mirror-chatterino2/src/widgets/splits/SplitContainer.cpp
Rasmus Karlsson a2fb4ca104 reformat
2018-09-30 16:55:41 +00:00

1271 lines
38 KiB
C++

#include "widgets/splits/SplitContainer.hpp"
#include "Application.hpp"
#include "common/Common.hpp"
#include "debug/AssertInGuiThread.hpp"
#include "singletons/Theme.hpp"
#include "singletons/WindowManager.hpp"
#include "util/Helpers.hpp"
#include "util/LayoutCreator.hpp"
#include "widgets/Notebook.hpp"
#include "widgets/helper/ChannelView.hpp"
#include "widgets/helper/NotebookTab.hpp"
#include "widgets/splits/Split.hpp"
#include <QApplication>
#include <QDebug>
#include <QHBoxLayout>
#include <QJsonArray>
#include <QJsonObject>
#include <QMimeData>
#include <QObject>
#include <QPainter>
#include <QVBoxLayout>
#include <QWidget>
#include <algorithm>
#include <boost/foreach.hpp>
namespace chatterino {
bool SplitContainer::isDraggingSplit = false;
Split *SplitContainer::draggingSplit = nullptr;
SplitContainer::SplitContainer(Notebook *parent)
: BaseWidget(parent)
, overlay_(this)
, mouseOverPoint_(-10000, -10000)
, tab_(nullptr)
{
this->refreshTabTitle();
this->managedConnect(Split::modifierStatusChanged, [this](auto modifiers) {
this->layout();
if (modifiers == showResizeHandlesModifiers) {
for (auto &handle : this->resizeHandles_) {
handle->show();
handle->raise();
}
} else {
for (auto &handle : this->resizeHandles_) {
handle->hide();
}
}
if (modifiers == showSplitOverlayModifiers) {
this->setCursor(Qt::PointingHandCursor);
} else {
this->unsetCursor();
}
});
this->setCursor(Qt::PointingHandCursor);
this->setAcceptDrops(true);
this->managedConnect(this->overlay_.dragEnded, [this]() {
this->isDragging_ = false;
this->layout();
});
this->overlay_.hide();
this->setMouseTracking(true);
this->setAcceptDrops(true);
}
NotebookTab *SplitContainer::getTab() const
{
return this->tab_;
}
void SplitContainer::setTab(NotebookTab *_tab)
{
this->tab_ = _tab;
this->tab_->page = this;
this->refreshTabTitle();
}
void SplitContainer::hideResizeHandles()
{
this->overlay_.hide();
for (auto &handle : this->resizeHandles_) {
handle->hide();
}
}
void SplitContainer::resetMouseStatus()
{
this->mouseOverPoint_ = QPoint(-10000, -10000);
this->update();
}
Split *SplitContainer::appendNewSplit(bool openChannelNameDialog)
{
assertInGuiThread();
Split *split = new Split(this);
this->appendSplit(split);
if (openChannelNameDialog) {
split->showChangeChannelPopup("Open channel name", true, [=](bool ok) {
if (!ok) {
this->deleteSplit(split);
}
});
}
return split;
}
void SplitContainer::appendSplit(Split *split)
{
this->insertSplit(split, Direction::Right);
}
void SplitContainer::insertSplit(Split *split, const Position &position)
{
this->insertSplit(split, position.direction_,
reinterpret_cast<Node *>(position.relativeNode_));
}
void SplitContainer::insertSplit(Split *split, Direction direction,
Split *relativeTo)
{
Node *node = this->baseNode_.findNodeContainingSplit(relativeTo);
assert(node != nullptr);
this->insertSplit(split, direction, node);
}
void SplitContainer::insertSplit(Split *split, Direction direction,
Node *relativeTo)
{
assertInGuiThread();
split->setContainer(this);
if (relativeTo == nullptr) {
if (this->baseNode_.type_ == Node::EmptyRoot) {
this->baseNode_.setSplit(split);
} else if (this->baseNode_.type_ == Node::_Split) {
this->baseNode_.nestSplitIntoCollection(split, direction);
} else {
this->baseNode_.insertSplitRelative(split, direction);
}
} else {
assert(this->baseNode_.isOrContainsNode(relativeTo));
relativeTo->insertSplitRelative(split, direction);
}
