lean2/src/frontends/lean/notation_cmd.cpp

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/*
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 <utility>
#include <limits>
#include <string>
#include "kernel/abstract.h"
#include "frontends/lean/parser.h"
namespace lean {
static name g_max("max");
static name g_colon(":");
static name g_comma(",");
static name g_assign(":=");
static name g_lparen("(");
static name g_rparen(")");
static name g_scoped("scoped");
static name g_foldr("foldr");
static name g_foldl("foldl");
static name g_binder("binder");
static name g_binders("binders");
static name g_infix("infix");
static name g_infixl("infixl");
static name g_infixr("infixr");
static name g_postfix("postfix");
static name g_notation("notation");
static name g_call("call");
static std::string parse_symbol(parser & p, char const * msg) {
name n;
if (p.curr_is_identifier() || p.curr_is_quoted_symbol()) {
n = p.get_name_val();
} else if (p.curr_is_keyword()) {
n = p.get_token_info().value();
} else {
throw parser_error(msg, p.pos());
}
p.next();
return n.to_string();
}
static optional<unsigned> parse_optional_precedence(parser & p) {
if (p.curr_is_numeral()) {
return optional<unsigned>(p.parse_small_nat());
} else if (p.curr_is_token_or_id(g_max)) {
p.next();
return optional<unsigned>(std::numeric_limits<unsigned>::max());
} else {
return optional<unsigned>();
}
}
static unsigned parse_precedence(parser & p, char const * msg) {
auto r = parse_optional_precedence(p);
if (!r)
throw parser_error(msg, p.pos());
return *r;
}
environment precedence_cmd(parser & p) {
std::string tk = parse_symbol(p, "invalid precedence declaration, quoted symbol or identifier expected");
p.check_token_next(g_colon, "invalid precedence declaration, ':' expected");
unsigned prec = parse_precedence(p, "invalid precedence declaration, numeral or 'max' expected");
return add_token(p.env(), tk.c_str(), prec);
}
enum class mixfix_kind { infixl, infixr, postfix };
using notation::mk_expr_action;
using notation::mk_binder_action;
using notation::mk_binders_action;
using notation::mk_exprs_action;
using notation::mk_scoped_expr_action;
using notation::mk_skip_action;
using notation::mk_ext_lua_action;
using notation::transition;
using notation::action;
static std::pair<notation_entry, optional<token_entry>> parse_mixfix_notation(parser & p, mixfix_kind k, bool overload) {
std::string tk = parse_symbol(p, "invalid notation declaration, quoted symbol or identifier expected");
optional<unsigned> prec = parse_optional_precedence(p);
environment const & env = p.env();
optional<token_entry> new_token;
if (!prec) {
prec = get_precedence(get_token_table(env), tk.c_str());
} else if (prec != get_precedence(get_token_table(env), tk.c_str())) {
new_token = token_entry(tk.c_str(), *prec);
}
if (!prec)
throw parser_error("invalid notation declaration, precedence was not provided, and it is not set for the given symbol, "
"solution: use the 'precedence' command", p.pos());
if (k == mixfix_kind::infixr && *prec == 0)
throw parser_error("invalid infixr declaration, precedence must be greater than zero", p.pos());
p.check_token_next(g_assign, "invalid notation declaration, ':=' expected");
expr f = p.parse_expr();
char const * tks = tk.c_str();
switch (k) {
case mixfix_kind::infixl:
return mk_pair(notation_entry(false, list<transition>(transition(tks, mk_expr_action(*prec))),
mk_app(f, Var(1), Var(0)), overload),
new_token);
case mixfix_kind::infixr:
return mk_pair(notation_entry(false, list<transition>(transition(tks, mk_expr_action(*prec-1))),
mk_app(f, Var(1), Var(0)), overload),
new_token);
case mixfix_kind::postfix:
return mk_pair(notation_entry(false, list<transition>(transition(tks, mk_skip_action())),
mk_app(f, Var(0)), overload),
new_token);
}
lean_unreachable(); // LCOV_EXCL_LINE
}
static notation_entry parse_mixfix_notation(parser & p, mixfix_kind k, bool overload, buffer<token_entry> & new_tokens) {
auto nt = parse_mixfix_notation(p, k, overload);
