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serenity/Userland/Services/WindowServer/Window.cpp
Andreas Kling 5d180d1f99 Everywhere: Rename ASSERT => VERIFY 
(...and ASSERT_NOT_REACHED => VERIFY_NOT_REACHED)

Since all of these checks are done in release builds as well,
let's rename them to VERIFY to prevent confusion, as everyone is
used to assertions being compiled out in release.

We can introduce a new ASSERT macro that is specifically for debug
checks, but I'm doing this wholesale conversion first since we've
accumulated thousands of these already, and it's not immediately
obvious which ones are suitable for ASSERT.
2021-02-23 20:56:54 +01:00

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/*
* 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 "Window.h"
#include "AppletManager.h"
#include "ClientConnection.h"
#include "Compositor.h"
#include "Event.h"
#include "EventLoop.h"
#include "Screen.h"
#include "WindowManager.h"
#include <AK/Badge.h>
#include <WindowServer/WindowClientEndpoint.h>
namespace WindowServer {
const static Gfx::IntSize s_default_normal_minimum_size = { 50, 50 };
static String default_window_icon_path()
{
return "/res/icons/16x16/window.png";
}
static Gfx::Bitmap& default_window_icon()
{
static Gfx::Bitmap* s_icon;
if (!s_icon)
s_icon = Gfx::Bitmap::load_from_file(default_window_icon_path()).leak_ref();
return *s_icon;
}
static Gfx::Bitmap& minimize_icon()
{
static Gfx::Bitmap* s_icon;
if (!s_icon)
s_icon = Gfx::Bitmap::load_from_file("/res/icons/16x16/downward-triangle.png").leak_ref();
return *s_icon;
}
static Gfx::Bitmap& maximize_icon()
{
static Gfx::Bitmap* s_icon;
if (!s_icon)
s_icon = Gfx::Bitmap::load_from_file("/res/icons/16x16/upward-triangle.png").leak_ref();
return *s_icon;
}
static Gfx::Bitmap& restore_icon()
{
static Gfx::Bitmap* s_icon;
if (!s_icon)
s_icon = Gfx::Bitmap::load_from_file("/res/icons/16x16/window-restore.png").leak_ref();
return *s_icon;
}
static Gfx::Bitmap& close_icon()
{
static Gfx::Bitmap* s_icon;
if (!s_icon)
s_icon = Gfx::Bitmap::load_from_file("/res/icons/16x16/window-close.png").leak_ref();
return *s_icon;
}
Window::Window(Core::Object& parent, WindowType type)
: Core::Object(&parent)
, m_type(type)
, m_icon(default_window_icon())
, m_frame(*this)
{
// Set default minimum size for Normal windows
if (m_type == WindowType::Normal)
m_minimum_size = s_default_normal_minimum_size;
WindowManager::the().add_window(*this);
}
Window::Window(ClientConnection& client, WindowType window_type, int window_id, bool modal, bool minimizable, bool frameless, bool resizable, bool fullscreen, bool accessory, Window* parent_window)
: Core::Object(&client)
, m_client(&client)
, m_type(window_type)
, m_modal(modal)
, m_minimizable(minimizable)
, m_frameless(frameless)
, m_resizable(resizable)
, m_fullscreen(fullscreen)
, m_accessory(accessory)
, m_window_id(window_id)
, m_client_id(client.client_id())
, m_icon(default_window_icon())
, m_frame(*this)
{
// FIXME: This should not be hard-coded here.
if (m_type == WindowType::Taskbar) {
m_wm_event_mask = WMEventMask::WindowStateChanges | WMEventMask::WindowRemovals | WMEventMask::WindowIconChanges;
m_listens_to_wm_events = true;
}
// Set default minimum size for Normal windows
if (m_type == WindowType::Normal)
m_minimum_size = s_default_normal_minimum_size;
if (parent_window)
set_parent_window(*parent_window);
WindowManager::the().add_window(*this);
}
Window::~Window()
{
// Detach from client at the start of teardown since we don't want
// to confuse things by trying to send messages to it.
