/* Copyright (c) 2014 Microsoft Corporation. All rights reserved. Released under Apache 2.0 license as described in the file LICENSE. Author: Leonardo de Moura */ #include #include #include #include "util/sstream.h" #include "library/kernel_serializer.h" #include "library/annotation.h" namespace lean { static name * g_annotation = nullptr; static std::string * g_annotation_opcode = nullptr; name const & get_annotation_name() { return *g_annotation; } std::string const & get_annotation_opcode() { return *g_annotation_opcode; } /** \brief We use a macro to mark expressions that denote "let" and "have"-expressions. These marks have no real semantic meaning, but are useful for helping Lean's pretty printer. */ class annotation_macro_definition_cell : public macro_definition_cell { name m_name; void check_macro(expr const & m) const { if (!is_macro(m) || macro_num_args(m) != 1) throw exception(sstream() << "invalid '" << m_name << "' annotation, incorrect number of arguments"); } public: annotation_macro_definition_cell(name const & n):m_name(n) {} name const & get_annotation_kind() const { return m_name; } virtual name get_name() const { return get_annotation_name(); } virtual format pp(formatter const &) const { return format(m_name); } virtual void display(std::ostream & out) const { out << m_name; } virtual pair check_type(expr const & m, extension_context & ctx, bool infer_only) const { check_macro(m); return ctx.check_type(macro_arg(m, 0), infer_only); } virtual optional expand(expr const & m, extension_context &) const { check_macro(m); return some_expr(macro_arg(m, 0)); } virtual void write(serializer & s) const { s.write_string(get_annotation_opcode()); s << m_name; } virtual bool operator==(macro_definition_cell const & other) const { if (auto other_ptr = dynamic_cast(&other)) { return m_name == other_ptr->m_name; } else { return false; } } virtual unsigned hash() const { return ::lean::hash(m_name.hash(), g_annotation->hash()); } }; typedef std::unordered_map annotation_macros; static annotation_macros * g_annotation_macros = nullptr; annotation_macros & get_annotation_macros() { return *g_annotation_macros; } void register_annotation(name const & n) { annotation_macros & ms = get_annotation_macros(); lean_assert(ms.find(n) == ms.end()); ms.insert(mk_pair(n, macro_definition(new annotation_macro_definition_cell(n)))); } expr mk_annotation(name const & kind, expr const & e, tag g) { annotation_macros & ms = get_annotation_macros(); auto it = ms.find(kind); if (it != ms.end()) { return mk_macro(it->second, 1, &e, g); } else { throw exception(sstream() << "unknown annotation kind '" << kind << "'"); } } expr mk_annotation(name const & kind, expr const & e) { return mk_annotation(kind, e, e.get_tag()); } bool is_annotation(expr const & e) { return is_macro(e) && macro_def(e).get_name() == get_annotation_name(); } name const & get_annotation_kind(expr const & e) { lean_assert(is_annotation(e)); return static_cast(macro_def(e).raw())->get_annotation_kind(); } bool is_annotation(expr const & e, name const & kind) { return is_annotation(e) && get_annotation_kind(e) == kind; } expr const & get_annotation_arg(expr const & e) { lean_assert(is_annotation(e)); return macro_arg(e, 0); } bool is_nested_annotation(expr const & e, name const & kind) { expr const * it = &e; while (is_annotation(*it)) { if (get_annotation_kind(*it) == kind) return true; it = &get_annotation_arg(*it); } return false; } expr const & get_nested_annotation_arg(expr const & e) { expr const * it = &e; while (is_annotation(*it)) it = &get_annotation_arg(*it); return *it; } expr copy_annotations(expr const & from, expr const & to) { buffer trace; expr const * it = &from; while (is_annotation(*it)) { trace.push_back(*it); it = &get_annotation_arg(*it); } expr r = to; unsigned i = trace.size(); while (i > 0) { --i; r = copy_tag(trace[i], mk_annotation(get_annotation_kind(trace[i]), r)); } return r; } static name * g_have = nullptr; static name * g_show = nullptr; expr mk_have_annotation(expr const & e) { return mk_annotation(*g_have, e); } expr mk_show_annotation(expr const & e) { return mk_annotation(*g_show, e); } bool is_have_annotation(expr const & e) { return is_annotation(e, *g_have); } bool is_show_annotation(expr const & e) { return is_annotation(e, *g_show); } void initialize_annotation() { g_annotation = new name("annotation"); g_annotation_opcode = new std::string("Annot"); g_annotation_macros = new annotation_macros(); g_have = new name("have"); g_show = new name("show"); register_annotation(*g_have); register_annotation(*g_show); register_macro_deserializer(get_annotation_opcode(), [](deserializer & d, unsigned num, expr const * args) { if (num != 1) throw corrupted_stream_exception(); name k; d >> k; return mk_annotation(k, args[0]); }); } void finalize_annotation() { delete g_show; delete g_have; delete g_annotation_macros; delete g_annotation_opcode; delete g_annotation; } }