/*
* Copyright (c) 2018-2020, Andreas Kling <kling@serenityos.org>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice, this
* list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <AK/HashMap.h>
#include <AK/JsonObject.h>
#include <AK/NeverDestroyed.h>
#include <AK/SharedBuffer.h>
#include <LibCore/EventLoop.h>
#include <LibCore/MimeData.h>
#include <LibGUI/Action.h>
#include <LibGUI/Application.h>
#include <LibGUI/Event.h>
#include <LibGUI/Painter.h>
#include <LibGUI/Widget.h>
#include <LibGUI/Window.h>
#include <LibGUI/WindowServerConnection.h>
#include <LibGfx/Bitmap.h>
#include <serenity.h>
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
//#define UPDATE_COALESCING_DEBUG
namespace GUI {
static NeverDestroyed<HashTable<Window*>> all_windows;
static NeverDestroyed<HashMap<int, Window*>> reified_windows;
Window* Window::from_window_id(int window_id)
{
auto it = reified_windows->find(window_id);
if (it != reified_windows->end())
return (*it).value;
return nullptr;
}
Window::Window(Core::Object* parent)
: Core::Object(parent)
{
all_windows->set(this);
m_rect_when_windowless = { 100, 400, 140, 140 };
m_title_when_windowless = "GUI::Window";
}
Window::~Window()
{
all_windows->remove(this);
hide();
}
void Window::close()
{
hide();
}
void Window::move_to_front()
{
if (!is_visible())
return;
WindowServerConnection::the().send_sync<Messages::WindowServer::MoveWindowToFront>(m_window_id);
}
void Window::show()
{
if (is_visible())
return;
auto* parent_window = find_parent_window();
m_override_cursor = StandardCursor::None;
auto response = WindowServerConnection::the().send_sync<Messages::WindowServer::CreateWindow>(
m_rect_when_windowless,
m_has_alpha_channel,
m_modal,
m_minimizable,
m_resizable,
m_fullscreen,
m_frameless,
m_accessory,
m_opacity_when_windowless,
m_base_size,
m_size_increment,
(i32)m_window_type,
m_title_when_windowless,
parent_window ? parent_window->window_id() : 0);
m_window_id = response->window_id();
m_visible = true;
apply_icon();
reified_windows->set(m_window_id, this);
Application::the()->did_create_window({});
update();
}
Window* Window::find_parent_window()
{
for (auto* ancestor = parent(); ancestor; ancestor = ancestor->parent()) {
if (ancestor->is_window())
return static_cast<Window*>(ancestor);
}
return nullptr;
}
void Window::server_did_destroy()
{
reified_windows->remove(m_window_id);
m_window_id = 0;
m_visible = false;
m_pending_paint_event_rects.clear();
m_back_bitmap = nullptr;
m_front_bitmap = nullptr;
m_override_cursor = StandardCursor::None;
}
void Window::hide()
{
if (!is_visible())
return;
auto response = WindowServerConnection::the().send_sync<Messages::WindowServer::DestroyWindow>(m_window_id);
server_did_destroy();
for (auto child_window_id : response->destroyed_window_ids()) {
if (auto* window = Window::from_window_id(child_window_id)) {
window->server_did_destroy();
}
}
bool app_has_visible_windows = false;
for (auto& window : *all_windows) {
if (window->is_visible()) {
app_has_visible_windows = true;
break;
}
}
if (!app_has_visible_windows)
Application::the()->did_delete_last_window({});
}
void Window::set_title(const StringView& title)
{
m_title_when_windowless = title;
if (!is_visible())
return;
WindowServerConnection::the().send_sync<Messages::WindowServer::SetWindowTitle>(m_window_id, title);
}
String Window::title() const
{
if (!is_visible())
return m_title_when_windowless;
return WindowServerConnection::the().send_sync<Messages::WindowServer::GetWindowTitle>(m_window_id)->title();
}
Gfx::IntRect Window::rect() const
{
if (!is_visible())
return m_rect_when_windowless;
return WindowServerConnection::the().send_sync<Messages::WindowServer::GetWindowRect>(m_window_id)->rect();
}
void Window::set_rect(const Gfx::IntRect& a_rect)
