {
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lean_internal_panic("invalid range for Expr.instantiateRevRange");
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}
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return lean_expr_instantiate_rev_core(a, e - b, lean_array_cptr(subst) + b);
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}
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}
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bool is_head_beta(expr const & t) {
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return is_app(t) && is_lambda(get_app_fn(t));
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}
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expr apply_beta(expr f, unsigned num_args, expr const * args) {
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if (num_args == 0) {
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return f;
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} else if (!is_lambda(f)) {
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return mk_rev_app(f, num_args, args);
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} else {
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unsigned m = 1;
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while (is_lambda(binding_body(f)) && m < num_args) {
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f = binding_body(f);
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m++;
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}
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lean_assert(m <= num_args);
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return mk_rev_app(instantiate(binding_body(f), m, args + (num_args - m)), num_args - m, args);
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}
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}
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expr head_beta_reduce(expr const & t) {
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if (!is_head_beta(t)) {
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return t;
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} else {
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buffer<expr> args;
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expr const & f = get_app_rev_args(t, args);
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lean_assert(is_lambda(f));
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return head_beta_reduce(apply_beta(f, args.size(), args.data()));
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}
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}
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expr cheap_beta_reduce(expr const & e) {
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if (!is_app(e)) return e;
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expr fn = get_app_fn(e);
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if (!is_lambda(fn)) return e;
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buffer<expr> args;
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get_app_args(e, args);
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unsigned i = 0;
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while (is_lambda(fn) && i < args.size()) {
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i++;
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fn = binding_body(fn);
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}
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if (!has_loose_bvars(fn)) {
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return mk_app(fn, args.size() - i, args.data() + i);
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} else if (is_bvar(fn)) {
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lean_assert(bvar_idx(fn) < i);
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return mk_app(args[i - bvar_idx(fn).get_small_value() - 1], args.size() - i, args.data() + i);
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} else {
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return e;
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}
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}
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expr instantiate_lparams(expr const & e, names const & lps, levels const & ls) {
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if (!has_param_univ(e))
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return e;
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return replace(e, [&](expr const & e) -> optional<expr> {
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if (!has_param_univ(e))
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return some_expr(e);
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if (is_constant(e)) {
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return some_expr(update_constant(e, map_reuse(const_levels(e), [&](level const & l) { return instantiate(l, lps, ls); })));
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} else if (is_sort(e)) {
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return some_expr(update_sort(e, instantiate(sort_level(e), lps, ls)));
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} else {
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return none_expr();
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}
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});
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}
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expr instantiate_type_lparams(constant_info const & info, levels const & ls) {
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if (info.get_num_lparams() != length(ls))
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lean_internal_panic("#universes mismatch at instantiateTypeLevelParams");
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if (is_nil(ls) || !has_param_univ(info.get_type()))
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return info.get_type();
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return instantiate_lparams(info.get_type(), info.get_lparams(), ls);
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}
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expr instantiate_value_lparams(constant_info const & info, levels const & ls) {
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if (info.get_num_lparams() != length(ls))
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lean_internal_panic("#universes mismatch at instantiateValueLevelParams");
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if (!info.has_value())
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lean_internal_panic("definition/theorem expected at instantiateValueLevelParams");
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if (is_nil(ls) || !has_param_univ(info.get_value()))
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return info.get_value();
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return instantiate_lparams(info.get_value(), info.get_lparams(), ls);
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}
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extern "C" LEAN_EXPORT object * lean_instantiate_type_lparams(b_obj_arg info, b_obj_arg ls) {
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return instantiate_type_lparams(TO_REF(constant_info, info), TO_REF(levels, ls)).steal();
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}
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extern "C" LEAN_EXPORT object * lean_instantiate_value_lparams(b_obj_arg info, b_obj_arg ls) {
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return instantiate_value_lparams(TO_REF(constant_info, info), TO_REF(levels, ls)).steal();
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}
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}
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