lean2/src/frontends/lean/server.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 <functional>
#include <limits>
#include <algorithm>
#include <vector>
#include "util/sstream.h"
#include "util/exception.h"
#include "util/sexpr/option_declarations.h"
#include "util/bitap_fuzzy_search.h"
#include "kernel/instantiate.h"
#include "library/aliases.h"
#include "library/type_util.h"
#include "library/unifier.h"
#include "library/opaque_hints.h"
#include "library/scoped_ext.h"
#include "library/tactic/goal.h"
#include "frontends/lean/server.h"
#include "frontends/lean/parser.h"
// #define LEAN_SERVER_DIAGNOSTIC
#if defined(LEAN_SERVER_DIAGNOSTIC)
#define DIAG(CODE) CODE
#else
#define DIAG(CODE)
#endif
#define LEAN_FUZZY_MAX_ERRORS 3
#define LEAN_FUZZY_MAX_ERRORS_FACTOR 3
#define LEAN_FIND_CONSUME_IMPLICIT true // lean will add metavariables for implicit arguments when printing the type of declarations in FINDP and FINDG
#define LEAN_FINDG_MAX_STEPS 128 // maximum number of steps per unification problem
namespace lean {
server::file::file(std::istream & in, std::string const & fname):m_fname(fname) {
for (std::string line; std::getline(in, line);) {
m_lines.push_back(line);
}
}
void server::file::replace_line(unsigned line_num, std::string const & new_line) {
lock_guard<mutex> lk(m_lines_mutex);
while (line_num >= m_lines.size())
m_lines.push_back("");
#if 0
std::string const & old_line = m_lines[line_num];
unsigned i = 0;
while (i < old_line.size() && i < new_line.size() && old_line[i] == new_line[i])
i++;
#endif
m_info.block_new_info(true);
#if 0
// It turns out that is not a good idea to try to "keep" some of the information.
// The info_manager will accumulate conflicting information and confuse the frontend.
// Example: open a theorem, delete the proof, then type "and", then continue with "and.elim"
// Now, the info_manager contains the "and" and "and.elim" type.
m_info.invalidate_line_col(line_num+1, i);
#endif
m_info.invalidate_line(line_num+1);
m_lines[line_num] = new_line;
}
void server::file::insert_line(unsigned line_num, std::string const & new_line) {
lock_guard<mutex> lk(m_lines_mutex);
m_info.block_new_info(true);
m_info.insert_line(line_num+1);
while (line_num >= m_lines.size())
m_lines.push_back("");
m_lines.push_back("");
lean_assert(m_lines.size() >= line_num+1);
unsigned i = m_lines.size();
while (i > line_num) {
--i;
m_lines[i] = m_lines[i-1];
}
m_lines[line_num] = new_line;
}
void server::file::remove_line(unsigned line_num) {
lock_guard<mutex> lk(m_lines_mutex);
m_info.block_new_info(true);
m_info.remove_line(line_num+1);
if (line_num >= m_lines.size())
return;
lean_assert(!m_lines.empty());
for (unsigned i = line_num; i < m_lines.size()-1; i++)
m_lines[i] = m_lines[i+1];
m_lines.pop_back();
}
void server::file::show(std::ostream & out, bool valid) {
lock_guard<mutex> lk(m_lines_mutex);
for (unsigned i = 0; i < m_lines.size(); i++) {
if (valid) {
if (m_info.is_invalidated(i+1))
out << "*";
else
out << " ";
out << " ";
}
out << m_lines[i] << "\n";
}
}
/**
\brief Return index i <= m_snapshots.size() s.t.