if (nt.second)
new_tokens.push_back(*nt.second);
return nt.first;
}
static environment mixfix_cmd(parser & p, mixfix_kind k, bool overload) {
auto nt = parse_mixfix_notation(p, k, overload);
environment env = p.env();
if (nt.second)
env = add_token(env, *nt.second);
env = add_notation(env, nt.first);
return env;
}
environment infixl_cmd_core(parser & p, bool overload) { return mixfix_cmd(p, mixfix_kind::infixl, overload); }
environment infixr_cmd_core(parser & p, bool overload) { return mixfix_cmd(p, mixfix_kind::infixr, overload); }
environment postfix_cmd_core(parser & p, bool overload) { return mixfix_cmd(p, mixfix_kind::postfix, overload); }
static name parse_quoted_symbol_or_token(parser & p, buffer<token_entry> & new_tokens) {
if (p.curr_is_quoted_symbol()) {
environment const & env = p.env();
auto tk = p.get_name_val();
auto tks = tk.to_string();
auto tkcs = tks.c_str();
p.next();
if (p.curr_is_token(g_colon)) {
p.next();
unsigned prec = parse_precedence(p, "invalid notation declaration, precedence (small numeral) expected");
auto old_prec = get_precedence(get_token_table(env), tkcs);
if (!old_prec || prec != *old_prec)
new_tokens.push_back(token_entry(tkcs, prec));
} else if (!get_precedence(get_token_table(env), tkcs)) {
new_tokens.push_back(token_entry(tkcs, 0));
}
return tk;
} else if (p.curr_is_keyword()) {
auto tk = p.get_token_info().token();
p.next();
return tk;
} else {
throw parser_error("invalid notation declaration, symbol expected", p.pos());
}
}
static expr parse_notation_expr(parser & p, buffer<expr> const & locals) {
expr r = p.parse_expr();
return abstract(r, locals.size(), locals.data());
}
static expr g_local_type = mk_Bool(); // type used in notation local declarations, it is irrelevant
static void parse_notation_local(parser & p, buffer<expr> & locals) {
if (p.curr_is_identifier()) {
name n = p.get_name_val();
p.next();
expr l = mk_local(n, g_local_type); // remark: the type doesn't matter
p.add_local_expr(n, l);
locals.push_back(l);
} else {
throw parser_error("invalid notation declaration, identifier expected", p.pos());
}
}
static action parse_action(parser & p, name const & prev_token, buffer<expr> & locals, buffer<token_entry> & new_tokens) {
if (p.curr_is_token(g_colon)) {
p.next();
if (p.curr_is_numeral()) {
unsigned prec = parse_precedence(p, "invalid notation declaration, small numeral expected");
return mk_expr_action(prec);
} else if (p.curr_is_string()) {
std::string fn = p.get_str_val();
p.next();
return mk_ext_lua_action(fn.c_str());
} else if (p.curr_is_token_or_id(g_scoped)) {
p.next();
return mk_scoped_expr_action(mk_var(0));
} else {
p.check_token_next(g_lparen, "invalid notation declaration, '(', numeral or 'scoped' expected");
if (p.curr_is_token_or_id(g_foldl) || p.curr_is_token_or_id(g_foldr)) {
bool is_fold_right = p.curr_is_token_or_id(g_foldr);
p.next();
auto prec = parse_optional_precedence(p);
name sep = parse_quoted_symbol_or_token(p, new_tokens);
expr rec;
{
parser::local_scope scope(p);
p.check_token_next(g_lparen, "invalid fold notation argument, '(' expected");
parse_notation_local(p, locals);
parse_notation_local(p, locals);
p.check_token_next(g_comma, "invalid fold notation argument, ',' expected");
rec = parse_notation_expr(p, locals);
p.check_token_next(g_rparen, "invalid fold notation argument, ')' expected");
locals.pop_back();
locals.pop_back();
}
expr ini = parse_notation_expr(p, locals);
p.check_token_next(g_rparen, "invalid fold notation argument, ')' expected");
return mk_exprs_action(sep, rec, ini, is_fold_right, prec ? *prec : 0);
} else if (p.curr_is_token_or_id(g_scoped)) {
p.next();
auto prec = parse_optional_precedence(p);
expr rec;
{
parser::local_scope scope(p);
parse_notation_local(p, locals);
p.check_token_next(g_comma, "invalid scoped notation argument, ',' expected");
rec = parse_notation_expr(p, locals);
locals.pop_back();
}
p.check_token_next(g_rparen, "invalid scoped notation argument, ')' expected");
