#include "client_manager.hh" #include "buffer_manager.hh" #include "color_registry.hh" #include "command_manager.hh" #include "event_manager.hh" #include "file.hh" #include "user_interface.hh" #include "window.hh" namespace Kakoune { ClientManager::ClientManager() = default; ClientManager::~ClientManager() = default; String ClientManager::generate_name() const { for (int i = 0; true; ++i) { String name = "unnamed" + to_string(i); if (validate_client_name(name)) return name; } } Client* ClientManager::create_client(std::unique_ptr&& ui, const String& init_commands) { Buffer& buffer = **BufferManager::instance().begin(); Client* client = new Client{std::move(ui), get_unused_window_for_buffer(buffer), generate_name()}; m_clients.emplace_back(client); try { CommandManager::instance().execute(init_commands, client->context()); } catch (Kakoune::runtime_error& error) { client->context().print_status({ error.what(), get_color("Error") }); client->context().hooks().run_hook("RuntimeError", error.what(), client->context()); } catch (Kakoune::client_removed&) { m_clients.pop_back(); return nullptr; } client->ui().set_input_callback([client, this]() { try { client->handle_available_input(); } catch (Kakoune::runtime_error& error) { client->context().print_status({ error.what(), get_color("Error") }); client->context().hooks().run_hook("RuntimeError", error.what(), client->context()); } catch (Kakoune::client_removed&) { ClientManager::instance().remove_client(*client); } }); return client; } void ClientManager::remove_client(Client& client) { for (auto it = m_clients.begin(); it != m_clients.end(); ++it) { if (it->get() == &client) { m_clients.erase(it); return; } } kak_assert(false); } Window& ClientManager::get_unused_window_for_buffer(Buffer& buffer) { for (auto& w : m_windows) { if (&w->buffer() != &buffer) continue; auto it = std::find_if(m_clients.begin(), m_clients.end(), [&](const std::unique_ptr& client) { return &client->context().window() == w.get(); }); if (it == m_clients.end()) { w->forget_timestamp(); return *w; } } m_windows.emplace_back(new Window(buffer)); return *m_windows.back(); } void ClientManager::ensure_no_client_uses_buffer(Buffer& buffer) { for (auto& client : m_clients) { client->context().forget_jumps_to_buffer(buffer); if (&client->context().buffer() != &buffer) continue; if (client->context().editor().is_editing()) throw runtime_error("client '" + client->name() + "' is inserting in '" + buffer.display_name() + '\''); // change client context to edit the first buffer which is not the // specified one. As BufferManager stores buffer according to last // access, this selects a sensible buffer to display. for (auto& buf : BufferManager::instance()) { if (buf != &buffer) { Window& w = get_unused_window_for_buffer(*buf); client->context().change_editor(w); break; } } } auto end = std::remove_if(m_windows.begin(), m_windows.end(), [&buffer](const std::unique_ptr& w) { return &w->buffer() == &buffer; }); m_windows.erase(end, m_windows.end()); } bool ClientManager::validate_client_name(const String& name) const { auto it = find_if(m_clients, [&](const std::unique_ptr& client) { return client->name() == name; }); return it == m_clients.end(); } Client& ClientManager::get_client(const String& name) { for (auto& client : m_clients) { if (client->name() == name) return *client; } throw runtime_error("no client named: " + name); } void ClientManager::redraw_clients() const { for (auto& client : m_clients) client->redraw_ifn(); } }