* forall j < i, m_snapshots[j].m_line < line
* forall i <= j < m_snapshots.size(), m_snapshots[j].m_line >= line
*/
unsigned server::file::find(unsigned line_num) {
unsigned low = 0;
unsigned high = m_snapshots.size();
while (true) {
lean_assert(low <= high);
if (low == high)
return low;
unsigned mid = low + ((high - low)/2);
lean_assert(low <= mid && mid < high);
lean_assert(mid < m_snapshots.size());
snapshot const & s = m_snapshots[mid];
if (s.m_line < line_num) {
low = mid+1;
} else {
high = mid;
}
}
}
/** \brief Copy lines [starting_from, m_lines.size()) to block and return the total number of lines */
unsigned server::file::copy_to(std::string & block, unsigned starting_from) {
unsigned num_lines = m_lines.size();
for (unsigned j = starting_from; j < num_lines; j++) {
block += m_lines[j];
block += '\n';
}
return num_lines;
}
server::worker::worker(environment const & env, io_state const & ios, definition_cache & cache):
m_empty_snapshot(env, ios.get_options()),
m_cache(cache),
m_todo_line_num(0),
m_todo_options(ios.get_options()),
m_terminate(false),
m_thread([=]() {
io_state _ios(ios);
while (!m_terminate) {
file_ptr todo_file;
unsigned todo_line_num = 0;
options todo_options;
// wait for next task
while (!m_terminate) {
unique_lock<mutex> lk(m_todo_mutex);
if (m_todo_file) {
todo_file = m_todo_file;
todo_line_num = m_todo_line_num;
todo_options = m_todo_options;
break;
} else {
m_todo_cv.wait(lk);
}
}
// extract block of code and snapshot from todo_file
reset_interrupt();
bool worker_interrupted = false;
if (m_terminate)
break;
DIAG(std::cerr << "processing '" << todo_file->get_fname() << "'\n";)
std::string block;
unsigned num_lines;
snapshot s;
{
lean_assert(todo_file);
lock_guard<mutex> lk(todo_file->m_lines_mutex);
unsigned i = todo_file->find(todo_line_num);
todo_file->m_snapshots.resize(i);
s = i == 0 ? m_empty_snapshot : todo_file->m_snapshots[i-1];
lean_assert(s.m_line > 0);
todo_file->m_info.block_new_info(false);
todo_file->m_info.set_processed_upto(s.m_line);
num_lines = todo_file->copy_to(block, s.m_line - 1);
}
if (m_terminate)
break;
// parse block of code with respect to snapshot
try {
std::istringstream strm(block);
#if defined(LEAN_SERVER_DIAGNOSTIC)
std::shared_ptr<output_channel> out1(new stderr_channel());
std::shared_ptr<output_channel> out2(new stderr_channel());
#else
std::shared_ptr<output_channel> out1(new string_output_channel());
std::shared_ptr<output_channel> out2(new string_output_channel());
#endif
io_state tmp_ios(_ios, out1, out2);
tmp_ios.set_options(join(s.m_options, _ios.get_options()));
bool use_exceptions = false;
unsigned num_threads = 1;
parser p(s.m_env, tmp_ios, strm, todo_file->m_fname.c_str(), use_exceptions, num_threads,
s.m_lds, s.m_eds, s.m_line, &todo_file->m_snapshots, &todo_file->m_info);
p.set_cache(&m_cache);
p();
} catch (interrupted &) {
worker_interrupted = true;
} catch (exception & ex) {
DIAG(std::cerr << "worker exception: " << ex.what() << "\n";)
}
if (!m_terminate && !worker_interrupted) {
DIAG(std::cerr << "finished '" << todo_file->get_fname() << "'\n";)
unique_lock<mutex> lk(m_todo_mutex);
if (m_todo_file == todo_file && m_last_file == todo_file && m_todo_line_num == todo_line_num) {
m_todo_line_num = num_lines + 1;
m_todo_file = nullptr;
m_todo_cv.notify_all();
}
}
}
}) {}
server::worker::~worker() {
m_terminate = true;
request_interrupt();
m_thread.join();
}
void server::worker::request_interrupt() {
m_todo_cv.notify_all();
m_thread.request_interrupt();
}
bool server::worker::wait(optional<unsigned> const & ms) {
while (true) {