{
m_rect_when_windowless = a_rect;
if (!is_visible()) {
if (m_main_widget)
m_main_widget->resize(m_rect_when_windowless.size());
return;
}
auto window_rect = WindowServerConnection::the().send_sync<Messages::WindowServer::SetWindowRect>(m_window_id, a_rect)->rect();
if (m_back_bitmap && m_back_bitmap->size() != window_rect.size())
m_back_bitmap = nullptr;
if (m_front_bitmap && m_front_bitmap->size() != window_rect.size())
m_front_bitmap = nullptr;
if (m_main_widget)
m_main_widget->resize(window_rect.size());
}
void Window::set_window_type(WindowType window_type)
{
m_window_type = window_type;
}
void Window::set_override_cursor(StandardCursor cursor)
{
if (!is_visible())
return;
if (!m_custom_cursor && m_override_cursor == cursor)
return;
WindowServerConnection::the().send_sync<Messages::WindowServer::SetWindowOverrideCursor>(m_window_id, (u32)cursor);
m_override_cursor = cursor;
m_custom_cursor = nullptr;
}
void Window::set_override_cursor(const Gfx::Bitmap& cursor)
{
if (!is_visible())
return;
if (&cursor == m_custom_cursor.ptr())
return;
m_custom_cursor = &cursor;
WindowServerConnection::the().send_sync<Messages::WindowServer::SetWindowCustomOverrideCursor>(m_window_id, m_custom_cursor->to_shareable_bitmap(WindowServerConnection::the().server_pid()));
}
void Window::handle_drop_event(DropEvent& event)
{
if (!m_main_widget)
return;
auto result = m_main_widget->hit_test(event.position());
auto local_event = make<DropEvent>(result.local_position, event.text(), event.mime_data());
ASSERT(result.widget);
return result.widget->dispatch_event(*local_event, this);
}
void Window::handle_mouse_event(MouseEvent& event)
{
if (m_global_cursor_tracking_widget) {
auto window_relative_rect = m_global_cursor_tracking_widget->window_relative_rect();
Gfx::IntPoint local_point { event.x() - window_relative_rect.x(), event.y() - window_relative_rect.y() };
auto local_event = make<MouseEvent>((Event::Type)event.type(), local_point, event.buttons(), event.button(), event.modifiers(), event.wheel_delta());
m_global_cursor_tracking_widget->dispatch_event(*local_event, this);
return;
}
if (m_automatic_cursor_tracking_widget) {
auto window_relative_rect = m_automatic_cursor_tracking_widget->window_relative_rect();
Gfx::IntPoint local_point { event.x() - window_relative_rect.x(), event.y() - window_relative_rect.y() };
auto local_event = make<MouseEvent>((Event::Type)event.type(), local_point, event.buttons(), event.button(), event.modifiers(), event.wheel_delta());
m_automatic_cursor_tracking_widget->dispatch_event(*local_event, this);
if (event.buttons() == 0)
m_automatic_cursor_tracking_widget = nullptr;
return;
}
if (!m_main_widget)
return;
auto result = m_main_widget->hit_test(event.position());
auto local_event = make<MouseEvent>((Event::Type)event.type(), result.local_position, event.buttons(), event.button(), event.modifiers(), event.wheel_delta());
ASSERT(result.widget);
set_hovered_widget(result.widget);
if (event.buttons() != 0 && !m_automatic_cursor_tracking_widget)
m_automatic_cursor_tracking_widget = result.widget->make_weak_ptr();
if (result.widget != m_global_cursor_tracking_widget.ptr())
return result.widget->dispatch_event(*local_event, this);
return;
}
void Window::handle_multi_paint_event(MultiPaintEvent& event)
{
if (!is_visible())
return;
if (!m_main_widget)
return;
auto rects = event.rects();
ASSERT(!rects.is_empty());
if (m_back_bitmap && m_back_bitmap->size() != event.window_size()) {
// Eagerly discard the backing store if we learn from this paint event that it needs to be bigger.
// Otherwise we would have to wait for a resize event to tell us. This way we don't waste the
// effort on painting into an undersized bitmap that will be thrown away anyway.
