#include "components/renderer.hpp" #include "cairo/context.hpp" #include "components/config.hpp" #include "events/signal.hpp" #include "events/signal_receiver.hpp" #include "utils/factory.hpp" #include "utils/file.hpp" #include "utils/math.hpp" #include "x11/atoms.hpp" #include "x11/connection.hpp" #include "x11/extensions/all.hpp" #include "x11/winspec.hpp" POLYBAR_NS /** * Create instance */ renderer::make_type renderer::make(const bar_settings& bar) { // clang-format off return factory_util::unique( connection::make(), signal_emitter::make(), config::make(), logger::make(), forward(bar)); // clang-format on } /** * Construct renderer instance */ renderer::renderer( connection& conn, signal_emitter& sig, const config& conf, const logger& logger, const bar_settings& bar) : m_connection(conn) , m_sig(sig) , m_conf(conf) , m_log(logger) , m_bar(forward(bar)) , m_rect(m_bar.inner_area()) { m_sig.attach(this); m_log.trace("renderer: Get TrueColor visual"); { if ((m_visual = m_connection.visual_type(m_connection.screen(), 32)) == nullptr) { m_log.err("No 32-bit TrueColor visual found..."); if ((m_visual = m_connection.visual_type(m_connection.screen(), 24)) == nullptr) { m_log.err("No 24-bit TrueColor visual found..."); } else { m_depth = 24; } } if (m_visual == nullptr) { throw application_error("No matching TrueColor"); } } m_log.trace("renderer: Allocate colormap"); { m_colormap = m_connection.generate_id(); m_connection.create_colormap(XCB_COLORMAP_ALLOC_NONE, m_colormap, m_connection.screen()->root, m_visual->visual_id); } m_log.trace("renderer: Allocate output window"); { // clang-format off m_window = winspec(m_connection) << cw_size(m_bar.size) << cw_pos(m_bar.pos) << cw_depth(m_depth) << cw_visual(m_visual->visual_id) << cw_class(XCB_WINDOW_CLASS_INPUT_OUTPUT) << cw_params_back_pixel(0) << cw_params_border_pixel(0) << cw_params_backing_store(XCB_BACKING_STORE_WHEN_MAPPED) << cw_params_colormap(m_colormap) << cw_params_event_mask(XCB_EVENT_MASK_PROPERTY_CHANGE |XCB_EVENT_MASK_EXPOSURE |XCB_EVENT_MASK_BUTTON_PRESS) << cw_params_override_redirect(m_bar.override_redirect) << cw_flush(true); // clang-format on } m_log.trace("renderer: Allocate window pixmaps"); { m_pixmap = m_connection.generate_id(); m_connection.create_pixmap(m_depth, m_pixmap, m_window, m_bar.size.w, m_bar.size.h); } m_log.trace("renderer: Allocate graphic contexts"); { unsigned int mask{0}; unsigned int value_list[32]{0}; xcb_params_gc_t params{}; XCB_AUX_ADD_PARAM(&mask, ¶ms, foreground, m_bar.foreground); XCB_AUX_ADD_PARAM(&mask, ¶ms, graphics_exposures, 0); connection::pack_values(mask, ¶ms, value_list); m_gcontext = m_connection.generate_id(); m_connection.create_gc(m_gcontext, m_pixmap, mask, value_list); } m_log.trace("renderer: Allocate alignment blocks"); { const auto create_block = [&](alignment a) { auto pid = m_connection.generate_id(); m_connection.create_pixmap_checked(m_depth, pid, m_pixmap, m_bar.size.w, m_bar.size.h); m_blocks.emplace(a, alignment_block{pid, 0.0, 0.0}); }; create_block(alignment::LEFT); create_block(alignment::CENTER); create_block(alignment::RIGHT); } m_log.trace("renderer: Allocate cairo components"); { m_surface = make_unique(m_connection, m_pixmap, m_visual, m_bar.size.w, m_bar.size.h); m_context = make_unique(*m_surface, m_log); } m_log.trace("renderer: Load fonts"); { double dpi_x = 96, dpi_y = 96; if (m_conf.has(m_conf.section(), "dpi")) { try { // dpi specified directly as a value dpi_x = dpi_y = m_conf.get("dpi"); } catch (const value_error&) { // dpi to be comptued auto screen = m_connection.screen(); dpi_x = screen->width_in_pixels * 25.4 / screen->width_in_millimeters; dpi_y = screen->height_in_pixels * 25.4 / screen->height_in_millimeters; } } m_log.trace("renderer: DPI is %.1fx%.1f", dpi_x, dpi_y); auto fonts = m_conf.get_list(m_conf.section(), "font", {}); if (fonts.empty()) { m_log.warn("No fonts specified, using fallback font \"fixed\""); fonts.emplace_back("fixed"); } auto fonts_loaded = false; for (const auto& f : fonts) { vector fd{string_util::split(f, ';')}; auto font = cairo::make_font(*m_context, string(fd[0]), fd.size() > 1 ? std::atoi(fd[1].c_str()) : 0, dpi_x, dpi_y); m_log.info("Loaded font \"%s\" (name=%s, file=%s)", fd[0], font->name(), font->file()); *m_context << move(font); fonts_loaded = true; } if (!fonts_loaded) { throw application_error("Unable to load fonts"); } } m_comp_bg = cairo::utils::str2operator(m_conf.get("settings", "compositing-background", ""s), CAIRO_OPERATOR_OVER); m_comp_fg = cairo::utils::str2operator(m_conf.get("settings", "compositing-foreground", ""s), CAIRO_OPERATOR_OVER); m_comp_ol = cairo::utils::str2operator(m_conf.get("settings", "compositing-overline", ""s), CAIRO_OPERATOR_OVER); m_comp_ul = cairo::utils::str2operator(m_conf.get("settings", "compositing-underline", ""s), CAIRO_OPERATOR_OVER); m_comp_border = cairo::utils::str2operator(m_conf.get("settings", "compositing-border", ""s), CAIRO_OPERATOR_OVER); m_fixedcenter = m_conf.get(m_conf.section(), "fixed-center", true); } /** * Deconstruct instance */ renderer::~renderer() { m_sig.detach(this); } /** * Get output window */ xcb_window_t renderer::window() const { return m_window; } /** * Get completed action blocks */ const vector renderer::actions() const { return m_actions; } /** * Begin render routine */ void renderer::begin() { m_log.trace_x("renderer: begin"); // Reset state m_actions.clear(); m_attr.reset(); m_align = alignment::NONE; m_rect = m_bar.inner_area(); // Reset colors m_bg = 0; m_fg = m_bar.foreground; m_ul = m_bar.underline.color; m_ol = m_bar.overline.color; m_context->save(); // Clear canvas m_surface->set_drawable(m_pixmap, m_bar.size.w, m_bar.size.h); m_context->clear(); fill_borders(); // clang-format off m_context->clip(cairo::rect{ static_cast(m_rect.x), static_cast(m_rect.y), static_cast(m_rect.width), static_cast(m_rect.height)}); // clang-format on fill_background(); } /** * End render routine */ void renderer::end() { m_log.trace_x("renderer: end"); for (auto&& b : m_blocks) { if (block_x(b.first) + block_w(b.first) > (m_rect.width)) { double x = m_rect.x + block_x(b.first) + block_w(b.first); if ((x -= x - m_rect.x - m_rect.width + block_x(b.first)) > 0.0) { // clang-format off rgba bg1{m_bar.background}; bg1.a = 0.0; rgba bg2{m_bar.background}; bg2.a = 1.0; // clang-format on m_surface->set_drawable(b.second.pixmap, m_bar.size.w, m_bar.size.h); m_context->save(); *m_context << cairo::linear_gradient{x - 40.0, 0.0, x, 0.0, {bg1, bg2}}; m_context->paint(); m_context->restore(); } } } for (auto&& a : m_actions) { a.start_x += block_x(a.align) + m_rect.x; a.end_x += block_x(a.align) + m_rect.x; } m_context->restore(); flush(); } /** * Flush pixmap contents onto the target window */ void renderer::flush() { m_log.trace_x("renderer: flush"); m_surface->set_drawable(m_pixmap, m_bar.size.w, m_bar.size.h); m_surface->flush(); for (auto&& b : m_blocks) { double x = m_rect.x + block_x(b.first); double y = m_rect.y + block_y(b.first); double w = m_rect.x + m_rect.width - x; double h = m_rect.y + m_rect.height - y; if (w > 0.0) { m_log.trace_x("renderer: copy alignment block (x=%.0f y=%.0f w=%.0f