6ab46396d8
Signed-off-by: Leonardo de Moura <leonardo@microsoft.com>
149 lines
6.3 KiB
C++
149 lines
6.3 KiB
C++
/*
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Copyright (c) 2014 Microsoft Corporation. All rights reserved.
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Released under Apache 2.0 license as described in the file LICENSE.
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Author: Leonardo de Moura
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*/
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#include <unordered_map>
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#include <string>
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#include "kernel/instantiate.h"
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#include "kernel/type_checker.h"
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#include "library/string.h"
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#include "library/tactic/expr_to_tactic.h"
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#include "library/tactic/apply_tactic.h"
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namespace lean {
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typedef std::unordered_map<name, expr_to_tactic_fn, name_hash, name_eq> expr_to_tactic_map;
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expr_to_tactic_map & get_expr_to_tactic_map() {
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static expr_to_tactic_map g_map;
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return g_map;
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}
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void register_expr_to_tactic(name const & n, expr_to_tactic_fn const & fn) {
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get_expr_to_tactic_map().insert(mk_pair(n, fn));
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}
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tactic expr_to_tactic(type_checker & tc, expr const & e, pos_info_provider const * p) {
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expr const & f = get_app_fn(tc.whnf(e));
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if (is_constant(f)) {
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auto const & map = get_expr_to_tactic_map();
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auto it = map.find(const_name(f));
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if (it != map.end()) {
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return it->second(tc, e, p);
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} else if (auto it = tc.env().find(const_name(f))) {
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if (it->is_definition()) {
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buffer<expr> locals;
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get_app_rev_args(e, locals);
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expr v = it->get_value();
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v = instantiate_univ_params(v, it->get_univ_params(), const_levels(f));
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v = apply_beta(v, locals.size(), locals.data());
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return expr_to_tactic(tc, v, p);
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}
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}
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throw expr_to_tactic_exception(e, "failed to convert expression into tactic");
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} else {
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throw expr_to_tactic_exception(e, "failed to convert expression into tactic");
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}
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}
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tactic expr_to_tactic(environment const & env, expr const & e, pos_info_provider const * p) {
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type_checker tc(env);
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return expr_to_tactic(tc, e, p);
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}
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register_simple_tac::register_simple_tac(name const & n, std::function<tactic()> f) {
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register_expr_to_tactic(n, [=](type_checker &, expr const & e, pos_info_provider const *) {
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if (!is_constant(e))
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throw expr_to_tactic_exception(e, "invalid constant tactic");
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return f();
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});
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}
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register_bin_tac::register_bin_tac(name const & n, std::function<tactic(tactic const &, tactic const &)> f) {
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register_expr_to_tactic(n, [=](type_checker & tc, expr const & e, pos_info_provider const * p) {
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buffer<expr> args;
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get_app_args(e, args);
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if (args.size() != 2)
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throw expr_to_tactic_exception(e, "invalid binary tactic, it must have two arguments");
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return f(expr_to_tactic(tc, args[0], p),
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expr_to_tactic(tc, args[1], p));
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});
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}
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register_unary_tac::register_unary_tac(name const & n, std::function<tactic(tactic const &)> f) {
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register_expr_to_tactic(n, [=](type_checker & tc, expr const & e, pos_info_provider const * p) {
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buffer<expr> args;
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get_app_args(e, args);
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if (args.size() != 1)
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throw expr_to_tactic_exception(e, "invalid unary tactic, it must have one argument");
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return f(expr_to_tactic(tc, args[0], p));
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});
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}
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static name g_tac("tactic");
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static register_simple_tac reg_id(name(g_tac, "id"), []() { return id_tactic(); });
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static register_simple_tac reg_now(name(g_tac, "now"), []() { return now_tactic(); });
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static register_simple_tac reg_exact(name(g_tac, "exact"), []() { return assumption_tactic(); });
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static register_simple_tac reg_fail(name(g_tac, "fail"), []() { return fail_tactic(); });
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static register_simple_tac reg_beta(name(g_tac, "beta"), []() { return beta_tactic(); });
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static register_bin_tac reg_then(name(g_tac, "and_then"), [](tactic const & t1, tactic const & t2) { return then(t1, t2); });
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static register_bin_tac reg_orelse(name(g_tac, "or_else"), [](tactic const & t1, tactic const & t2) { return orelse(t1, t2); });
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static register_unary_tac reg_repeat(name(g_tac, "repeat"), [](tactic const & t1) { return repeat(t1); });
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static register_tac reg_state(name(g_tac, "state"), [](type_checker &, expr const & e, pos_info_provider const * p) {
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if (p)
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return trace_state_tactic(std::string(p->get_file_name()), p->get_pos_info(e));
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else
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return trace_state_tactic("unknown", mk_pair(0, 0));
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});
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static register_tac reg_trace(name(g_tac, "trace"), [](type_checker & tc, expr const & e, pos_info_provider const *) {
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buffer<expr> args;
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get_app_args(e, args);
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if (args.size() != 1)
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throw expr_to_tactic_exception(e, "invalid trace tactic, argument expected");
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if (auto str = to_string(args[0]))
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return trace_tactic(*str);
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else if (auto str = to_string(tc.whnf(args[0])))
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return trace_tactic(*str);
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else
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throw expr_to_tactic_exception(e, "invalid trace tactic, string value expected");
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});
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static register_tac reg_apply(name(g_tac, "apply"), [](type_checker &, expr const & e, pos_info_provider const *) {
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return apply_tactic(app_arg(e));
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});
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static register_tac reg_unfold(name(g_tac, "unfold"), [](type_checker &, expr const & e, pos_info_provider const *) {
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expr id = get_app_fn(app_arg(e));
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if (!is_constant(id))
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return fail_tactic();
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else
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return unfold_tactic(const_name(id));
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});
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// We encode the 'by' expression that is used to trigger tactic execution.
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// This is a trick to avoid creating a new kind of expression.
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// 'by' macros are temporary objects used by the elaborator,
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// and have no semantic significance.
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[[ noreturn ]] static void throw_ex() { throw exception("unexpected occurrence of 'by' expression"); }
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static name g_by_name("by");
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class by_macro_cell : public macro_definition_cell {
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public:
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virtual name get_name() const { return g_by_name; }
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virtual expr get_type(expr const &, expr const *, extension_context &) const { throw_ex(); }
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virtual optional<expr> expand(expr const &, extension_context &) const { throw_ex(); }
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virtual void write(serializer &) const { throw_ex(); }
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};
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static macro_definition g_by(new by_macro_cell());
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expr mk_by(expr const & e) {
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return mk_macro(g_by, 1, &e);
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}
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bool is_by(expr const & e) {
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return is_macro(e) && macro_def(e) == g_by;
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}
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expr const & get_by_arg(expr const & e) {
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lean_assert(is_by(e));
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return macro_arg(e, 0);
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}
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}
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