unique_lock<mutex> lk(m_todo_mutex);
if (!m_todo_file)
return true;
if (ms) {
chrono::milliseconds d(*ms);
m_todo_cv.wait_for(lk, d);
if (!m_todo_file)
return true;
return false;
} else {
m_todo_cv.wait(lk);
}
}
}
void server::worker::set_todo(file_ptr const & f, unsigned line_num, options const & o) {
lock_guard<mutex> lk(m_todo_mutex);
if (m_last_file != f || line_num < m_todo_line_num)
m_todo_line_num = line_num;
m_todo_file = f;
m_last_file = f;
m_todo_options = o;
m_todo_cv.notify_all();
}
server::server(environment const & env, io_state const & ios, unsigned num_threads):
m_env(env), m_ios(ios), m_out(ios.get_regular_channel().get_stream()),
m_num_threads(num_threads), m_empty_snapshot(m_env, m_ios.get_options()),
m_worker(env, ios, m_cache) {
#if !defined(LEAN_MULTI_THREAD)
lean_unreachable();
#endif
}
server::~server() {
}
void server::interrupt_worker() {
m_worker.request_interrupt();
}
static std::string g_load("LOAD");
static std::string g_visit("VISIT");
static std::string g_replace("REPLACE");
static std::string g_insert("INSERT");
static std::string g_remove("REMOVE");
static std::string g_info("INFO");
static std::string g_set("SET");
static std::string g_eval("EVAL");
static std::string g_wait("WAIT");
static std::string g_clear_cache("CLEAR_CACHE");
static std::string g_echo("ECHO");
static std::string g_options("OPTIONS");
static std::string g_show("SHOW");
static std::string g_valid("VALID");
static std::string g_sleep("SLEEP");
static std::string g_findp("FINDP");
static std::string g_findg("FINDG");
static bool is_command(std::string const & cmd, std::string const & line) {
return line.compare(0, cmd.size(), cmd) == 0;
}
static std::string & ltrim(std::string & s) {
s.erase(s.begin(), std::find_if(s.begin(), s.end(), std::not1(std::ptr_fun<int, int>(std::isspace))));
return s;
}
static std::string & rtrim(std::string & s) {
s.erase(std::find_if(s.rbegin(), s.rend(), std::not1(std::ptr_fun<int, int>(std::isspace))).base(), s.end());
return s;
}
static std::string & trim(std::string & s) {
return ltrim(rtrim(s));
}
void server::process_from(unsigned line_num) {
m_worker.set_todo(m_file, line_num, m_ios.get_options());
}
void server::load_file(std::string const & fname, bool error_if_nofile) {
interrupt_worker();
std::ifstream in(fname);
if (in.bad() || in.fail()) {
if (error_if_nofile) {
m_out << "-- ERROR failed to open file '" << fname << "'" << std::endl;
} else {
m_file.reset(new file(in, fname));
m_file_map.insert(mk_pair(fname, m_file));
}
} else {
m_file.reset(new file(in, fname));
m_file_map.insert(mk_pair(fname, m_file));
process_from(0);
}
}
void server::visit_file(std::string const & fname) {
interrupt_worker();
auto it = m_file_map.find(fname);
if (it == m_file_map.end()) {
bool error_if_nofile = false;
load_file(fname, error_if_nofile);
} else {
m_file = it->second;
process_from(0);
}
}
void server::read_line(std::istream & in, std::string & line) {
if (!std::getline(in, line))
throw exception("unexpected end of input");
}
void consume_spaces(std::string const & data, unsigned & i) {
while (i < data.size() && std::isspace(data[i])) {
i++;
}
}
unsigned consume_num(std::string const & data, unsigned & i) {
unsigned sz = data.size();
if (i >= sz || !std::isdigit(data[i]))
throw exception("numeral expected");
unsigned long long r = 0;
while (i < sz && std::isdigit(data[i])) {
r = r*10 + (data[i] - '0');
if (r > std::numeric_limits<unsigned>::max())
throw exception("numeral is too big to fit in a 32-bit machine unsigned integer");
i++;
}
return r;
}
