#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/background_manager.hpp"
#include "x11/connection.hpp"
#include "x11/extensions/all.hpp"
#include "x11/winspec.hpp"
POLYBAR_NS
static constexpr double BLOCK_GAP{20.0};
/**
* Create instance
*/
renderer::make_type renderer::make(const bar_settings& bar) {
// clang-format off
return factory_util::unique<renderer>(
connection::make(),
signal_emitter::make(),
config::make(),
logger::make(),
forward<decltype(bar)>(bar),
background_manager::make());
// clang-format on
}
/**
* Construct renderer instance
*/
renderer::renderer(
connection& conn, signal_emitter& sig, const config& conf, const logger& logger, const bar_settings& bar, background_manager& background)
: m_connection(conn)
, m_sig(sig)
, m_conf(conf)
, m_log(logger)
, m_bar(forward<const bar_settings&>(bar))
, m_background(background)
, 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");
{
m_blocks.emplace(alignment::LEFT, alignment_block{nullptr, 0.0, 0.0});
m_blocks.emplace(alignment::CENTER, alignment_block{nullptr, 0.0, 0.0});
m_blocks.emplace(alignment::RIGHT, alignment_block{nullptr, 0.0, 0.0});
}
m_log.trace("renderer: Allocate cairo components");
{
m_surface = make_unique<cairo::xcb_surface>(m_connection, m_pixmap, m_visual, m_bar.size.w, m_bar.size.h);
m_context = make_unique<cairo::context>(*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")) {
dpi_x = dpi_y = m_conf.get<double>("dpi");
} else {
if (m_conf.has(m_conf.section(), "dpi-x")) {
dpi_x = m_conf.get<double>("dpi-x");
}
if (m_conf.has(m_conf.section(), "dpi-y")) {
dpi_y = m_conf.get<double>("dpi-y");
}
}
// dpi to be comptued
if (dpi_x <= 0 || dpi_y <= 0) {
auto screen = m_connection.screen();
if (dpi_x <= 0) {
dpi_x = screen->width_in_pixels * 25.4 / screen->width_in_millimeters;
}
if (dpi_y <= 0) {
dpi_y = screen->height_in_pixels * 25.4 / screen->height_in_millimeters;
}
}
m_log.info("Configured DPI = %gx%g", dpi_x, dpi_y);
auto fonts = m_conf.get_list<string>(m_conf.section(), "font", {});
if (fonts.empty()) {
m_log.warn("No fonts specified, using fallback font \"fixed\"");
fonts.emplace_back("fixed");
}
for (const auto& f : fonts) {
int offset{0};
string pattern{f};
size_t pos = pattern.rfind(';');
if (pos != string::npos) {
offset = std::strtol(pattern.substr(pos + 1).c_str(), nullptr, 10);
pattern.erase(pos);
}
auto font = cairo::make_font(*m_context, string{pattern}, offset, dpi_x, dpi_y);
m_log.info("Loaded font \"%s\" (name=%s, offset=%i, file=%s)", pattern, font->name(), offset, font->file());
*m_context << move(font);
}
m_log.trace("Activate root background manager");
m_background.activate(m_window, m_bar.inner_area(true));
}
m_comp_bg = m_conf.get<cairo_operator_t>("settings", "compositing-background", m_comp_bg);
m_comp_fg = m_conf.get<cairo_operator_t>("settings", "compositing-foreground", m_comp_fg);
m_comp_ol = m_conf.get<cairo_operator_t>("settings", "compositing-overline", m_comp_ol);
m_comp_ul = m_conf.get<cairo_operator_t>("settings", "compositing-underline", m_comp_ul);
m_comp_border = m_conf.get<cairo_operator_t>("settings", "compositing-border", m_comp_border);
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<action_block> renderer::actions() const {
return m_actions;
}
/**
* Begin render routine
*/
void renderer::begin(xcb_rectangle_t rect) {
m_log.trace_x("renderer: begin (geom=%ix%i+%i+%i)", rect.width, rect.height, rect.x, rect.y);
// Reset state
m_rect = rect;
m_actions.clear();
m_attr.reset();
m_align = alignment::NONE;
// Reset colors
m_bg = 0x0;
m_fg = m_bar.foreground;
m_ul = m_bar.underline.color;
m_ol = m_bar.overline.color;
// Clear canvas
m_context->save();
m_context->clear();
// Draw the background on the new layer to make up for
// the areas not covered by the alignment blocks
fill_background();
// Create corner mask
if (m_bar.radius && m_cornermask == nullptr) {