m_client = nullptr;
WindowManager::the().remove_window(*this);
}
void Window::destroy()
{
m_destroyed = true;
set_visible(false);
}
void Window::set_title(const String& title)
{
if (m_title == title)
return;
m_title = title;
frame().invalidate_title_bar();
WindowManager::the().notify_title_changed(*this);
}
void Window::set_rect(const Gfx::IntRect& rect)
{
VERIFY(!rect.is_empty());
if (m_rect == rect)
return;
auto old_rect = m_rect;
m_rect = rect;
if (!m_client && (!m_backing_store || old_rect.size() != rect.size())) {
m_backing_store = Gfx::Bitmap::create(Gfx::BitmapFormat::RGB32, m_rect.size());
}
invalidate(true, old_rect.size() != rect.size());
m_frame.notify_window_rect_changed(old_rect, rect); // recomputes occlusions
}
void Window::set_rect_without_repaint(const Gfx::IntRect& rect)
{
VERIFY(!rect.is_empty());
if (m_rect == rect)
return;
auto old_rect = m_rect;
m_rect = rect;
if (old_rect.size() == m_rect.size()) {
auto delta = m_rect.location() - old_rect.location();
for (auto& child_window : m_child_windows) {
if (child_window)
child_window->move_by(delta);
}
}
invalidate(true, old_rect.size() != rect.size());
m_frame.notify_window_rect_changed(old_rect, rect); // recomputes occlusions
}
bool Window::apply_minimum_size(Gfx::IntRect& rect)
{
int new_width = max(m_minimum_size.width(), rect.width());
int new_height = max(m_minimum_size.height(), rect.height());
bool did_size_clamp = new_width != rect.width() || new_height != rect.height();
rect.set_width(new_width);
rect.set_height(new_height);
return did_size_clamp;
}
void Window::nudge_into_desktop(bool force_titlebar_visible)
{
Gfx::IntRect arena = WindowManager::the().arena_rect_for_type(type());
auto min_visible = 1;
if (type() == WindowType::Normal)
min_visible = 30;
// Push the frame around such that at least `min_visible` pixels of the *frame* are in the desktop rect.
auto old_frame_rect = frame().rect();
Gfx::IntRect new_frame_rect = {
clamp(old_frame_rect.x(), arena.left() + min_visible - width(), arena.right() - min_visible),
clamp(old_frame_rect.y(), arena.top() + min_visible - height(), arena.bottom() - min_visible),
old_frame_rect.width(),
old_frame_rect.height(),
};
// Make sure that at least half of the titlebar is visible.
auto min_frame_y = arena.top() - (y() - old_frame_rect.y()) / 2;
if (force_titlebar_visible && new_frame_rect.y() < min_frame_y) {
new_frame_rect.set_y(min_frame_y);
}
// Deduce new window rect:
Gfx::IntRect new_window_rect = {
x() + new_frame_rect.x() - old_frame_rect.x(),
y() + new_frame_rect.y() - old_frame_rect.y(),
width(),
height(),
};
set_rect(new_window_rect);
}
void Window::set_minimum_size(const Gfx::IntSize& size)
{
VERIFY(!size.is_empty());
if (m_minimum_size == size)
return;
// Disallow setting minimum zero widths or heights.
