#include "window.hh" #include "assert.hh" #include "clock.hh" #include "context.hh" #include "highlighter.hh" #include "hook_manager.hh" #include "input_handler.hh" #include "client.hh" #include "buffer_utils.hh" #include "option.hh" #include "option_types.hh" #include #include namespace Kakoune { // Implementation in highlighters.cc void setup_builtin_highlighters(HighlighterGroup& group); Window::Window(Buffer& buffer) : Scope(buffer), m_buffer(&buffer), m_builtin_highlighters{highlighters()} { run_hook_in_own_context("WinCreate", buffer.name()); options().register_watcher(*this); setup_builtin_highlighters(m_builtin_highlighters.group()); // gather as on_option_changed can mutate the option managers for (auto& option : options().flatten_options() | transform([](auto& ptr) { return ptr.get(); }) | gather>()) on_option_changed(*option); } Window::~Window() { run_hook_in_own_context("WinClose", buffer().name()); options().unregister_watcher(*this); } void Window::scroll(LineCount offset) { m_position.line = std::max(0_line, m_position.line + offset); } void Window::display_line_at(LineCount buffer_line, LineCount display_line) { if (display_line >= 0 or display_line < m_dimensions.line) m_position.line = std::max(0_line, buffer_line - display_line); } void Window::center_line(LineCount buffer_line) { display_line_at(buffer_line, m_dimensions.line/2_line); } void Window::scroll(ColumnCount offset) { m_position.column = std::max(0_col, m_position.column + offset); } void Window::display_column_at(ColumnCount buffer_column, ColumnCount display_column) { if (display_column >= 0 or display_column < m_dimensions.column) m_position.column = std::max(0_col, buffer_column - display_column); } void Window::center_column(ColumnCount buffer_column) { display_column_at(buffer_column, m_dimensions.column/2_col); } static uint32_t compute_faces_hash(const FaceRegistry& faces) { uint32_t hash = 0; for (auto&& face : faces.flatten_faces() | transform(&FaceRegistry::FaceMap::Item::value)) hash = combine_hash(hash, face.alias.empty() ? hash_value(face.face) : hash_value(face.alias)); return hash; } Window::Setup Window::build_setup(const Context& context) const { Vector selections; for (auto& sel : context.selections()) selections.push_back({sel.cursor(), sel.anchor()}); return { m_position + m_position_offset, m_dimensions, context.buffer().timestamp(), compute_faces_hash(context.faces()), context.selections().main_index(), std::move(selections) }; } bool Window::needs_redraw(const Context& context) const { auto& selections = context.selections(); if (m_position + m_position_offset != m_last_setup.position or m_dimensions != m_last_setup.dimensions or context.buffer().timestamp() != m_last_setup.timestamp or selections.main_index() != m_last_setup.main_selection or selections.size() != m_last_setup.selections.size() or compute_faces_hash(context.faces()) != m_last_setup.faces_hash) return true; for (int i = 0; i < selections.size(); ++i) { if (selections[i].cursor() != m_last_setup.selections[i].begin or selections[i].anchor() != m_last_setup.selections[i].end) return true; } return false; } const DisplayBuffer& Window::update_display_buffer(const Context& context) { const bool profile = context.options()["debug"].get() & DebugFlags::Profile; auto start_time = profile ? Clock::now() : Clock::time_point{}; if (m_display_buffer.timestamp() != -1) { for (auto&& change : buffer().changes_since(m_display_buffer.timestamp())) { if (change.begin.line < m_position.line) m_position.line += (change.type == Buffer::Change::Insert ? 1 : -1) * (change.end.line - change.begin.line); } } DisplayBuffer::LineList& lines = m_display_buffer.lines(); m_display_buffer.set_timestamp(buffer().timestamp()); lines.clear(); if (m_dimensions == DisplayCoord{0,0}) return m_display_buffer; kak_assert(&buffer() == &context.buffer()); const DisplaySetup setup = compute_display_setup(context); const int tabstop = context.options()["tabstop"].get(); for (LineCount line = 0; line < setup.window_range.line; ++line) { LineCount buffer_line = setup.window_pos.line + line; if (buffer_line >= buffer().line_count()) break; auto beg_byte = get_byte_to_column(buffer(), tabstop, {buffer_line, setup.window_pos.column}); auto end_byte = setup.full_lines ? buffer()[buffer_line].length() : get_byte_to_column(buffer(), tabstop, {buffer_line, setup.window_pos.column + setup.window_range.column}); // The display buffer always has at least one buffer atom, which might be empty if // beg_byte == end_byte lines.emplace_back(AtomList{ {buffer(), {buffer_line, beg_byte}, {buffer_line, end_byte}} }); } m_display_buffer.compute_range(); BufferRange range{{0,0}, buffer().end_coord()}; for (auto pass : { HighlightPass::Wrap, HighlightPass::Move, HighlightPass::Colorize }) m_builtin_highlighters.highlight({context, setup, pass, {}}, m_display_buffer, range); m_display_buffer.optimize(); m_last_setup = build_setup(context); m_position.line = clamp(setup.window_pos.line - m_position_offset.line, 0_line, buffer().line_count()-1); m_position.column = std::max(0_col, setup.window_pos.column - m_position_offset.column); m_range = setup.window_range; if (profile and not (buffer().flags() & Buffer::Flags::Debug)) { using namespace std::chrono; auto duration = duration_cast(Clock::now() - start_time); write_to_debug_buffer(format("window display update for '{}' took {} us", buffer().display_name(), (size_t)duration.count())); } return m_display_buffer; } void Window::set_position(DisplayCoord position) { m_position.line = std::max(0_line, position.line); m_position.column = std::max(0_col, position.column); } void Window::set_dimensions(DisplayCoord dimensions, bool offset_pos) { if (m_dimensions != dimensions) { if (offset_pos) m_position_offset += m_dimensions - dimensions; m_dimensions = dimensions; run_hook_in_own_context("WinResize", format("{}.