#include #include extern "C" { #include } #include #include #include #include #include // single letter agent, for testing only //using Agent = char; using Agent = uint16_t; // tmp local port using Doc = GreenCRDT::TextDocument; using ListType = Doc::ListType; std::ostream& operator<<(std::ostream& out, const std::optional& id) { if (id.has_value()) { out << id.value().id << "-" << id.value().seq; } else { out << "null"; } return out; } std::ostream& operator<<(std::ostream& out, const ListType::OpAdd& op) { out << "Add{ id:" << op.id.id << "-" << op.id.seq << ", v:" << op.value << ", l:" << op.parent_left << ", r:" << op.parent_right << " }" ; return out; } std::ostream& operator<<(std::ostream& out, const ListType::OpDel& op) { out << "Del{ id:" << op.id.id << "-" << op.id.seq << " }" ; return out; } std::ostream& operator<<(std::ostream& out, const Doc::Op& op) { if (std::holds_alternative(op)) { out << std::get(op); } else if (std::holds_alternative(op)) { out << std::get(op); } return out; } std::ostream& operator<<(std::ostream& out, const std::optional& id) { if (id.has_value()) { out << id.value(); } else { out << "null"; } return out; } std::ostream& operator<<(std::ostream& out, const ListType::Entry& e) { out << "{ id:" << e.id.id << "-" << e.id.seq << ", v:" << e.value << ", l:" << e.parent_left << ", r:" << e.parent_right << " }" ; return out; } static bool send_command(zed_net_socket_t* remote_socket, const std::string_view mode, const std::string_view command) { auto j = nlohmann::json::array(); j.push_back(mode); j.push_back(command); std::string str = j.dump(); str += '\n'; auto ret = zed_net_tcp_socket_send(remote_socket, str.data(), str.size()); return ret == 0; } static bool send_setup(zed_net_socket_t* remote_socket) { return send_command(remote_socket, "ex", // vars R"( let b:green_crdt_timer_can_send = v:true let b:green_crdt_dirty = v:true )" R"( function! GreenCRDTTimerCallback(timer) abort let b:green_crdt_timer_can_send = v:true call GreenCRDTCheckTimeAndSendState() endfunction )" R"( function! GreenCRDTCheckTimeAndSendState() abort if b:green_crdt_timer_can_send && b:green_crdt_dirty let b:green_crdt_timer_can_send = v:false call ch_sendexpr(b:channel, [{'cmd': 'full_buffer', 'lines': getbufline(bufnr(), 1, '$')}]) let b:green_crdt_dirty = v:false call timer_start(100, 'GreenCRDTTimerCallback') endif endfunction )" R"( function! GreenCRDTChangeEvent() let b:green_crdt_dirty = v:true call GreenCRDTCheckTimeAndSendState() endfunction )" // TODO: pull changes // cleanup, to be called by user // delfunction fails for stop... but well R"( function! GreenCRDTStop() augroup green_crdt au! augroup END call ch_close(b:channel) delfunction GreenCRDTCheckTimeAndSendState delfunction GreenCRDTTimerCallback delfunction GreenCRDTChangeEvent "delfunction GreenCRDTStop let b:green_crdt_timer_can_send = v:true endfunction )" // this is a hack, bc for some EX mode IPC buggyness reason, it only works as single commands OR inside a function R"( function! GreenCRDTSetupEvents() abort augroup green_crdt au! au TextChanged call GreenCRDTChangeEvent() au TextChangedI call GreenCRDTChangeEvent() augroup END endfunction call GreenCRDTSetupEvents() delfunction GreenCRDTSetupEvents )" R"( echo 'setup done' )"); } int main(void) { std::cout << "starting vim ipc server\n"; if (zed_net_init() != 0) { std::cerr << "zed_net_init failed: " << zed_net_get_error() << "\n"; return -1; } std::cout << "initialized zed_net\n"; const uint16_t port {1337}; zed_net_socket_t listen_socket; if (zed_net_tcp_socket_open( &listen_socket, port, // port 0, // non blocking 1 // listen ) != 0) { std::cerr << "zed_net_tcp_socket_open failed: " << zed_net_get_error() << "\n"; zed_net_shutdown(); return -1; } std::cout << "listening on " << port << "\n"; std::cout << "paste these commands into your vim for the current buffer:\n"; std::cout << " :let b:channel = ch_open('localhost:" << port << "')\n"; std::cout << "paste this command to disconnect:\n :call GreenCRDTStop()\n"; zed_net_socket_t remote_socket; zed_net_address_t remote_address; if (zed_net_tcp_accept(&listen_socket, &remote_socket, &remote_address) != 0) { std::cerr << "zed_net_tcp_accept failed: " << zed_net_get_error() << "\n"; zed_net_socket_close(&listen_socket); zed_net_shutdown(); return -1; } std::cout << "got connection from " << zed_net_host_to_str(remote_address.host) << ":" << remote_address.port << "\n"; std::cout << "sending setup\n"; send_setup(&remote_socket); // send doauto text changed for inital buffer Doc doc; doc.local_agent = remote_address.port; // tmp: use local port as id while (true) { // 100MiB auto buffer = std::make_unique>(); int64_t bytes_received {0}; bytes_received = zed_net_tcp_socket_receive(&remote_socket, buffer->data(), buffer->size()); if (bytes_received < 0) { std::cerr << "zed_net_tcp_socket_receive failed: " << zed_net_get_error() << "\n"; zed_net_socket_close(&remote_socket); zed_net_socket_close(&listen_socket); zed_net_shutdown(); return -1; } else if (bytes_received == 0) { std::cout << "got 0 bytes?\n"; break; // connection closed } std::cout << "got " << bytes_received << " bytes\n"; // expect json array(s separated by newlines) // TODO: new lines auto view = std::string_view{reinterpret_cast(buffer->data()), static_cast(bytes_received)}; std::cout << " raw: " << view; auto j = nlohmann::json::parse(view, nullptr, false); if (j.is_discarded()) { std::cerr << "invalid json\n"; //break; continue; // whatever } //std::cout << " j: " << j.dump() << "\n"; if (!j.is_array()) { std::cerr << "json not array!\n"; break; } int64_t command_seq = j.at(0); auto j_command_data = j.at(1); if (!j_command_data.is_array()) { std::cerr << "j_command_data not array!\n"; break; } for (const auto& j_command : j_command_data) { if (!j_command.is_object()) { std::cerr << "j_command not obj!\n"; break; } if (!j_command.count("cmd")) { std::cerr << "j_command does not have a 'cmd' field!\n"; break; } if (!j_command.at("cmd").is_string()) { std::cerr << "command not a string!\n"; break; } std::string command = j_command.at("cmd"); if (command.empty()) { std::cerr << "command string empty!\n"; break; } else if (command == "setup") { // setup callbacks etc, basically the plugin std::cout << "sending setup\n"; send_setup(&remote_socket); } else if (command == "full_buffer") { // vim is sending the full buffer // array of lines if (!j_command.count("lines")) { std::cerr << "lines list empty!\n"; continue; } const auto& j_lines = j_command.at("lines"); if (!j_lines.is_array()) { std::cerr << "lines list not an array!\n"; continue; } std::string new_text; for (size_t i = 0; i < j_lines.size(); i++) { if (!j_lines.at(i).empty()) { new_text += static_cast(j_lines.at(i)); } if (i+1 < j_lines.size()) { new_text += "\n"; } } //std::cout << "new_text:\n" << new_text << "\n"; //std::cout << "old_text:\n" << doc.getText() << "\n"; std::cout << "doc state: "; for (const auto& e : doc.state.list) { std::cout << e << " "; } std::cout << "\n"; const auto ops = doc.merge(new_text); if (!ops.empty()) { std::cout << "ops.size: " << ops.size() << "\n"; std::cout << "ops: "; for (const auto& op : ops) { std::cout << op << " "; } std::cout << "\n"; } assert(doc.getText() == new_text); } else { std::cout << "unknown command '" << command << "'\n"; } } } std::cout << "shutting down\n"; zed_net_socket_close(&remote_socket); zed_net_socket_close(&listen_socket); zed_net_shutdown(); return 0; }