if (size.width() == 0 || size.height() == 0)
return;
m_minimum_size = size;
}
void Window::handle_mouse_event(const MouseEvent& event)
{
set_automatic_cursor_tracking_enabled(event.buttons() != 0);
switch (event.type()) {
case Event::MouseMove:
m_client->post_message(Messages::WindowClient::MouseMove(m_window_id, event.position(), (u32)event.button(), event.buttons(), event.modifiers(), event.wheel_delta(), event.is_drag(), event.mime_types()));
break;
case Event::MouseDown:
m_client->post_message(Messages::WindowClient::MouseDown(m_window_id, event.position(), (u32)event.button(), event.buttons(), event.modifiers(), event.wheel_delta()));
break;
case Event::MouseDoubleClick:
m_client->post_message(Messages::WindowClient::MouseDoubleClick(m_window_id, event.position(), (u32)event.button(), event.buttons(), event.modifiers(), event.wheel_delta()));
break;
case Event::MouseUp:
m_client->post_message(Messages::WindowClient::MouseUp(m_window_id, event.position(), (u32)event.button(), event.buttons(), event.modifiers(), event.wheel_delta()));
break;
case Event::MouseWheel:
m_client->post_message(Messages::WindowClient::MouseWheel(m_window_id, event.position(), (u32)event.button(), event.buttons(), event.modifiers(), event.wheel_delta()));
break;
default:
VERIFY_NOT_REACHED();
}
}
void Window::update_menu_item_text(PopupMenuItem item)
{
if (m_window_menu) {
m_window_menu->item((int)item).set_text(item == PopupMenuItem::Minimize ? (m_minimized ? "Unminimize" : "Minimize") : (m_maximized ? "Restore" : "Maximize"));
m_window_menu->redraw();
}
}
void Window::update_menu_item_enabled(PopupMenuItem item)
{
if (m_window_menu) {
m_window_menu->item((int)item).set_enabled(item == PopupMenuItem::Minimize ? m_minimizable : m_resizable);
m_window_menu->redraw();
}
}
void Window::set_minimized(bool minimized)
{
if (m_minimized == minimized)
return;
if (minimized && !m_minimizable)
return;
m_minimized = minimized;
update_menu_item_text(PopupMenuItem::Minimize);
Compositor::the().invalidate_occlusions();
Compositor::the().invalidate_screen(frame().render_rect());
if (!blocking_modal_window())
start_minimize_animation();
if (!minimized)
request_update({ {}, size() });
WindowManager::the().notify_minimization_state_changed(*this);
}
void Window::set_minimizable(bool minimizable)
{
if (m_minimizable == minimizable)
return;
m_minimizable = minimizable;
update_menu_item_enabled(PopupMenuItem::Minimize);
// TODO: Hide/show (or alternatively change enabled state of) window minimize button dynamically depending on value of m_minimizable
}
void Window::set_taskbar_rect(const Gfx::IntRect& rect)
{
m_taskbar_rect = rect;
m_have_taskbar_rect = !m_taskbar_rect.is_empty();
}
void Window::start_minimize_animation()
{
if (!m_have_taskbar_rect) {
// If this is a modal window, it may not have its own taskbar
// button, so there is no rectangle. In that case, walk the
// modal stack until we find a window that may have one
WindowManager::the().for_each_window_in_modal_stack(*this, [&](Window& w, bool) {
if (w.has_taskbar_rect()) {
// We purposely do NOT set m_have_taskbar_rect to true here
// because we want to only copy the rectangle from the
// window that has it, but since this window wouldn't receive
// any updates down the road we want to query it again
// next time we want to start the animation
m_taskbar_rect = w.taskbar_rect();
VERIFY(!m_have_taskbar_rect); // should remain unset!
return IterationDecision::Break;
};
return IterationDecision::Continue;
});
}
m_minimize_animation_step = 0;
}
void Window::set_opacity(float opacity)
{
if (m_opacity == opacity)
return;
bool was_opaque = is_opaque();
m_opacity = opacity;
if (was_opaque != is_opaque())
Compositor::the().invalidate_occlusions();
invalidate(false);
WindowManager::the().notify_opacity_changed(*this);
}
void Window::set_has_alpha_channel(bool value)
{
if (m_has_alpha_channel == value)
return;
m_has_alpha_channel = value;
Compositor::the().invalidate_occlusions();
}
void Window::set_occluded(bool occluded)
{
if (m_occluded == occluded)
return;
m_occluded = occluded;
WindowManager::the().notify_occlusion_state_changed(*this);
}
void Window::set_maximized(bool maximized, Optional<Gfx::IntPoint> fixed_point)
{
if (m_maximized == maximized)
return;
if (maximized && (!is_resizable() || resize_aspect_ratio().has_value()))
return;
m_tiled = WindowTileType::None;
m_maximized = maximized;
update_menu_item_text(PopupMenuItem::Maximize);
if (maximized) {
m_unmaximized_rect = m_rect;
set_rect(WindowManager::the().maximized_window_rect(*this));
} else {
if (fixed_point.has_value()) {
auto new_rect = Gfx::IntRect(m_rect);
new_rect.set_size_around(m_unmaximized_rect.size(), fixed_point.value());