h=%.0f)", x, y, w, h); m_connection.copy_area(b.second.pixmap, m_pixmap, m_gcontext, m_rect.x, m_rect.y, x, y, w, h); m_connection.flush(); } else { m_log.trace_x("renderer: ignoring empty alignment block"); continue; } } m_surface->dirty(); m_surface->flush(); highlight_clickable_areas(); #if 0 #ifdef DEBUG_SHADED if (m_bar.shaded && m_bar.origin == edge::TOP) { m_log.trace_x( "renderer: copy pixmap (shaded=1, geom=%dx%d+%d+%d)", m_rect.width, m_rect.height, m_rect.x, m_rect.y); auto geom = m_connection.get_geometry(m_window); auto x1 = 0; auto y1 = m_rect.height - m_bar.shade_size.h - m_rect.y - geom->height; auto x2 = m_rect.x; auto y2 = m_rect.y; auto w = m_rect.width; auto h = m_rect.height - m_bar.shade_size.h + geom->height; m_connection.copy_area(m_pixmap, m_window, m_gcontext, x1, y1, x2, y2, w, h); m_connection.flush(); return; } #endif #endif m_connection.copy_area(m_pixmap, m_window, m_gcontext, 0, 0, 0, 0, m_bar.size.w, m_bar.size.h); m_connection.flush(); if (!m_snapshot_dst.empty()) { try { m_surface->write_png(m_snapshot_dst); m_log.info("Successfully wrote %s", m_snapshot_dst); } catch (const exception& err) { m_log.err("Failed to write snapshot (err: %s)", err.what()); } m_snapshot_dst.clear(); } } /** * Get x position of block for given alignment */ double renderer::block_x(alignment a) const { switch (a) { case alignment::CENTER: if (!m_fixedcenter || m_rect.width / 2.0 + block_w(a) / 2.0 > m_rect.width - block_w(alignment::RIGHT)) { return std::max((m_rect.width - block_w(alignment::RIGHT) + block_w(alignment::LEFT)) / 2.0 - block_w(a) / 2.0, block_w(alignment::LEFT)); } else { return std::max(m_rect.width / 2.0 - block_w(a) / 2.0, block_w(alignment::LEFT)); } case alignment::RIGHT: return std::max(m_rect.width - block_w(a), block_x(alignment::CENTER) + block_w(alignment::CENTER)); default: return 0.0; } } /** * Get y position of block for given alignment */ double renderer::block_y(alignment) const { return 0.0; } /** * Get block width for given alignment */ double renderer::block_w(alignment a) const { return m_blocks.at(a).x; } /** * Reserve space at given edge */ void renderer::reserve_space(edge side, unsigned int w) { m_log.trace_x("renderer: reserve_space(%i, %i)", static_cast(side), w); m_cleararea.side = side; m_cleararea.size = w; switch (side) { case edge::NONE: break; case edge::TOP: m_rect.y += w; m_rect.height -= w; break; case edge::BOTTOM: m_rect.height -= w; break; case edge::LEFT: m_rect.x += w; m_rect.width -= w; break; case edge::RIGHT: m_rect.width -= w; break; case edge::ALL: m_rect.x += w; m_rect.y += w; m_rect.width -= w * 2; m_rect.height -= w * 2; break; } } /** * Fill background color */ void renderer::fill_background() { m_context->save(); *m_context << static_cast(m_comp_bg); if (m_bar.radius != 0.0) { // clang-format off *m_context << cairo::rounded_corners{ static_cast(m_rect.x), static_cast(m_rect.y), static_cast(m_rect.width), static_cast(m_rect.height), m_bar.radius}; // clang-format on } if (!m_bar.background_steps.empty()) { m_log.trace_x("renderer: gradient background (steps=%lu)", m_bar.background_steps.size()); *m_context << cairo::linear_gradient{0.0, 0.0 + m_rect.y, 0.0, 0.0 + m_rect.height, m_bar.background_steps}; } else { m_log.trace_x("renderer: solid background #%08x", m_bar.background); *m_context << m_bar.background; } if (m_bar.radius != 0.0) { m_context->fill(); } else { m_context->paint(); } m_context->restore(); } /** * Fill overline color */ void renderer::fill_overline(double x, double w) { if (m_bar.overline.size && m_attr.test(static_cast(attribute::OVERLINE))) { m_log.trace_x("renderer: overline(x=%f, w=%f)", x, w); m_context->save(); *m_context << static_cast(m_comp_ol); *m_context << m_ol; *m_context << cairo::rect{x, static_cast(m_rect.y), w, static_cast(m_bar.overline.size)}; m_context->fill(); m_context->restore(); } } /** * Fill underline color */ void renderer::fill_underline(double x, double w) { if (m_bar.underline.size && m_attr.test(static_cast(attribute::UNDERLINE))) { m_log.trace_x("renderer: underline(x=%f, w=%f)", x, w); m_context->save(); *m_context << static_cast(m_comp_ul); *m_context << m_ul; *m_context << cairo::rect{x, static_cast(m_rect.y + m_rect.height - m_bar.underline.size), w, static_cast(m_bar.underline.size)}; m_context->fill(); m_context->restore(); } } /** * Fill border colors */ void renderer::fill_borders() { m_context->save(); *m_context << static_cast(m_comp_border); cairo::rect top{0.0, 0.0, 0.0, 0.0}; top.x += m_bar.borders.at(edge::LEFT).size; top.w += m_bar.size.w - m_bar.borders.at(edge::LEFT).size - m_bar.borders.at(edge::TOP).size; top.h += m_bar.borders.at(edge::TOP).size; m_log.trace_x("renderer: border T(%.0f, #%08x)", top.h, m_bar.borders.at(edge::TOP).color); (*m_context << top << m_bar.borders.at(edge::TOP).color).fill(); cairo::rect bottom{0.0, 0.0, 0.0, 0.0}; bottom.x += m_bar.borders.at(edge::LEFT).size; bottom.y += m_bar.size.h - m_bar.borders.at(edge::BOTTOM).size; bottom.w += m_bar.size.w - m_bar.borders.at(edge::LEFT).size - m_bar.borders.at(edge::RIGHT).size; bottom.h += m_bar.borders.at(edge::BOTTOM).size; m_log.trace_x("renderer: border B(%.0f, #%08x)", bottom.h, m_bar.borders.at(edge::BOTTOM).color); (*m_context << bottom << m_bar.borders.at(edge::BOTTOM).color).fill(); cairo::rect left{0.0, 0.0, 0.0, 0.0}; left.w += m_bar.borders.at(edge::LEFT).size; left.h += m_bar.size.h; m_log.trace_x("renderer: border L(%.0f, #%08x)", left.w, m_bar.borders.at(edge::LEFT).color); (*m_context << left << m_bar.borders.at(edge::LEFT).color).fill(); cairo::rect right{0.0, 0.0, 0.0, 0.0}; right.x += m_bar.size.w - m_bar.borders.at(edge::RIGHT).size; right.w += m_bar.borders.at(edge::RIGHT).size; right.h += m_bar.size.h; m_log.trace_x("renderer: border R(%.0f, #%08x)", right.w, m_bar.borders.at(edge::RIGHT).color); (*m_context << right << m_bar.borders.at(edge::RIGHT).color).fill(); m_context->restore(); } /** * Draw text contents */ void renderer::draw_text(const string& contents) { m_log.trace_x("renderer: text(%s)", contents.c_str()); cairo::abspos origin{}; origin.x = m_rect.x + m_blocks[m_align].x; origin.y = m_rect.y + m_rect.height / 2.0; cairo::textblock block{}; block.align = m_align; block.contents = contents; block.font = m_font; block.bg = 0; block.bg_rect = cairo::rect{0.0, 0.0, 0.0, 0.0}; block.bg_operator = 0; block.x_advance = &m_blocks[m_align].x; block.y_advance = &m_blocks[m_align].y; if (m_bg && m_bg != m_bar.background) { block.bg = m_bg; block.bg_operator = static_cast(m_comp_bg); block.bg_rect.y = m_rect.y; block.bg_rect.h = m_rect.height; } m_context->save(); *m_context << origin; *m_context << static_cast(m_comp_fg); *m_context << m_fg; *m_context << block; m_context->restore(); double dx = m_rect.x + m_blocks[m_align].x - origin.x; if (dx > 0.0) { fill_underline(origin.x, dx); fill_overline(origin.x, dx); } } /** * Colorize the bounding box of created action blocks */ void renderer::highlight_clickable_areas() { #ifdef DEBUG_HINTS map hint_num{}; for (auto&& action : m_actions) { if (!action.active) { int n = hint_num.find(action.align)->second++; double x = action.start_x; double y = m_rect.y; double w = action.width(); double h = m_rect.height; m_context->save(); *m_context << CAIRO_OPERATOR_DIFFERENCE << (n % 2 ? 