m_context->save();
m_context->push();
// clang-format off
*m_context << cairo::rounded_corners{
static_cast<double>(m_rect.x),
static_cast<double>(m_rect.y),
static_cast<double>(m_rect.width),
static_cast<double>(m_rect.height), m_bar.radius};
// clang-format on
*m_context << rgba{1.0, 1.0, 1.0, 1.0};
m_context->fill();
m_context->pop(&m_cornermask);
m_context->restore();
}
fill_borders();
// clang-format off
m_context->clip(cairo::rect{
static_cast<double>(m_rect.x),
static_cast<double>(m_rect.y),
static_cast<double>(m_rect.width),
static_cast<double>(m_rect.height)});
// clang-format on
}
/**
* End render routine
*/
void renderer::end() {
m_log.trace_x("renderer: end");
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;
}
if (m_align != alignment::NONE) {
m_log.trace_x("renderer: pop(%i)", static_cast<int>(m_align));
m_context->pop(&m_blocks[m_align].pattern);
// Capture the concatenated block contents
// so that it can be masked with the corner pattern
m_context->push();
for (auto&& b : m_blocks) {
flush(b.first);
}
cairo_pattern_t* blockcontents{};
m_context->pop(&blockcontents);
if (m_cornermask != nullptr) {
*m_context << blockcontents;
m_context->mask(m_cornermask);
} else {
*m_context << blockcontents;
m_context->paint();
}
m_context->destroy(&blockcontents);
} else {
fill_background();
}
m_context->restore();
m_surface->flush();
flush();
m_sig.emit(signals::ui::changed{});
}
/**
* Flush contents of given alignment block
*/
void renderer::flush(alignment a) {
if (m_blocks[a].pattern == nullptr) {
return;
}
m_context->save();
double x = static_cast<int>(block_x(a) + 0.5);
double y = static_cast<int>(block_y(a) + 0.5);
double w = static_cast<int>(block_w(a) + 0.5);
double h = static_cast<int>(block_h(a) + 0.5);
double xw = x + w;
bool fits{xw <= m_rect.x + m_rect.width};
m_log.trace("renderer: flush(%i geom=%gx%g+%g+%g, falloff=%i)", static_cast<int>(a), w, h, x, y, !fits);
// Set block shape
*m_context << cairo::abspos{0.0, 0.0};
*m_context << cairo::rect{m_rect.x + x, m_rect.y + y, w, h};
// Restrict drawing to the block rectangle
m_context->clip(true);
// Clear the area covered by the block
m_context->clear();
*m_context << cairo::translate{x, 0.0};
*m_context << m_blocks[a].pattern;
m_context->paint();
if (!fits) {
// Paint falloff gradient at the end of the visible block
// to indicate that the content expands past the canvas
double fx = w - (xw - m_rect.width);
double fsize = std::max(5.0, std::min(std::abs(fx), 30.0));
m_log.trace("renderer: Drawing falloff (pos=%g, size=%g)", fx, fsize);
*m_context << cairo::linear_gradient{fx - fsize, 0.0, fx, 0.0, {0x00000000, 0xFF000000}};
m_context->paint(0.25);
}
*m_context << cairo::abspos{0.0, 0.0};
m_context->destroy(&m_blocks[a].pattern);
m_context->restore();
}
/**
* Flush pixmap contents onto the target window
*/
void renderer::flush() {
m_log.trace_x("renderer: 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_surface->flush();
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: {
double base_pos{0.0};
double min_pos{0.0};
if (!m_fixedcenter || m_rect.width / 2.0 + block_w(a) / 2.0 > m_rect.width - block_w(alignment::RIGHT)) {
base_pos = (m_rect.width - block_w(alignment::RIGHT) + block_w(alignment::LEFT)) / 2.0;
} else {
base_pos = m_rect.width / 2.0;
}
if ((min_pos = block_w(alignment::LEFT))) {
min_pos += BLOCK_GAP;
}
base_pos += (m_bar.size.w - m_rect.width) / 2.0;
int border_left = m_bar.borders.at(edge::LEFT).size;
/*
* If m_rect.x is greater than the left border, then the systray is rendered on the left and we need to adjust for
* that.
* Since we cannot access any tray objects from here we need to calculate the tray size through m_rect.x
* m_rect.x is the x-position of the bar (without the tray or any borders), so if the tray is on the left,
* m_rect.x effectively is border_left + tray_width.