optional<unsigned> server::get_optional_num(std::string const & line, std::string const & cmd) {
std::string data = line.substr(cmd.size());
unsigned i = 0;
consume_spaces(data, i);
if (i == data.size())
return optional<unsigned>();
unsigned r = consume_num(data, i);
return optional<unsigned>(r);
}
void check_line_num(unsigned line_num) {
if (line_num == 0)
throw exception("line numbers are indexed from 1");
}
// Given a line of the form "cmd line_num", return the line_num
unsigned server::get_line_num(std::string const & line, std::string const & cmd) {
std::string data = line.substr(cmd.size());
unsigned i = 0;
consume_spaces(data, i);
unsigned r = consume_num(data, i);
check_line_num(r);
return r;
}
pair<unsigned, optional<unsigned>> server::get_line_opt_col_num(std::string const & line, std::string const & cmd) {
std::string data = line.substr(cmd.size());
unsigned i = 0;
consume_spaces(data, i);
unsigned line_num = consume_num(data, i);
check_line_num(line_num);
consume_spaces(data, i);
if (i == data.size())
return mk_pair(line_num, optional<unsigned>());
unsigned colnum = consume_num(data, i);
return mk_pair(line_num, optional<unsigned>(colnum));
}
pair<unsigned, unsigned> server::get_line_col_num(std::string const & line, std::string const & cmd) {
auto r = get_line_opt_col_num(line, cmd);
if (r.second)
return mk_pair(r.first, *r.second);
else
return mk_pair(r.first, 0);
}
void server::check_file() {
if (!m_file)
throw exception("no file has been loaded/visited");
}
void server::replace_line(unsigned line_num, std::string const & new_line) {
interrupt_worker();
check_file();
m_file->replace_line(line_num, new_line);
process_from(line_num);
}
void server::insert_line(unsigned line_num, std::string const & new_line) {
interrupt_worker();
check_file();
m_file->insert_line(line_num, new_line);
process_from(line_num);
}
void server::remove_line(unsigned line_num) {
interrupt_worker();
check_file();
m_file->remove_line(line_num);
process_from(line_num);
}
void server::set_option(std::string const & line) {
std::string cmd = "set_option ";
cmd += line;
std::istringstream strm(cmd);
m_out << "-- BEGINSET" << std::endl;
try {
parser p(m_env, m_ios, strm, "SET_command", true);
p();
m_ios.set_options(p.ios().get_options());
} catch (exception & ex) {
m_out << ex.what() << std::endl;
}
m_out << "-- ENDSET" << std::endl;
}
void server::show_info(unsigned line_num, optional<unsigned> const & col_num) {
check_file();
m_out << "-- BEGININFO";
if (m_file->infom().is_invalidated(line_num))
m_out << " STALE";
if (line_num >= m_file->infom().get_processed_upto())
m_out << " NAY";
m_out << std::endl;
m_file->infom().display(m_env, m_ios, line_num, col_num);
m_out << "-- ENDINFO" << std::endl;
}
void server::eval_core(environment const & env, options const & o, std::string const & line) {
std::istringstream strm(line);
io_state ios(m_ios, o);
m_out << "-- BEGINEVAL" << std::endl;
try {
parser p(env, ios, strm, "EVAL_command", true);
p();
} catch (exception & ex) {
m_out << ex.what() << std::endl;
}
m_out << "-- ENDEVAL" << std::endl;
}
void server::eval(std::string const & line) {
if (!m_file) {
eval_core(m_env, m_ios.get_options(), line);
} else if (auto p = m_file->infom().get_final_env_opts()) {
eval_core(p->first, join(p->second, m_ios.get_options()), line);
} else {
eval_core(m_env, m_ios.get_options(), line);
}
}
void server::show_options() {
m_out << "-- BEGINOPTIONS" << std::endl;
options const & o = m_ios.get_options();
option_declarations const & decls = get_option_declarations();
for (auto it = decls.begin(); it != decls.end(); it++) {