{}", dimensions.line, dimensions.column)); } } static void check_display_setup(const DisplaySetup& setup, const Window& window) { kak_assert(setup.window_pos.line >= 0 and setup.window_pos.line < window.buffer().line_count()); kak_assert(setup.window_pos.column >= 0); kak_assert(setup.window_range.column >= 0); kak_assert(setup.window_range.line >= 0); } DisplaySetup Window::compute_display_setup(const Context& context) const { auto win_pos = m_position + m_position_offset; DisplayCoord offset = options()["scrolloff"].get(); offset.line = std::min(offset.line, (m_dimensions.line + 1) / 2); offset.column = std::min(offset.column, (m_dimensions.column + 1) / 2); const int tabstop = context.options()["tabstop"].get(); const auto& cursor = context.selections().main().cursor(); // Ensure cursor line is visible if (cursor.line - offset.line < win_pos.line) win_pos.line = std::max(0_line, cursor.line - offset.line); if (cursor.line + offset.line >= win_pos.line + m_dimensions.line) win_pos.line = std::min(buffer().line_count()-1, cursor.line + offset.line - m_dimensions.line + 1); DisplaySetup setup{ win_pos, m_dimensions, {cursor.line - win_pos.line, get_column(buffer(), tabstop, cursor) - win_pos.column}, offset, false }; for (auto pass : { HighlightPass::Move, HighlightPass::Wrap }) m_builtin_highlighters.compute_display_setup({context, setup, pass, {}}, setup); check_display_setup(setup, *this); // now ensure the cursor column is visible { auto underflow = std::max(-setup.window_pos.column, setup.cursor_pos.column - setup.scroll_offset.column); if (underflow < 0) { setup.window_pos.column += underflow; setup.cursor_pos.column -= underflow; } auto overflow = setup.cursor_pos.column + setup.scroll_offset.column - setup.window_range.column + 1; if (overflow > 0) { setup.window_pos.column += overflow; setup.cursor_pos.column -= overflow; } check_display_setup(setup, *this); } return setup; } namespace { ColumnCount find_display_column(const DisplayLine& line, const Buffer& buffer, BufferCoord coord) { ColumnCount column = 0; for (auto& atom : line) { if (atom.has_buffer_range() and coord >= atom.begin() and coord < atom.end()) { if (atom.type() == DisplayAtom::Range) column += utf8::column_distance(get_iterator(buffer, atom.begin()), get_iterator(buffer, coord)); return column; } column += atom.length(); } return column; } BufferCoord find_buffer_coord(const DisplayLine& line, const Buffer& buffer, ColumnCount column) { auto& range = line.range(); for (auto& atom : line) { ColumnCount len = atom.length(); if (atom.has_buffer_range() and column < len) { if (atom.type() == DisplayAtom::Range) return buffer.clamp( utf8::advance(get_iterator(buffer, atom.begin()), get_iterator(buffer, range.end), std::max(0_col, column)).coord()); return buffer.clamp(atom.begin()); } column -= len; } return range.end == BufferCoord{0,0} ? range.end : buffer.prev(range.end); } } Optional Window::display_position(BufferCoord coord) const { if (m_display_buffer.timestamp() != buffer().timestamp()) return {}; LineCount l = 0; for (auto& line : m_display_buffer.lines()) { auto& range = line.range(); if (range.begin <= coord and coord < range.end) return DisplayCoord{l, find_display_column(line, buffer(), coord)}; ++l; } return {}; } BufferCoord Window::buffer_coord(DisplayCoord coord) const { if (m_display_buffer.timestamp() != buffer().timestamp() or m_display_buffer.lines().empty()) return {0, 0}; if (coord <= 0_line) coord = {0,0}; if ((size_t)coord.line >= m_display_buffer.lines().size()) coord = DisplayCoord{(int)m_display_buffer.lines().size()-1, INT_MAX}; return find_buffer_coord(m_display_buffer.lines()[(int)coord.line], buffer(), coord.column); } void Window::clear_display_buffer() { m_display_buffer = DisplayBuffer{}; } void Window::on_option_changed(const Option& option) { run_hook_in_own_context("WinSetOption", format("{}={}", option.name(), option.get_as_string())); // an highlighter might depend on the option, so we need to redraw force_redraw(); } void Window::run_hook_in_own_context(StringView hook_name, StringView param, String client_name) { if (m_buffer->flags() & Buffer::Flags::NoHooks) return; InputHandler hook_handler{{ *m_buffer, Selection{} }, Context::Flags::Draft, std::move(client_name)}; hook_handler.context().set_window(*this); if (m_client) hook_handler.context().set_client(*m_client); hooks().run_hook(hook_name, param, hook_handler.context()); } }