set_rect(new_rect);
} else {
set_rect(m_unmaximized_rect);
}
}
m_frame.did_set_maximized({}, maximized);
Core::EventLoop::current().post_event(*this, make<ResizeEvent>(m_rect));
set_default_positioned(false);
}
void Window::set_vertically_maximized()
{
if (m_maximized)
return;
if (!is_resizable() || resize_aspect_ratio().has_value())
return;
auto max_rect = WindowManager::the().maximized_window_rect(*this);
auto new_rect = Gfx::IntRect(
Gfx::IntPoint(rect().x(), max_rect.y()),
Gfx::IntSize(rect().width(), max_rect.height()));
set_rect(new_rect);
Core::EventLoop::current().post_event(*this, make<ResizeEvent>(new_rect));
}
void Window::set_resizable(bool resizable)
{
if (m_resizable == resizable)
return;
m_resizable = resizable;
update_menu_item_enabled(PopupMenuItem::Maximize);
// TODO: Hide/show (or alternatively change enabled state of) window maximize button dynamically depending on value of is_resizable()
}
void Window::event(Core::Event& event)
{
if (!m_client) {
VERIFY(parent());
event.ignore();
return;
}
if (blocking_modal_window()) {
// We still want to handle the WindowDeactivated event below when a new modal is
// created to notify its parent window, despite it being "blocked by modal window".
if (event.type() != Event::WindowDeactivated)
return;
}
if (static_cast<Event&>(event).is_mouse_event())
return handle_mouse_event(static_cast<const MouseEvent&>(event));
switch (event.type()) {
case Event::WindowEntered:
m_client->post_message(Messages::WindowClient::WindowEntered(m_window_id));
break;
case Event::WindowLeft:
m_client->post_message(Messages::WindowClient::WindowLeft(m_window_id));
break;
case Event::KeyDown:
m_client->post_message(
Messages::WindowClient::KeyDown(m_window_id,
(u32) static_cast<const KeyEvent&>(event).code_point(),
(u32) static_cast<const KeyEvent&>(event).key(),
static_cast<const KeyEvent&>(event).modifiers(),
(u32) static_cast<const KeyEvent&>(event).scancode()));
break;
case Event::KeyUp:
m_client->post_message(
Messages::WindowClient::KeyUp(m_window_id,
(u32) static_cast<const KeyEvent&>(event).code_point(),
(u32) static_cast<const KeyEvent&>(event).key(),
static_cast<const KeyEvent&>(event).modifiers(),
(u32) static_cast<const KeyEvent&>(event).scancode()));
break;
case Event::WindowActivated:
m_client->post_message(Messages::WindowClient::WindowActivated(m_window_id));
break;
case Event::WindowDeactivated:
m_client->post_message(Messages::WindowClient::WindowDeactivated(m_window_id));
break;
case Event::WindowInputEntered:
m_client->post_message(Messages::WindowClient::WindowInputEntered(m_window_id));
break;
case Event::WindowInputLeft:
m_client->post_message(Messages::WindowClient::WindowInputLeft(m_window_id));
break;
case Event::WindowCloseRequest:
m_client->post_message(Messages::WindowClient::WindowCloseRequest(m_window_id));
break;
case Event::WindowResized:
m_client->post_message(Messages::WindowClient::WindowResized(m_window_id, static_cast<const ResizeEvent&>(event).rect()));
break;
default:
break;
}
}
void Window::set_global_cursor_tracking_enabled(bool enabled)
{
m_global_cursor_tracking_enabled = enabled;
}
void Window::set_visible(bool b)
{
if (m_visible == b)
return;
m_visible = b;
Compositor::the().invalidate_occlusions();
if (m_visible)
invalidate(true);
else
Compositor::the().invalidate_screen(frame().render_rect());
}
void Window::set_frameless(bool frameless)
{
if (m_frameless == frameless)
return;
auto render_rect_before = frame().render_rect();
m_frameless = frameless;
if (m_visible) {
Compositor::the().invalidate_occlusions();
invalidate(true, true);
Compositor::the().invalidate_screen(frameless ? render_rect_before : frame().render_rect());
}
}
void Window::invalidate(bool invalidate_frame, bool re_render_frame)
{
m_invalidated = true;
m_invalidated_all = true;
if (invalidate_frame && !m_invalidated_frame) {
m_invalidated_frame = true;
}
if (re_render_frame)
frame().set_dirty(true);
m_dirty_rects.clear();
Compositor::the().invalidate_window();
}
void Window::invalidate(const Gfx::IntRect& rect, bool with_frame)
{
if (type() == WindowType::MenuApplet) {
AppletManager::the().invalidate_applet(*this, rect);
return;
}
if (invalidate_no_notify(rect, with_frame))
Compositor::the().invalidate_window();
}
bool Window::invalidate_no_notify(const Gfx::IntRect& rect, bool with_frame)
{
if (rect.is_empty())
return false;
if (m_invalidated_all) {
if (with_frame)
m_invalidated_frame |= true;
return false;
}
auto outer_rect = frame().render_rect();
auto inner_rect = rect;
inner_rect.move_by(position());
// FIXME: This seems slightly wrong; the inner rect shouldn't intersect the border part of the outer rect.