m_back_bitmap = nullptr;
}
bool created_new_backing_store = !m_back_bitmap;
if (!m_back_bitmap) {
m_back_bitmap = create_backing_bitmap(event.window_size());
ASSERT(m_back_bitmap);
} else if (m_double_buffering_enabled) {
bool still_has_pixels = m_back_bitmap->shared_buffer()->set_nonvolatile();
if (!still_has_pixels) {
m_back_bitmap = create_backing_bitmap(event.window_size());
ASSERT(m_back_bitmap);
created_new_backing_store = true;
}
}
auto rect = rects.first();
if (rect.is_empty() || created_new_backing_store) {
rects.clear();
rects.append({ {}, event.window_size() });
}
for (auto& rect : rects) {
PaintEvent paint_event(rect);
m_main_widget->dispatch_event(paint_event, this);
}
if (m_double_buffering_enabled)
flip(rects);
else if (created_new_backing_store)
set_current_backing_bitmap(*m_back_bitmap, true);
if (is_visible()) {
Vector<Gfx::IntRect> rects_to_send;
for (auto& r : rects)
rects_to_send.append(r);
WindowServerConnection::the().post_message(Messages::WindowServer::DidFinishPainting(m_window_id, rects_to_send));
}
}
void Window::handle_key_event(KeyEvent& event)
{
if (m_focused_widget)
return m_focused_widget->dispatch_event(event, this);
if (m_main_widget)
return m_main_widget->dispatch_event(event, this);
}
void Window::handle_resize_event(ResizeEvent& event)
{
auto new_size = event.size();
if (m_back_bitmap && m_back_bitmap->size() != new_size)
m_back_bitmap = nullptr;
if (!m_pending_paint_event_rects.is_empty()) {
m_pending_paint_event_rects.clear_with_capacity();
m_pending_paint_event_rects.append({ {}, new_size });
}
m_rect_when_windowless = { {}, new_size };
m_main_widget->set_relative_rect({ {}, new_size });
}
void Window::handle_input_entered_or_left_event(Core::Event& event)
{
m_is_active_input = event.type() == Event::WindowInputEntered;
if (on_active_input_change)
on_active_input_change(m_is_active_input);
if (m_main_widget)
m_main_widget->dispatch_event(event, this);
if (m_focused_widget)
m_focused_widget->update();
}
void Window::handle_became_active_or_inactive_event(Core::Event& event)
{
m_is_active = event.type() == Event::WindowBecameActive;
if (on_activity_change)
on_activity_change(m_is_active);
if (m_main_widget)
m_main_widget->dispatch_event(event, this);
if (m_focused_widget)
m_focused_widget->update();
}
void Window::handle_close_request()
{
if (on_close_request) {
if (on_close_request() == Window::CloseRequestDecision::StayOpen)
return;
}
close();
}
void Window::handle_theme_change_event(ThemeChangeEvent& event)
{
if (!m_main_widget)
return;
auto dispatch_theme_change = [&](auto& widget, auto recursive) {
widget.dispatch_event(event, this);
widget.for_each_child_widget([&](auto& widget) -> IterationDecision {
widget.dispatch_event(event, this);
recursive(widget, recursive);
return IterationDecision::Continue;
});
};
dispatch_theme_change(*m_main_widget.ptr(), dispatch_theme_change);
}
void Window::handle_drag_move_event(DragEvent& event)
{
if (!m_main_widget)
return;
auto result = m_main_widget->hit_test(event.position());
auto local_event = make<DragEvent>(static_cast<Event::Type>(event.type()), result.local_position, event.data_type());
ASSERT(result.widget);
return result.widget->dispatch_event(*local_event, this);
}
void Window::handle_left_event()
{
set_hovered_widget(nullptr);
}
void Window::event(Core::Event& event)
{
if (event.type() == Event::Drop)
return handle_drop_event(static_cast<DropEvent&>(event));
if (event.type() == Event::MouseUp || event.type() == Event::MouseDown || event.type() == Event::MouseDoubleClick || event.type() == Event::MouseMove || event.type() == Event::MouseWheel)
return handle_mouse_event(static_cast<MouseEvent&>(event));
if (event.type() == Event::MultiPaint)
return handle_multi_paint_event(static_cast<MultiPaintEvent&>(event));
if (event.type() == Event::KeyUp || event.type() == Event::KeyDown)
return handle_key_event(static_cast<KeyEvent&>(event));