option_declaration const & d = it->second;
m_out << "-- " << d.get_name() << "|" << d.kind() << "|";
d.display_value(m_out, o);
m_out << "|" << d.get_description() << "\n";
}
m_out << "-- ENDOPTIONS" << std::endl;
}
void server::show(bool valid) {
check_file();
m_out << "-- BEGINSHOW" << std::endl;
m_file->show(m_out, valid);
m_out << "-- ENDSHOW" << std::endl;
}
void server::display_decl(name const & short_name, name const & long_name, environment const & env, options const & o) {
declaration const & d = env.get(long_name);
io_state_stream out = regular(env, m_ios).update_options(o);
expr type = d.get_type();
if (LEAN_FIND_CONSUME_IMPLICIT) {
while (true) {
if (!is_pi(type))
break;
if (!binding_info(type).is_implicit())
break;
std::string q("?");
q += binding_name(type).to_string();
expr m = mk_constant(name(q.c_str()));
type = instantiate(binding_body(type), m);
}
}
out << short_name << "|" << mk_pair(flatten(out.get_formatter()(type)), o) << "\n";
}
optional<name> is_uniquely_aliased(environment const & env, name const & n) {
if (auto it = is_expr_aliased(env, n))
if (length(get_expr_aliases(env, *it)) == 1)
return it;
return optional<name>();
}
/** \brief Return an (atomic) name if \c n can be referenced by this atomic
name in the given environment. */
optional<name> is_essentially_atomic(environment const & env, name const & n) {
if (n.is_atomic())
return optional<name>(n);
list<name> const & ns_list = get_namespaces(env);
for (name const & ns : ns_list) {
if (is_prefix_of(ns, n)) {
auto n_prime = n.replace_prefix(ns, name());
if (n_prime.is_atomic())
return optional<name>(n_prime);
break;
}
}
if (auto it = is_uniquely_aliased(env, n))
if (it->is_atomic())
return it;
return optional<name>();
}
void server::display_decl(name const & d, environment const & env, options const & o) {
// using namespace override resolution rule
list<name> const & ns_list = get_namespaces(env);
for (name const & ns : ns_list) {
if (is_prefix_of(ns, d)) {
display_decl(d.replace_prefix(ns, name()), d, env, o);
return;
}
}
// if the alias is unique use it
if (auto it = is_uniquely_aliased(env, d)) {
display_decl(*it, d, env, o);
} else {
display_decl(d, d, env, o);
}
}
unsigned get_fuzzy_match_max_errors(unsigned prefix_sz) {
unsigned r = (prefix_sz / LEAN_FUZZY_MAX_ERRORS_FACTOR);
if (r > LEAN_FUZZY_MAX_ERRORS)
return LEAN_FUZZY_MAX_ERRORS;
return r;
}
optional<name> exact_prefix_match(environment const & env, std::string const & pattern, declaration const & d) {
if (auto it = is_essentially_atomic(env, d.get_name())) {
std::string it_str = it->to_string();
// if pattern "perfectly" matches beginning of declaration name, we just display d on the top of the list
if (it_str.compare(0, pattern.size(), pattern) == 0)
return it;
} else {
std::string d_str = d.get_name().to_string();
if (d_str.compare(0, pattern.size(), pattern) == 0)
return optional<name>(d.get_name());
}
return optional<name>();
}
void server::find_pattern(unsigned line_num, std::string const & pattern) {
check_file();
m_out << "-- BEGINFINDP";
unsigned upto = m_file->infom().get_processed_upto();
optional<pair<environment, options>> env_opts = m_file->infom().get_closest_env_opts(line_num);
if (!env_opts) {
m_out << " NAY" << std::endl;
m_out << "-- ENDFINDP" << std::endl;
return;
}
if (upto < line_num)
m_out << " STALE";
environment const & env = env_opts->first;
options opts = env_opts->second;
token_table const & tt = get_token_table(env);
if (is_token(tt, pattern.c_str())) {
// we ignore patterns that match commands, keywords, and tokens.