inner_rect.intersect(outer_rect);
if (inner_rect.is_empty())
return false;
m_invalidated = true;
if (with_frame)
m_invalidated_frame |= true;
m_dirty_rects.add(inner_rect.translated(-outer_rect.location()));
return true;
}
void Window::refresh_client_size()
{
client()->post_message(Messages::WindowClient::WindowResized(m_window_id, m_rect));
}
void Window::prepare_dirty_rects()
{
if (m_invalidated_all) {
if (m_invalidated_frame)
m_dirty_rects = frame().render_rect();
else
m_dirty_rects = rect();
} else {
m_dirty_rects.move_by(frame().render_rect().location());
}
}
void Window::clear_dirty_rects()
{
m_invalidated_all = false;
m_invalidated_frame = false;
m_invalidated = false;
m_dirty_rects.clear_with_capacity();
}
bool Window::is_active() const
{
return WindowManager::the().active_window() == this;
}
Window* Window::blocking_modal_window()
{
// A window is blocked if any immediate child, or any child further
// down the chain is modal
for (auto& window : m_child_windows) {
if (window && !window->is_destroyed()) {
if (window->is_modal())
return window;
if (auto* blocking_window = window->blocking_modal_window())
return blocking_window;
}
}
return nullptr;
}
void Window::set_default_icon()
{
m_icon = default_window_icon();
}
void Window::request_update(const Gfx::IntRect& rect, bool ignore_occlusion)
{
if (rect.is_empty())
return;
if (m_pending_paint_rects.is_empty()) {
deferred_invoke([this, ignore_occlusion](auto&) {
client()->post_paint_message(*this, ignore_occlusion);
});
}
m_pending_paint_rects.add(rect);
}
void Window::ensure_window_menu()
{
if (!m_window_menu) {
m_window_menu = Menu::construct(nullptr, -1, "(Window Menu)");
m_window_menu->set_window_menu_of(*this);
auto minimize_item = make<MenuItem>(*m_window_menu, 1, m_minimized ? "Unminimize" : "Minimize");
m_window_menu_minimize_item = minimize_item.ptr();
m_window_menu->add_item(move(minimize_item));
auto maximize_item = make<MenuItem>(*m_window_menu, 2, m_maximized ? "Restore" : "Maximize");
m_window_menu_maximize_item = maximize_item.ptr();
m_window_menu->add_item(move(maximize_item));
m_window_menu->add_item(make<MenuItem>(*m_window_menu, MenuItem::Type::Separator));
auto close_item = make<MenuItem>(*m_window_menu, 3, "Close");
m_window_menu_close_item = close_item.ptr();
m_window_menu_close_item->set_icon(&close_icon());
m_window_menu_close_item->set_default(true);
m_window_menu->add_item(move(close_item));
m_window_menu->item((int)PopupMenuItem::Minimize).set_enabled(m_minimizable);
m_window_menu->item((int)PopupMenuItem::Maximize).set_enabled(m_resizable);
m_window_menu->on_item_activation = [&](auto& item) {
switch (item.identifier()) {
case 1:
WindowManager::the().minimize_windows(*this, !m_minimized);
if (!m_minimized)
WindowManager::the().move_to_front_and_make_active(*this);
break;
case 2:
WindowManager::the().maximize_windows(*this, !m_maximized);
WindowManager::the().move_to_front_and_make_active(*this);
break;
case 3:
request_close();
break;
}
};
}
}
void Window::popup_window_menu(const Gfx::IntPoint& position, WindowMenuDefaultAction default_action)
{
ensure_window_menu();
if (default_action == WindowMenuDefaultAction::BasedOnWindowState) {
// When clicked on the task bar, determine the default action
if (!is_active() && !is_minimized())
default_action = WindowMenuDefaultAction::None;
else if (is_minimized())