this->addSplit(split);
}
void SplitContainer::addSplit(Split *split)
{
assertInGuiThread();
split->setParent(this);
split->show();
split->giveFocus(Qt::MouseFocusReason);
this->unsetCursor();
this->splits_.push_back(split);
this->refreshTabTitle();
split->getChannelView().tabHighlightRequested.connect(
[this](HighlightState state) {
if (this->tab_ != nullptr) {
this->tab_->setHighlightState(state);
}
});
split->focused.connect([this, split] { this->setSelected(split); });
this->layout();
}
void SplitContainer::setSelected(Split *split)
{
this->selected_ = split;
if (Node *node = this->baseNode_.findNodeContainingSplit(split)) {
this->setPreferedTargetRecursive(node);
}
}
void SplitContainer::setPreferedTargetRecursive(Node *node)
{
if (node->parent_ != nullptr) {
node->parent_->preferedFocusTarget_ = node;
this->setPreferedTargetRecursive(node->parent_);
}
}
SplitContainer::Position SplitContainer::releaseSplit(Split *split)
{
assertInGuiThread();
Node *node = this->baseNode_.findNodeContainingSplit(split);
assert(node != nullptr);
this->splits_.erase(
std::find(this->splits_.begin(), this->splits_.end(), split));
split->setParent(nullptr);
Position position = node->releaseSplit();
this->layout();
if (splits_.size() == 0) {
this->setSelected(nullptr);
this->setCursor(Qt::PointingHandCursor);
} else {
this->splits_.front()->giveFocus(Qt::MouseFocusReason);
}
this->refreshTabTitle();
// fourtf: really bad
split->getChannelView().tabHighlightRequested.disconnectAll();
split->getChannelView().tabHighlightRequested.disconnectAll();
return position;
}
SplitContainer::Position SplitContainer::deleteSplit(Split *split)
{
assertInGuiThread();
assert(split != nullptr);
split->deleteLater();
return releaseSplit(split);
}
void SplitContainer::selectNextSplit(Direction direction)
{
assertInGuiThread();
if (Node *node = this->baseNode_.findNodeContainingSplit(this->selected_)) {
this->selectSplitRecursive(node, direction);
}
}
void SplitContainer::selectSplitRecursive(Node *node, Direction direction)
{
if (node->parent_ != nullptr) {
if (node->parent_->type_ == Node::toContainerType(direction)) {
auto &siblings = node->parent_->children_;
auto it = std::find_if(
siblings.begin(), siblings.end(),
[node](const auto &other) { return other.get() == node; });
assert(it != siblings.end());
if (direction == Direction::Left || direction == Direction::Above) {
if (it == siblings.begin()) {
this->selectSplitRecursive(node->parent_, direction);
} else {
this->focusSplitRecursive(
siblings[it - siblings.begin() - 1].get(), direction);
}
} else {
if (it->get() == siblings.back().get()) {
this->selectSplitRecursive(node->parent_, direction);
} else {
this->focusSplitRecursive(
siblings[it - siblings.begin() + 1].get(), direction);
}
}
} else {
this->selectSplitRecursive(node->parent_, direction);
}
}
}
void SplitContainer::focusSplitRecursive(Node *node, Direction direction)
{
switch (node->type_) {
case Node::_Split: {
node->split_->giveFocus(Qt::OtherFocusReason);
} break;
case Node::HorizontalContainer:
case Node::VerticalContainer: {
auto &children = node->children_;
auto it = std::find_if(
children.begin(), children.end(), [node](const auto &other) {
return node->preferedFocusTarget_ == other.get();
});
if (it != children.end()) {
this->focusSplitRecursive(it->get(), direction);
} else {
this->focusSplitRecursive(node->children_.front().get(),
direction);
}
} break;
default:;
}
}
Split *SplitContainer::getTopRightSplit(Node &node)
{
switch (node.getType()) {
case Node::_Split:
return node.getSplit();
case Node::VerticalContainer:
