/* 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 #include #include "kernel/free_vars.h" #include "kernel/expr_sets.h" #include "kernel/replace_fn.h" #include "kernel/for_each_fn.h" namespace lean { /** \brief Functional object for checking whether a kernel expression has a free variable in the range [low, high) or not. */ class has_free_var_in_range_fn { protected: unsigned m_low; unsigned m_high; expr_cell_offset_set m_cached; bool apply(expr const & e, unsigned offset) { unsigned range = get_free_var_range(e); if (range == 0) { lean_assert(closed(e)); return false; } unsigned low1 = m_low + offset; if (low1 < m_low) return false; // overflow, vidx can't be >= max unsigned if (range <= low1) { return false; } else { lean_assert(range > low1); unsigned high1 = m_high + offset; if (high1 < m_high) return true; // overflow, vidx is always < max unsigned if (range <= high1) return true; // At this point, e contains a free variables in the range [0, range), // and it definitely contains Var(range-1). // Moreover [low1, high1) is a proper subset of [0, range), i.e., range > high1 if (is_var(e)) return var_idx(e) < high1; } bool shared = false; if (is_shared(e)) { shared = true; expr_cell_offset p(e.raw(), offset); if (m_cached.find(p) != m_cached.end()) return false; } bool result = false; switch (e.kind()) { case expr_kind::Constant: case expr_kind::Sort: case expr_kind::Var: lean_unreachable(); // LCOV_EXCL_LINE case expr_kind::Meta: case expr_kind::Local: result = apply(mlocal_type(e), offset); break; case expr_kind::App: result = apply(app_fn(e), offset) || apply(app_arg(e), offset); break; case expr_kind::Lambda: case expr_kind::Pi: result = apply(binding_domain(e), offset) || apply(binding_body(e), offset + 1); break; case expr_kind::Macro: for (unsigned i = 0; i < macro_num_args(e); i++) { if (apply(macro_arg(e, i), offset)) { result = true; break; } } break; } if (!result && shared) { m_cached.insert(expr_cell_offset(e.raw(), offset)); } return result; } public: has_free_var_in_range_fn(unsigned low, unsigned high): m_low(low), m_high(high) { lean_assert(low < high); } bool operator()(expr const & e) { return apply(e, 0); } }; bool has_free_var(expr const & e, unsigned low, unsigned high) { unsigned range = get_free_var_range(e); if (high <= low || range <= low) return false; if (range <= high) return true; return has_free_var_in_range_fn(low, high)(e); } bool has_free_var(expr const & e, unsigned i) { return has_free_var(e, i, i+1); } expr lower_free_vars(expr const & e, unsigned s, unsigned d) { if (d == 0 || s >= get_free_var_range(e)) return e; lean_assert(s >= d); lean_assert(!has_free_var(e, s-d, s)); return replace(e, [=](expr const & e, unsigned offset) -> optional { unsigned s1 = s + offset; if (s1 < s) return some_expr(e); // overflow, vidx can't be >= max unsigned if (s1 >= get_free_var_range(e)) return some_expr(e); // expression e does not contain free variables with idx >= s1 if (is_var(e) && var_idx(e) >= s1) { lean_assert(var_idx(e) >= offset + d); return some_expr(mk_var(var_idx(e) - d)); } else { return none_expr(); } }); } expr lower_free_vars(expr const & e, unsigned d) { return lower_free_vars(e, d, d); } expr lift_free_vars(expr const & e, unsigned s, unsigned d) { if (d == 0 || s >= get_free_var_range(e)) return e; return replace(e, [=](expr const & e, unsigned offset) -> optional { unsigned s1 = s + offset; if (s1 < s) return some_expr(e); // overflow, vidx can't be >= max unsigned if (s1 >= get_free_var_range(e)) return some_expr(e); // expression e does not contain free variables with idx >= s1 if (is_var(e) && var_idx(e) >= s + offset) { unsigned new_idx = var_idx(e) + d; if (new_idx < var_idx(e)) throw exception("invalid lift_free_vars operation, index overflow"); return some_expr(mk_var(new_idx)); } else { return none_expr(); } }); } expr lift_free_vars(expr const & e, unsigned d) { return lift_free_vars(e, 0, d); } }