default_action = WindowMenuDefaultAction::Unminimize;
else
default_action = WindowMenuDefaultAction::Minimize;
}
m_window_menu_minimize_item->set_default(default_action == WindowMenuDefaultAction::Minimize || default_action == WindowMenuDefaultAction::Unminimize);
m_window_menu_minimize_item->set_icon(m_minimized ? nullptr : &minimize_icon());
m_window_menu_maximize_item->set_default(default_action == WindowMenuDefaultAction::Maximize || default_action == WindowMenuDefaultAction::Restore);
m_window_menu_maximize_item->set_icon(m_maximized ? &restore_icon() : &maximize_icon());
m_window_menu_close_item->set_default(default_action == WindowMenuDefaultAction::Close);
m_window_menu->popup(position);
}
void Window::window_menu_activate_default()
{
ensure_window_menu();
m_window_menu->activate_default();
}
void Window::request_close()
{
Event close_request(Event::WindowCloseRequest);
event(close_request);
}
void Window::set_fullscreen(bool fullscreen)
{
if (m_fullscreen == fullscreen)
return;
m_fullscreen = fullscreen;
Gfx::IntRect new_window_rect = m_rect;
if (m_fullscreen) {
m_saved_nonfullscreen_rect = m_rect;
new_window_rect = Screen::the().rect();
} else if (!m_saved_nonfullscreen_rect.is_empty()) {
new_window_rect = m_saved_nonfullscreen_rect;
}
Core::EventLoop::current().post_event(*this, make<ResizeEvent>(new_window_rect));
set_rect(new_window_rect);
}
Gfx::IntRect Window::tiled_rect(WindowTileType tiled) const
{
VERIFY(tiled != WindowTileType::None);
int frame_width = (m_frame.rect().width() - m_rect.width()) / 2;
int title_bar_height = m_frame.title_bar_rect().height();
int menu_height = WindowManager::the().maximized_window_rect(*this).y();
int max_height = WindowManager::the().maximized_window_rect(*this).height();
switch (tiled) {
case WindowTileType::Left:
return Gfx::IntRect(0,
menu_height,
Screen::the().width() / 2 - frame_width,
max_height);
case WindowTileType::Right:
return Gfx::IntRect(Screen::the().width() / 2 + frame_width,
menu_height,
Screen::the().width() / 2 - frame_width,
max_height);
case WindowTileType::Top:
return Gfx::IntRect(0,
menu_height,
Screen::the().width() - frame_width,
(max_height - title_bar_height) / 2 - frame_width);
case WindowTileType::Bottom:
return Gfx::IntRect(0,
menu_height + (title_bar_height + max_height) / 2 + frame_width,
Screen::the().width() - frame_width,
(max_height - title_bar_height) / 2 - frame_width);
case WindowTileType::TopLeft:
return Gfx::IntRect(0,
menu_height,
Screen::the().width() / 2 - frame_width,
(max_height - title_bar_height) / 2 - frame_width);
case WindowTileType::TopRight:
return Gfx::IntRect(Screen::the().width() / 2 + frame_width,
menu_height,
Screen::the().width() / 2 - frame_width,
(max_height - title_bar_height) / 2 - frame_width);
case WindowTileType::BottomLeft:
return Gfx::IntRect(0,
menu_height + (title_bar_height + max_height) / 2 + frame_width,
Screen::the().width() / 2 - frame_width,
(max_height - title_bar_height) / 2);
case WindowTileType::BottomRight:
return Gfx::IntRect(Screen::the().width() / 2 + frame_width,
menu_height + (title_bar_height + max_height) / 2 + frame_width,
Screen::the().width() / 2 - frame_width,
(max_height - title_bar_height) / 2);
default:
VERIFY_NOT_REACHED();
}
}
bool Window::set_untiled(Optional<Gfx::IntPoint> fixed_point)
{
if (m_tiled == WindowTileType::None)
return false;
