/* Copyright (c) 2014 Microsoft Corporation. All rights reserved. Released under Apache 2.0 license as described in the file LICENSE. Author: Leonardo de Moura */ #pragma once #include #include "util/buffer.h" #include "util/lua.h" #include "kernel/expr.h" #include "frontends/lean/token_table.h" namespace lean { class parser; namespace notation { typedef std::function parse_fn; enum class action_kind { Skip, Expr, Exprs, Binder, Binders, ScopedExpr, Ext }; struct action_cell; /** \brief Action that must be performed after a token is consumed. The possible actions are: - Skip: do nothing, just consume the token. - Expr: parse a Lean expression using a given right-binding-power (rbp). - Exprs: parse a sequence of expressions separated by a given token. The expressions are parsed using the given right-binding-power (rbp). The multiple expressions are combined into a single expression by folding them using an expression (rec) with two free variables and an initial element, fold left and right are supported. - Binder: parse a single Lean binder. - Binders: parse a sequence of Lean binders. - ScopedExpr: parse an expression using the previous binder(s). The resulting expression is computed using an expression (rec) with one free variable. - Ext: invokes an external procedure parse_fn. This is used to define notation that does complicated notation. The parse_table datastructure applies "left factoring" when actions are "compatible". \remark Ext actions are never compatible with anything. */ class action { action_cell * m_ptr; explicit action(action_cell * ptr); static action g_skip_action; static action g_binder_action; static action g_binders_action; public: action(); action(action const & s); action(action && s); ~action(); action & operator=(action const & s); action & operator=(action && s); friend action mk_skip_action(); friend action mk_expr_action(unsigned rbp); friend action mk_exprs_action(name const & sep, expr const & rec, expr const & ini, bool right, unsigned rbp); friend action mk_binder_action(); friend action mk_binders_action(); friend action mk_scoped_expr_action(expr const & rec, unsigned rbp, bool lambda); friend action mk_ext_parse_action(parse_fn const & fn); action_kind kind() const; unsigned rbp() const; name const & get_sep() const; expr const & get_rec() const; expr const & get_initial() const; bool is_fold_right() const; bool use_lambda_abstraction() const; parse_fn const & get_parse_fn() const; bool is_compatible(action const & a) const; }; action mk_skip_action(); action mk_expr_action(unsigned rbp = 0); action mk_exprs_action(name const & sep, expr const & rec, expr const & ini, bool right, unsigned rbp = 0); action mk_binder_action(); action mk_binders_action(); action mk_scoped_expr_action(expr const & rec, unsigned rbp = 0, bool lambda = true); action mk_proc_action(parse_fn const & fn); class transition { name m_token; action m_action; public: transition(name const & t, action const & a): m_token(t), m_action(a) {} name const & get_token() const { return m_token; } action const & get_action() const { return m_action; } }; /** \brief Parse table "transition rules" for implementing a Pratt's parser. The table supports "left factoring" in the methods \c add and \c merge. */ class parse_table { struct cell; cell * m_ptr; explicit parse_table(cell * c); parse_table add_core(unsigned num, transition const * ts, expr const & a, bool overload) const; void for_each(buffer & ts, std::function const &)> const & fn) const; public: parse_table(bool nud = true); parse_table(parse_table const & s); parse_table(parse_table && s); ~parse_table(); parse_table & operator=(parse_table const & n); parse_table & operator=(parse_table&& n); bool is_nud() const; parse_table add(unsigned num, transition const * ts, expr const & a, bool overload) const; parse_table merge(parse_table const & s, bool overload) const; optional> find(name const & tk) const; list const & is_accepting() const; void for_each(std::function const &)> const & fn) const; }; } typedef notation::parse_table parse_table; void open_parse_table(lua_State * L); }