* So we can just subtract the tray_width = m_rect.x - border_left from the base_pos to correct for the tray being
* placed on the left
*/
if(m_rect.x > border_left) {
base_pos -= m_rect.x - border_left;
}
base_pos -= border_left;
return std::max(base_pos - block_w(a) / 2.0, min_pos);
}
case alignment::RIGHT: {
double gap{0.0};
if (block_w(alignment::LEFT) || block_w(alignment::CENTER)) {
gap = BLOCK_GAP;
}
return std::max(m_rect.width - block_w(a), block_x(alignment::CENTER) + gap + 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;
}
/**
* Get block height for given alignment
*/
double renderer::block_h(alignment) const {
return m_rect.height;
}
#if 0
void renderer::reserve_space(edge side, unsigned int w) {
m_log.trace_x("renderer: reserve_space(%i, %i)", static_cast<int>(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;
}
}
#endif
/**
* Fill background color
*/
void renderer::fill_background() {
m_context->save();
*m_context << m_comp_bg;
auto root_bg = m_background.get_surface();
if(root_bg != nullptr) {
m_log.trace_x("renderer: root background");
*m_context << *root_bg;
m_context->paint();
*m_context << CAIRO_OPERATOR_OVER;
}
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;
}
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<int>(attribute::OVERLINE))) {
m_log.trace_x("renderer: overline(x=%f, w=%f)", x, w);
m_context->save();
*m_context << m_comp_ol;
*m_context << m_ol;
*m_context << cairo::rect{x, static_cast<double>(m_rect.y), w, static_cast<double>(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<int>(attribute::UNDERLINE))) {
m_log.trace_x("renderer: underline(x=%f, w=%f)", x, w);
m_context->save();
*m_context << m_comp_ul;
*m_context << m_ul;
*m_context << cairo::rect{x, static_cast<double>(m_rect.y + m_rect.height - m_bar.underline.size), w,
static_cast<double>(m_bar.underline.size)};
m_context->fill();
m_context->restore();
}
}
/**
* Fill border colors
*/
void renderer::fill_borders() {
m_context->save();
*m_context << m_comp_border;
if (m_bar.borders.at(edge::TOP).size) {
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::RIGHT).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();
}
if (m_bar.borders.at(edge::BOTTOM).size) {
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();
}
if (m_bar.borders.at(edge::LEFT).size) {
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();
}
if (m_bar.borders.at(edge::RIGHT).size) {
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.x_advance = &m_blocks[m_align].x;
block.y_advance = &m_blocks[m_align].y;
block.bg_rect = cairo::rect{0.0, 0.0, 0.0, 0.0};
// Only draw text background if the color differs from
// the background color of the bar itself
// Note: this means that if the user explicitly set text
// background color equal to background-0 it will be ignored
if (m_bg != m_bar.background) {
block.bg = m_bg;
block.bg_operator = m_comp_bg;
block.bg_rect.x = m_rect.x;
block.bg_rect.y = m_rect.y;
block.bg_rect.h = m_rect.height;
}
m_context->save();
*m_context << origin;
*m_context << 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<alignment, int> 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<const alignment&>(evt.cast());
if (align != m_align) {
m_log.trace_x("renderer: change_alignment(%i)", static_cast<int>(align));
if (m_align != alignment::NONE) {
m_log.trace_x("renderer: pop(%i)", static_cast<int>(m_align));
m_context->pop(&m_blocks[m_align].pattern);
}
m_align = align;
m_blocks[m_align].x = 0.0;
m_blocks[m_align].y = 0.0;
m_context->push();
m_log.trace_x("renderer: push(%i)", static_cast<int>(m_align));
}
return true;
}
bool renderer::on(const signals::parser::reverse_colors&) {
m_log.trace_x("renderer: reverse_colors");
m_fg = m_fg + m_bg;
m_bg = m_fg - m_bg;
m_fg = m_fg - m_bg;
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<int>(evt.cast()));
m_attr.set(static_cast<int>(evt.cast()), true);
return true;
}
bool renderer::on(const signals::parser::attribute_unset& evt) {
m_log.trace_x("renderer: attribute_unset(%i)", static_cast<int>(evt.cast()));
m_attr.set(static_cast<int>(evt.cast()), false);
return true;
}
bool renderer::on(const signals::parser::attribute_toggle& evt) {
m_log.trace_x("renderer: attribute_toggle(%i)", static_cast<int>(evt.cast()));
m_attr.flip(static_cast<int>(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<int>(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();
/*
* Iterate actions in reverse and find the FIRST active action that matches
*/
m_log.trace_x("renderer: action_end(btn=%i)", static_cast<int>(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;
break;
}
}
return true;
}
bool renderer::on(const signals::parser::text& evt) {
auto text = evt.cast();
draw_text(text);
return true;
}
POLYBAR_NS_END