0xFF00FF00 : 0xFFFF0000); *m_context << cairo::rect{x, y, w, h}; m_context->fill(); m_context->restore(); } } m_surface->flush(); #endif } bool renderer::on(const signals::ui::request_snapshot& evt) { m_snapshot_dst = evt.cast(); return true; } bool renderer::on(const signals::parser::change_background& evt) { const unsigned int color{evt.cast()}; if (color != m_bg) { m_log.trace_x("renderer: change_background(#%08x)", color); m_bg = color; } return true; } bool renderer::on(const signals::parser::change_foreground& evt) { const unsigned int color{evt.cast()}; if (color != m_fg) { m_log.trace_x("renderer: change_foreground(#%08x)", color); m_fg = color; } return true; } bool renderer::on(const signals::parser::change_underline& evt) { const unsigned int color{evt.cast()}; if (color != m_ul) { m_log.trace_x("renderer: change_underline(#%08x)", color); m_ul = color; } return true; } bool renderer::on(const signals::parser::change_overline& evt) { const unsigned int color{evt.cast()}; if (color != m_ol) { m_log.trace_x("renderer: change_overline(#%08x)", color); m_ol = color; } return true; } bool renderer::on(const signals::parser::change_font& evt) { const int font{evt.cast()}; if (font != m_font) { m_log.trace_x("renderer: change_font(%i)", font); m_font = font; } return true; } bool renderer::on(const signals::parser::change_alignment& evt) { auto align = static_cast(evt.cast()); if (align != m_align) { m_log.trace_x("renderer: change_alignment(%i)", static_cast(align)); m_align = align; m_blocks[m_align].x = 0.0; m_blocks[m_align].y = 0.0; m_surface->set_drawable(m_blocks.at(m_align).pixmap, m_bar.size.w, m_bar.size.h); m_context->clear(); fill_background(); } return true; } bool renderer::on(const signals::parser::offset_pixel& evt) { m_log.trace_x("renderer: offset_pixel(%f)", evt.cast()); m_blocks[m_align].x += evt.cast(); return true; } bool renderer::on(const signals::parser::attribute_set& evt) { m_log.trace_x("renderer: attribute_set(%i)", static_cast(evt.cast())); m_attr.set(static_cast(evt.cast()), true); return true; } bool renderer::on(const signals::parser::attribute_unset& evt) { m_log.trace_x("renderer: attribute_unset(%i)", static_cast(evt.cast())); m_attr.set(static_cast(evt.cast()), false); return true; } bool renderer::on(const signals::parser::attribute_toggle& evt) { m_log.trace_x("renderer: attribute_toggle(%i)", static_cast(evt.cast())); m_attr.flip(static_cast(evt.cast())); return true; } bool renderer::on(const signals::parser::action_begin& evt) { auto a = evt.cast(); m_log.trace_x("renderer: action_begin(btn=%i, command=%s)", static_cast(a.button), a.command); action_block action{}; action.button = a.button == mousebtn::NONE ? mousebtn::LEFT : a.button; action.align = m_align; action.start_x = m_blocks.at(m_align).x; action.command = string_util::replace_all(a.command, ":", "\\:"); action.active = true; m_actions.emplace_back(action); return true; } bool renderer::on(const signals::parser::action_end& evt) { auto btn = evt.cast(); m_log.trace_x("renderer: action_end(btn=%i)", static_cast(btn)); for (auto action = m_actions.rbegin(); action != m_actions.rend(); action++) { if (action->active && action->align == m_align && action->button == btn) { action->end_x = m_blocks.at(action->align).x; action->active = false; } } return true; } bool renderer::on(const signals::parser::text& evt) { auto text = evt.cast(); draw_text(text); return true; } POLYBAR_NS_END