lean2/src/library/choice.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 <string>
#include "util/sstream.h"
#include "library/choice.h"
#include "library/kernel_bindings.h"
#include "library/kernel_serializer.h"
namespace lean {
static name * g_choice_name = nullptr;
static std::string * g_choice_opcode = nullptr;
[[ noreturn ]] static void throw_ex() { throw exception("unexpected occurrence of 'choice' expression"); }
// We encode a 'choice' expression using a macro.
// This is a trick to avoid creating a new kind of expression.
// 'Choice' expressions are temporary objects used by the elaborator,
// and have no semantic significance.
class choice_macro_cell : public macro_definition_cell {
public:
virtual name get_name() const { return *g_choice_name; }
// Choice expressions must be replaced with metavariables before invoking the type checker.
// Choice expressions cannot be exported. They are transient/auxiliary objects.
virtual expr get_type(expr const &, expr const *, extension_context &) const { throw_ex(); }
virtual optional<expr> expand(expr const &, extension_context &) const { throw_ex(); }
virtual void write(serializer & s) const {
// we should be able to write choice expressions because of notation declarations
s.write_string(*g_choice_opcode);
}
};
static macro_definition * g_choice = nullptr;
expr mk_choice(unsigned num_es, expr const * es) {
lean_assert(num_es > 0);
if (num_es == 1)
return es[0];
else
return mk_macro(*g_choice, num_es, es);
}
void initialize_choice() {
g_choice_name = new name("choice");
g_choice_opcode = new std::string("Choice");
g_choice = new macro_definition(new choice_macro_cell());
register_macro_deserializer(*g_choice_opcode,
[](deserializer &, unsigned num, expr const * args) {
return mk_choice(num, args);
});
}
void finalize_choice() {
delete g_choice;
delete g_choice_opcode;
delete g_choice_name;
}
bool is_choice(expr const & e) {
return is_macro(e) && macro_def(e) == *g_choice;
}
unsigned get_num_choices(expr const & e) {
lean_assert(is_choice(e));
return macro_num_args(e);
}
expr const & get_choice(expr const & e, unsigned i) {
lean_assert(is_choice(e));
return macro_arg(e, i);
}
static int mk_choice(lua_State * L) {
check_atleast_num_args(L, 1);
int nargs = lua_gettop(L);
buffer<expr> args;
for (int i = 1; i <= nargs; i++)
args.push_back(to_expr(L, i));
return push_expr(L, mk_choice(args.size(), args.data()));
}
static int is_choice(lua_State * L) {
return push_boolean(L, is_choice(to_expr(L, 1)));
}
static void check_choice(lua_State * L, int idx) {
if (!is_choice(to_expr(L, idx)))
throw exception(sstream() << "arg #" << idx << " is not a choice-expression");
}
static int get_num_choices(lua_State * L) {
check_choice(L, 1);
return push_integer(L, get_num_choices(to_expr(L, 1)));
}
static int get_choice(lua_State * L) {
check_choice(L, 1);
expr const & c = to_expr(L, 1);
int i = lua_tointeger(L, 2);
if (i < 0 || static_cast<unsigned>(i) >= get_num_choices(c))
throw exception("arg #2 is an invalid choice index");
return push_expr(L, get_choice(c, i));
}
void open_choice(lua_State * L) {
SET_GLOBAL_FUN(mk_choice, "mk_choice");
SET_GLOBAL_FUN(is_choice, "is_choice");
SET_GLOBAL_FUN(get_num_choices, "get_num_choices");
SET_GLOBAL_FUN(get_choice, "get_choice");
}
}