if (event.type() == Event::WindowBecameActive || event.type() == Event::WindowBecameInactive)
return handle_became_active_or_inactive_event(event);
if (event.type() == Event::WindowInputEntered || event.type() == Event::WindowInputLeft)
return handle_input_entered_or_left_event(event);
if (event.type() == Event::WindowCloseRequest)
return handle_close_request();
if (event.type() == Event::WindowLeft)
return handle_left_event();
if (event.type() == Event::Resize)
return handle_resize_event(static_cast<ResizeEvent&>(event));
if (event.type() > Event::__Begin_WM_Events && event.type() < Event::__End_WM_Events)
return wm_event(static_cast<WMEvent&>(event));
if (event.type() == Event::DragMove)
return handle_drag_move_event(static_cast<DragEvent&>(event));
if (event.type() == Event::ThemeChange)
return handle_theme_change_event(static_cast<ThemeChangeEvent&>(event));
Core::Object::event(event);
}
bool Window::is_visible() const
{
return m_visible;
}
void Window::update()
{
auto rect = this->rect();
update({ 0, 0, rect.width(), rect.height() });
}
void Window::force_update()
{
if (!is_visible())
return;
auto rect = this->rect();
WindowServerConnection::the().post_message(Messages::WindowServer::InvalidateRect(m_window_id, { { 0, 0, rect.width(), rect.height() } }, true));
}
void Window::update(const Gfx::IntRect& a_rect)
{
if (!is_visible())
return;
for (auto& pending_rect : m_pending_paint_event_rects) {
if (pending_rect.contains(a_rect)) {
#ifdef UPDATE_COALESCING_DEBUG
dbgprintf("Ignoring %s since it's contained by pending rect %s\n", a_rect.to_string().characters(), pending_rect.to_string().characters());
#endif
return;
}
}
if (m_pending_paint_event_rects.is_empty()) {
deferred_invoke([this](auto&) {
auto rects = move(m_pending_paint_event_rects);
if (rects.is_empty())
return;
Vector<Gfx::IntRect> rects_to_send;
for (auto& r : rects)
rects_to_send.append(r);
WindowServerConnection::the().post_message(Messages::WindowServer::InvalidateRect(m_window_id, rects_to_send, false));
});
}
m_pending_paint_event_rects.append(a_rect);
}
void Window::set_main_widget(Widget* widget)
{
if (m_main_widget == widget)
return;
if (m_main_widget) {
m_main_widget->set_window(nullptr);
remove_child(*m_main_widget);
}
m_main_widget = widget;
if (m_main_widget) {
add_child(*widget);
auto new_window_rect = rect();
if (m_main_widget->horizontal_size_policy() == SizePolicy::Fixed)
new_window_rect.set_width(m_main_widget->preferred_size().width());
if (m_main_widget->vertical_size_policy() == SizePolicy::Fixed)
new_window_rect.set_height(m_main_widget->preferred_size().height());
set_rect(new_window_rect);
m_main_widget->set_relative_rect({ {}, new_window_rect.size() });
m_main_widget->set_window(this);
if (m_main_widget->accepts_focus())
m_main_widget->set_focus(true);
}
update();
}
void Window::set_focused_widget(Widget* widget)
{
if (m_focused_widget == widget)
return;
if (m_focused_widget) {
Core::EventLoop::current().post_event(*m_focused_widget, make<Event>(Event::FocusOut));
m_focused_widget->update();
}
m_focused_widget = widget ? widget->make_weak_ptr() : nullptr;
if (m_focused_widget) {
Core::EventLoop::current().post_event(*m_focused_widget, make<Event>(Event::FocusIn));
m_focused_widget->update();
}
}
void Window::set_global_cursor_tracking_widget(Widget* widget)
{
if (widget == m_global_cursor_tracking_widget)
return;
m_global_cursor_tracking_widget = widget ? widget->make_weak_ptr() : nullptr;
}
void Window::set_automatic_cursor_tracking_widget(Widget* widget)
{
if (widget == m_automatic_cursor_tracking_widget)
return;
m_automatic_cursor_tracking_widget = widget ? widget->make_weak_ptr() : nullptr;
}
void Window::set_has_alpha_channel(bool value)
{
if (m_has_alpha_channel == value)
return;
m_has_alpha_channel = value;
if (!is_visible())
return;
m_pending_paint_event_rects.clear();
m_back_bitmap = nullptr;
m_front_bitmap = nullptr;
WindowServerConnection::the().send_sync<Messages::WindowServer::SetWindowHasAlphaChannel>(m_window_id, value);