return mk_scoped_expr_action(rec, prec ? *prec : 0);
} else if (p.curr_is_token_or_id(g_call)) {
p.next();
name fn = p.check_id_next("invalid call notation argument, identifier expected");
p.check_token_next(g_rparen, "invalid call notation argument, ')' expected");
return mk_ext_lua_action(fn.to_string().c_str());
} else {
throw parser_error("invalid notation declaration, 'foldl', 'foldr' or 'scoped' expected", p.pos());
}
}
} else {
auto prec = get_precedence(get_token_table(p.env()), prev_token.to_string().c_str());
if (prec)
return mk_expr_action(*prec);
else
return mk_expr_action();
}
}
notation_entry parse_notation_core(parser & p, bool overload, buffer<token_entry> & new_tokens) {
buffer<expr> locals;
buffer<transition> ts;
parser::local_scope scope(p);
bool is_nud = true;
if (p.curr_is_identifier()) {
parse_notation_local(p, locals);
is_nud = false;
}
while (!p.curr_is_token(g_assign)) {
name tk = parse_quoted_symbol_or_token(p, new_tokens);
if (p.curr_is_token_or_id(g_binder)) {
p.next();
ts.push_back(transition(tk, mk_binder_action()));
} else if (p.curr_is_token_or_id(g_binders)) {
p.next();
ts.push_back(transition(tk, mk_binders_action()));
} else if (p.curr_is_identifier()) {
name n = p.get_name_val();
p.next();
action a = parse_action(p, tk, locals, new_tokens);
expr l = mk_local(n, g_local_type);
p.add_local_expr(n, l);
locals.push_back(l);
ts.push_back(transition(tk, a));
} else if (p.curr_is_quoted_symbol() || p.curr_is_keyword() || p.curr_is_token(g_assign)) {
ts.push_back(transition(tk, mk_skip_action()));
} else {
throw parser_error("invalid notation declaration, quoted-symbol, identifier, 'binder', 'binders' expected", p.pos());
}
}
p.next();
if (ts.empty())
throw parser_error("invalid notation declaration, empty notation is not allowed", p.pos());
expr n = parse_notation_expr(p, locals);
return notation_entry(is_nud, to_list(ts.begin(), ts.end()), n, overload);
}
environment notation_cmd_core(parser & p, bool overload) {
environment env = p.env();
buffer<token_entry> new_tokens;
auto ne = parse_notation_core(p, overload, new_tokens);
for (auto const & te : new_tokens)
env = add_token(env, te);
env = add_notation(env, ne);
return env;
}
bool curr_is_notation_decl(parser & p) {
return p.curr_is_token(g_infix) || p.curr_is_token(g_infixl) || p.curr_is_token(g_infixr) ||
p.curr_is_token(g_postfix) || p.curr_is_token(g_notation);
}
notation_entry parse_notation(parser & p, bool overload, buffer<token_entry> & new_tokens) {
if (p.curr_is_token(g_infix) || p.curr_is_token(g_infixl)) {
p.next();
return parse_mixfix_notation(p, mixfix_kind::infixl, overload, new_tokens);
} else if (p.curr_is_token(g_infixr)) {
p.next();
return parse_mixfix_notation(p, mixfix_kind::infixr, overload, new_tokens);
} else if (p.curr_is_token(g_postfix)) {
p.next();
return parse_mixfix_notation(p, mixfix_kind::postfix, overload, new_tokens);
} else if (p.curr_is_token(g_notation)) {
p.next();
return parse_notation_core(p, overload, new_tokens);
} else {
throw parser_error("invalid notation, 'infix', 'infixl', 'infixr', 'postfix' or 'notation' expected", p.pos());
}
}
environment notation_cmd(parser & p) { return notation_cmd_core(p, true); }
environment infixl_cmd(parser & p) { return infixl_cmd_core(p, true); }
environment infixr_cmd(parser & p) { return infixr_cmd_core(p, true); }
environment postfix_cmd(parser & p) { return postfix_cmd_core(p, true); }
void register_notation_cmds(cmd_table & r) {
add_cmd(r, cmd_info("precedence", "set token left binding power", precedence_cmd));
add_cmd(r, cmd_info("infixl", "declare a new infix (left) notation", infixl_cmd));
add_cmd(r, cmd_info("infix", "declare a new infix (left) notation", infixl_cmd));
add_cmd(r, cmd_info("infixr", "declare a new infix (right) notation", infixr_cmd));
add_cmd(r, cmd_info("postfix", "declare a new postfix notation", postfix_cmd));
add_cmd(r, cmd_info("notation", "declare a new notation", notation_cmd));
}
}