VERIFY(!resize_aspect_ratio().has_value());
m_tiled = WindowTileType::None;
if (fixed_point.has_value()) {
auto new_rect = Gfx::IntRect(m_rect);
new_rect.set_size_around(m_untiled_rect.size(), fixed_point.value());
set_rect(new_rect);
} else {
set_rect(m_untiled_rect);
}
Core::EventLoop::current().post_event(*this, make<ResizeEvent>(m_rect));
return true;
}
void Window::set_tiled(WindowTileType tiled)
{
VERIFY(tiled != WindowTileType::None);
if (m_tiled == tiled)
return;
if (resize_aspect_ratio().has_value())
return;
if (m_tiled == WindowTileType::None)
m_untiled_rect = m_rect;
m_tiled = tiled;
set_rect(tiled_rect(tiled));
Core::EventLoop::current().post_event(*this, make<ResizeEvent>(m_rect));
}
void Window::detach_client(Badge<ClientConnection>)
{
m_client = nullptr;
}
void Window::recalculate_rect()
{
if (!is_resizable())
return;
bool send_event = true;
if (m_tiled != WindowTileType::None) {
set_rect(tiled_rect(m_tiled));
} else if (is_maximized()) {
set_rect(WindowManager::the().maximized_window_rect(*this));
} else if (type() == WindowType::Desktop) {
set_rect(WindowManager::the().desktop_rect());
} else {
send_event = false;
}
if (send_event) {
Core::EventLoop::current().post_event(*this, make<ResizeEvent>(m_rect));
}
}
void Window::add_child_window(Window& child_window)
{
m_child_windows.append(child_window);
}
void Window::add_accessory_window(Window& accessory_window)
{
m_accessory_windows.append(accessory_window);
}
void Window::set_parent_window(Window& parent_window)
{
VERIFY(!m_parent_window);
m_parent_window = parent_window;
if (m_accessory)
parent_window.add_accessory_window(*this);
else
parent_window.add_child_window(*this);
}
bool Window::is_accessory() const
{
if (!m_accessory)
return false;
if (parent_window() != nullptr)
return true;
// If accessory window was unparented, convert to a regular window
const_cast<Window*>(this)->set_accessory(false);
return false;
}
bool Window::is_accessory_of(Window& window) const
{
if (!is_accessory())
return false;
return parent_window() == &window;
}
void Window::modal_unparented()
{
m_modal = false;
WindowManager::the().notify_modal_unparented(*this);
}
bool Window::is_modal() const
{
if (!m_modal)
return false;
if (!m_parent_window) {
const_cast<Window*>(this)->modal_unparented();
return false;
}
return true;
}
void Window::set_progress(int progress)
{
if (m_progress == progress)
return;
m_progress = progress;
WindowManager::the().notify_progress_changed(*this);
}
bool Window::is_descendant_of(Window& window) const
{
for (auto* parent = parent_window(); parent; parent = parent->parent_window()) {
if (parent == &window)
return true;
for (auto& accessory : parent->accessory_windows()) {
if (accessory == &window)
return true;
}
}
return false;
}
bool Window::hit_test(const Gfx::IntPoint& point, bool include_frame) const
{
if (!frame().rect().contains(point))
return false;
if (!rect().contains(point)) {
if (include_frame)
return frame().hit_test(point);
return false;
}
u8 threshold = alpha_hit_threshold() * 255;
if (threshold == 0 || !m_backing_store || !m_backing_store->has_alpha_channel())
return true;
auto relative_point = point.translated(-rect().location()) * m_backing_store->scale();
auto color = m_backing_store->get_pixel(relative_point);
return color.alpha() >= threshold;
}
}
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