m_out << "\n-- ENDFINDP" << std::endl;
return;
}
opts = join(opts, m_ios.get_options());
m_out << std::endl;
unsigned max_errors = get_fuzzy_match_max_errors(pattern.size());
std::vector<pair<std::string, name>> selected;
bitap_fuzzy_search matcher(pattern, max_errors);
env.for_each_declaration([&](declaration const & d) {
if (auto it = exact_prefix_match(env, pattern, d)) {
display_decl(*it, d.get_name(), env, opts);
} else {
std::string text = d.get_name().to_string();
if (matcher.match(text))
selected.emplace_back(text, d.get_name());
}
});
unsigned sz = selected.size();
if (sz == 1) {
display_decl(selected[0].second, env, opts);
} else if (sz > 1) {
std::vector<pair<std::string, name>> next_selected;
for (unsigned k = 0; k <= max_errors; k++) {
bitap_fuzzy_search matcher(pattern, k);
for (auto const & s : selected) {
if (matcher.match(s.first)) {
display_decl(s.second, env, opts);
} else {
next_selected.push_back(s);
}
}
std::swap(selected, next_selected);
next_selected.clear();
}
}
m_out << "-- ENDFINDP" << std::endl;
}
void consume_pos_neg_strs(std::string const & filters, buffer<std::string> & pos_names, buffer<std::string> & neg_names) {
unsigned i = 0;
unsigned sz = filters.size();
std::string val;
while (true) {
consume_spaces(filters, i);
if (i == sz)
return;
if (filters[i] == '+' || filters[i] == '-') {
bool pos = filters[i] == '+';
i++;
val.clear();
while (i < sz && !std::isspace(filters[i])) {
val += filters[i];
i++;
}
if (val.empty())
throw exception("invalid empty filter");
name n = string_to_name(val);
if (!n.is_atomic())
throw exception("invalid filter, atomic name expected");
if (pos)
pos_names.push_back(n.to_string());
else
neg_names.push_back(n.to_string());
} else {
throw exception("invalid filter, '+' or '-' expected");
}
}
}
bool is_part_of(std::string const & p, name n) {
while (true) {
if (n.is_string()) {
std::string s(n.get_string());
if (s.find(p) != std::string::npos)
return true;
}
if (n.is_atomic() || n.is_anonymous())
return false;
n = n.get_prefix();
}
}
bool match_type(type_checker & tc, expr const & meta, expr const & expected_type, declaration const & d) {
name_generator ngen = tc.mk_ngen();
goal g(meta, expected_type);
buffer<level> ls;
unsigned num_ls = length(d.get_univ_params());
for (unsigned i = 0; i < num_ls; i++)
ls.push_back(mk_meta_univ(ngen.next()));
expr dt = instantiate_type_univ_params(d, to_list(ls.begin(), ls.end()));
unsigned num_e = get_expect_num_args(tc, expected_type);
unsigned num_d = get_expect_num_args(tc, dt);
if (num_e > num_d)
return false;
for (unsigned i = 0; i < num_d - num_e; i++) {
dt = tc.whnf(dt).first;
expr meta = g.mk_meta(ngen.next(), binding_domain(dt));
dt = instantiate(binding_body(dt), meta);
}
// Remark: we ignore declarations where the resultant type is of the form
// (?M ...) because they unify with almost everything. They produce a lot of noise in the output.
// Perhaps we should have an option to enable/disable this kind of declaration. For now, we
// just ingore them.