update();
}
void Window::set_double_buffering_enabled(bool value)
{
ASSERT(!is_visible());
m_double_buffering_enabled = value;
}
void Window::set_opacity(float opacity)
{
m_opacity_when_windowless = opacity;
if (!is_visible())
return;
WindowServerConnection::the().send_sync<Messages::WindowServer::SetWindowOpacity>(m_window_id, opacity);
}
void Window::set_hovered_widget(Widget* widget)
{
if (widget == m_hovered_widget)
return;
if (m_hovered_widget)
Core::EventLoop::current().post_event(*m_hovered_widget, make<Event>(Event::Leave));
m_hovered_widget = widget ? widget->make_weak_ptr() : nullptr;
if (m_hovered_widget)
Core::EventLoop::current().post_event(*m_hovered_widget, make<Event>(Event::Enter));
}
void Window::set_current_backing_bitmap(Gfx::Bitmap& bitmap, bool flush_immediately)
{
WindowServerConnection::the().send_sync<Messages::WindowServer::SetWindowBackingStore>(m_window_id, 32, bitmap.pitch(), bitmap.shbuf_id(), bitmap.has_alpha_channel(), bitmap.size(), flush_immediately);
}
void Window::flip(const Vector<Gfx::IntRect, 32>& dirty_rects)
{
swap(m_front_bitmap, m_back_bitmap);
set_current_backing_bitmap(*m_front_bitmap);
if (!m_back_bitmap || m_back_bitmap->size() != m_front_bitmap->size()) {
m_back_bitmap = create_backing_bitmap(m_front_bitmap->size());
ASSERT(m_back_bitmap);
memcpy(m_back_bitmap->scanline(0), m_front_bitmap->scanline(0), m_front_bitmap->size_in_bytes());
m_back_bitmap->shared_buffer()->set_volatile();
return;
}
// Copy whatever was painted from the front to the back.
Painter painter(*m_back_bitmap);
for (auto& dirty_rect : dirty_rects)
painter.blit(dirty_rect.location(), *m_front_bitmap, dirty_rect);
m_back_bitmap->shared_buffer()->set_volatile();
}
RefPtr<Gfx::Bitmap> Window::create_shared_bitmap(Gfx::BitmapFormat format, const Gfx::IntSize& size)
{
ASSERT(WindowServerConnection::the().server_pid());
ASSERT(!size.is_empty());
size_t pitch = round_up_to_power_of_two(size.width() * sizeof(Gfx::RGBA32), 16);
size_t size_in_bytes = size.height() * pitch;
auto shared_buffer = SharedBuffer::create_with_size(size_in_bytes);
ASSERT(shared_buffer);
shared_buffer->share_with(WindowServerConnection::the().server_pid());
return Gfx::Bitmap::create_with_shared_buffer(format, *shared_buffer, size);
}
RefPtr<Gfx::Bitmap> Window::create_backing_bitmap(const Gfx::IntSize& size)
{
auto format = m_has_alpha_channel ? Gfx::BitmapFormat::RGBA32 : Gfx::BitmapFormat::RGB32;
return create_shared_bitmap(format, size);
}
void Window::set_modal(bool modal)
{
ASSERT(!is_visible());
m_modal = modal;
}
void Window::wm_event(WMEvent&)
{
}
void Window::set_icon(const Gfx::Bitmap* icon)
{
if (m_icon == icon)
return;
m_icon = create_shared_bitmap(Gfx::BitmapFormat::RGBA32, icon->size());
ASSERT(m_icon);
{
Painter painter(*m_icon);
painter.blit({ 0, 0 }, *icon, icon->rect());
}
apply_icon();
}
void Window::apply_icon()
{
if (!m_icon)
return;
if (!is_visible())
return;
int rc = shbuf_seal(m_icon->shbuf_id());
ASSERT(rc == 0);
rc = shbuf_allow_all(m_icon->shbuf_id());
ASSERT(rc == 0);
static bool has_set_process_icon;
if (!has_set_process_icon)
set_process_icon(m_icon->shbuf_id());
WindowServerConnection::the().send_sync<Messages::WindowServer::SetWindowIconBitmap>(m_window_id, m_icon->to_shareable_bitmap(WindowServerConnection::the().server_pid()));
}
void Window::start_wm_resize()
{
WindowServerConnection::the().post_message(Messages::WindowServer::WM_StartWindowResize(WindowServerConnection::the().my_client_id(), m_window_id));
}
Vector<Widget*> Window::focusable_widgets() const
{
if (!m_main_widget)
return {};
Vector<Widget*> collected_widgets;
Function<void(Widget&)> collect_focusable_widgets = [&](auto& widget) {
if (widget.accepts_focus())
collected_widgets.append(&widget);
widget.for_each_child_widget([&](auto& child) {
if (!child.is_visible())
return IterationDecision::Continue;
if (!child.is_enabled())
return IterationDecision::Continue;
collect_focusable_widgets(child);
return IterationDecision::Continue;
});
};
collect_focusable_widgets(const_cast<Widget&>(*m_main_widget));
return collected_widgets;
}
void Window::save_to(AK::JsonObject& json)
{
json.set("title", title());
json.set("visible", is_visible());
json.set("active", is_active());
json.set("minimizable", is_minimizable());
json.set("resizable", is_resizable());
json.set("fullscreen", is_fullscreen());
json.set("rect", rect().to_string());
json.set("base_size", base_size().to_string());
json.set("size_increment", size_increment().to_string());
Core::Object::save_to(json);
}
void Window::set_fullscreen(bool fullscreen)
{
if (m_fullscreen == fullscreen)
return;
m_fullscreen = fullscreen;
if (!is_visible())
return;
WindowServerConnection::the().send_sync<Messages::WindowServer::SetFullscreen>(m_window_id, fullscreen);
}
bool Window::is_maximized() const
{
if (!is_visible())
return false;
return WindowServerConnection::the().send_sync<Messages::WindowServer::IsMaximized>(m_window_id)->maximized();
}
void Window::schedule_relayout()
{
if (m_layout_pending)
return;
m_layout_pending = true;
deferred_invoke([this](auto&) {
if (main_widget())
main_widget()->do_layout();
update();
m_layout_pending = false;
});
}
void Window::for_each_window(Badge<WindowServerConnection>, Function<void(Window&)> callback)
{
for (auto& e : *reified_windows) {
ASSERT(e.value);
callback(*e.value);
}
}
void Window::update_all_windows(Badge<WindowServerConnection>)
{
for (auto& e : *reified_windows) {
e.value->force_update();
}
}
void Window::notify_state_changed(Badge<WindowServerConnection>, bool minimized, bool occluded)
{
m_visible_for_timer_purposes = !minimized && !occluded;
// When double buffering is enabled, minimization/occlusion means we can mark the front bitmap volatile (in addition to the back bitmap.)
// When double buffering is disabled, there is only the back bitmap (which we can now mark volatile!)
RefPtr<Gfx::Bitmap>& bitmap = m_double_buffering_enabled ? m_front_bitmap : m_back_bitmap;
if (!bitmap)
return;
if (minimized || occluded) {
bitmap->shared_buffer()->set_volatile();
} else {
if (!bitmap->shared_buffer()->set_nonvolatile()) {
bitmap = nullptr;
update();
}
}
}
Action* Window::action_for_key_event(const KeyEvent& event)
{
Shortcut shortcut(event.modifiers(), (KeyCode)event.key());
Action* found_action = nullptr;
for_each_child_of_type<Action>([&](auto& action) {
if (action.shortcut() == shortcut) {
found_action = &action;
return IterationDecision::Break;
}
return IterationDecision::Continue;
});
return found_action;
}
void Window::set_base_size(const Gfx::IntSize& base_size)
{
if (m_base_size == base_size)
return;
m_base_size = base_size;
if (is_visible())
WindowServerConnection::the().send_sync<Messages::WindowServer::SetWindowBaseSizeAndSizeIncrement>(m_window_id, m_base_size, m_size_increment);
}
void Window::set_size_increment(const Gfx::IntSize& size_increment)
{
if (m_size_increment == size_increment)
return;
m_size_increment = size_increment;
if (is_visible())
WindowServerConnection::the().send_sync<Messages::WindowServer::SetWindowBaseSizeAndSizeIncrement>(m_window_id, m_base_size, m_size_increment);
}
void Window::did_add_widget(Badge<Widget>, Widget& widget)
{
if (!m_focused_widget && widget.accepts_focus())
set_focused_widget(&widget);
}
void Window::did_remove_widget(Badge<Widget>, Widget& widget)
{
if (m_focused_widget == &widget)
m_focused_widget = nullptr;
if (m_hovered_widget == &widget)
m_hovered_widget = nullptr;
if (m_global_cursor_tracking_widget == &widget)
m_global_cursor_tracking_widget = nullptr;
if (m_automatic_cursor_tracking_widget == &widget)
m_automatic_cursor_tracking_widget = nullptr;
}
void Window::set_progress(int progress)
{
ASSERT(m_window_id);
WindowServerConnection::the().post_message(Messages::WindowServer::SetWindowProgress(m_window_id, progress));
}
}