if (is_meta(dt))
return false; // matches anything
try {
unifier_config cfg;
cfg.m_max_steps = LEAN_FINDG_MAX_STEPS;
auto r = unify(tc.env(), dt, expected_type, tc.mk_ngen(), true, substitution(), cfg);
return static_cast<bool>(r.pull());
} catch (exception&) {
return false;
}
}
static name g_tmp_prefix = name::mk_internal_unique_name();
void server::find_goal_matches(unsigned line_num, unsigned col_num, std::string const & filters) {
buffer<std::string> pos_names, neg_names;
consume_pos_neg_strs(filters, pos_names, neg_names);
m_out << "-- BEGINFINDG";
optional<pair<environment, options>> env_opts = m_file->infom().get_closest_env_opts(line_num);
if (!env_opts) {
m_out << " NAY" << std::endl;
m_out << "-- ENDFINDG" << std::endl;
return;
}
if (line_num >= m_file->infom().get_processed_upto())
m_out << " NAY";
m_out << std::endl;
environment const & env = env_opts->first;
options const & opts = env_opts->second;
name_generator ngen(g_tmp_prefix);
std::unique_ptr<type_checker> tc = mk_type_checker_with_hints(env, ngen, true);
if (auto meta = m_file->infom().get_meta_at(line_num, col_num)) {
if (is_meta(*meta)) {
if (auto type = m_file->infom().get_type_at(line_num, col_num)) {
env.for_each_declaration([&](declaration const & d) {
if (std::all_of(pos_names.begin(), pos_names.end(),
[&](std::string const & pos) { return is_part_of(pos, d.get_name()); }) &&
std::all_of(neg_names.begin(), neg_names.end(),
[&](std::string const & neg) { return !is_part_of(neg, d.get_name()); }) &&
match_type(*tc.get(), *meta, *type, d)) {
if (optional<name> alias = is_expr_aliased(env, d.get_name()))
display_decl(*alias, d.get_name(), env, opts);
else
display_decl(d.get_name(), d.get_name(), env, opts);
}
});
}}}
m_out << "-- ENDFINDG" << std::endl;
}
void server::wait(optional<unsigned> ms) {
m_out << "-- BEGINWAIT" << std::endl;
if (!m_worker.wait(ms))
m_out << "-- INTERRUPTED\n";
m_out << "-- ENDWAIT" << std::endl;
}
bool server::operator()(std::istream & in) {
for (std::string line; std::getline(in, line);) {
try {
if (is_command(g_load, line)) {
std::string fname = line.substr(g_load.size());
trim(fname);
load_file(fname);
} else if (is_command(g_visit, line)) {
std::string fname = line.substr(g_visit.size());
trim(fname);
visit_file(fname);
} else if (is_command(g_echo, line)) {
std::string str = line.substr(g_echo.size());
m_out << "--" << str << "\n";
} else if (is_command(g_replace, line)) {
unsigned line_num = get_line_num(line, g_replace);
read_line(in, line);
replace_line(line_num-1, line);
} else if (is_command(g_insert, line)) {
unsigned line_num = get_line_num(line, g_insert);
read_line(in, line);
insert_line(line_num-1, line);
} else if (is_command(g_remove, line)) {
unsigned line_num = get_line_num(line, g_remove);
remove_line(line_num-1);
} else if (is_command(g_info, line)) {
auto line_col = get_line_opt_col_num(line, g_info);
show_info(line_col.first, line_col.second);
} else if (is_command(g_set, line)) {
read_line(in, line);
set_option(line);
} else if (is_command(g_eval, line)) {
read_line(in, line);
eval(line);
} else if (is_command(g_clear_cache, line)) {
m_cache.clear();
} else if (is_command(g_options, line)) {
show_options();
} else if (is_command(g_wait, line)) {
optional<unsigned> ms = get_optional_num(line, g_wait);
wait(ms);
} else if (is_command(g_show, line)) {
show(false);
} else if (is_command(g_valid, line)) {
show(true);
} else if (is_command(g_sleep, line)) {
unsigned ms = get_line_num(line, g_sleep);
chrono::milliseconds d(ms);
this_thread::sleep_for(d);
} else if (is_command(g_findp, line)) {
unsigned line_num = get_line_num(line, g_findp);
read_line(in, line);
if (line.size() > 63)
line.resize(63);
find_pattern(line_num, line);
} else if (is_command(g_findg, line)) {
pair<unsigned, unsigned> line_col_num = get_line_col_num(line, g_findg);
read_line(in, line);
find_goal_matches(line_col_num.first, line_col_num.second, line);
} else {
throw exception(sstream() << "unexpected command line: " << line);
}
} catch (exception & ex) {
m_out << "-- ERROR " << ex.what() << std::endl;
}
}
return true;
}
}