if (!node.getChildren().empty())
return getTopRightSplit(*node.getChildren().front());
break;
case Node::HorizontalContainer:
if (!node.getChildren().empty())
return getTopRightSplit(*node.getChildren().back());
break;
default:;
}
return nullptr;
}
void SplitContainer::layout()
{
// update top right split
auto topRight = this->getTopRightSplit(this->baseNode_);
if (this->topRight_) this->topRight_->setIsTopRightSplit(false);
this->topRight_ = topRight;
if (topRight) this->topRight_->setIsTopRightSplit(true);
// layout
this->baseNode_.geometry_ = this->rect().adjusted(-1, -1, 0, 0);
std::vector<DropRect> _dropRects;
std::vector<ResizeRect> _resizeRects;
this->baseNode_.layout(
Split::modifierStatus == showAddSplitRegions || this->isDragging_,
this->getScale(), _dropRects, _resizeRects);
this->dropRects_ = _dropRects;
for (Split *split : this->splits_) {
const QRect &g = split->geometry();
Node *node = this->baseNode_.findNodeContainingSplit(split);
// left
_dropRects.push_back(
DropRect(QRect(g.left(), g.top(), g.width() / 3, g.height()),
Position(node, Direction::Left)));
// right
_dropRects.push_back(DropRect(QRect(g.right() - g.width() / 3, g.top(),
g.width() / 3, g.height()),
Position(node, Direction::Right)));
// top
_dropRects.push_back(
DropRect(QRect(g.left(), g.top(), g.width(), g.height() / 2),
Position(node, Direction::Above)));
// bottom
_dropRects.push_back(
DropRect(QRect(g.left(), g.bottom() - g.height() / 2, g.width(),
g.height() / 2),
Position(node, Direction::Below)));
}
if (this->splits_.empty()) {
QRect g = this->rect();
_dropRects.push_back(
DropRect(QRect(g.left(), g.top(), g.width() - 1, g.height() - 1),
Position(nullptr, Direction::Below)));
}
this->overlay_.setRects(std::move(_dropRects));
// handle resizeHandles
if (this->resizeHandles_.size() < _resizeRects.size()) {
while (this->resizeHandles_.size() < _resizeRects.size()) {
this->resizeHandles_.push_back(
std::make_unique<ResizeHandle>(this));
}
} else if (this->resizeHandles_.size() > _resizeRects.size()) {
this->resizeHandles_.resize(_resizeRects.size());
}
{
size_t i = 0;
for (ResizeRect &resizeRect : _resizeRects) {
ResizeHandle *handle = this->resizeHandles_[i].get();
handle->setGeometry(resizeRect.rect);
handle->setVertical(resizeRect.vertical);
handle->node = resizeRect.node;
if (Split::modifierStatus == showResizeHandlesModifiers) {
handle->show();
handle->raise();
}
i++;
}
}
// redraw
this->update();
}
void SplitContainer::resizeEvent(QResizeEvent *event)
{
BaseWidget::resizeEvent(event);
this->layout();
}
void SplitContainer::mouseReleaseEvent(QMouseEvent *event)
{
if (event->button() == Qt::LeftButton) {
if (this->splits_.size() == 0) {
// "Add Chat" was clicked
this->appendNewSplit(true);
this->mouseOverPoint_ = QPoint(-10000, -10000);
// this->setCursor(QCursor(Qt::ArrowCursor));
} else {
auto it =
std::find_if(this->dropRects_.begin(), this->dropRects_.end(),
[event](DropRect &rect) {
return rect.rect.contains(event->pos());
});
if (it != this->dropRects_.end()) {
this->insertSplit(new Split(this), it->position);
}
}
}
}
void SplitContainer::paintEvent(QPaintEvent *)
{
QPainter painter(this);
if (this->splits_.size() == 0) {
painter.fillRect(rect(), this->theme->splits.background);
painter.setPen(this->theme->splits.header.text);
QString text = "Click to add a split";
Notebook *notebook = dynamic_cast<Notebook *>(this->parentWidget());
if (notebook != nullptr) {
if (notebook->getPageCount() > 1) {
text +=
"\n\nTip: After adding a split you can hold <Ctrl+Alt> to "
"move it or split it "
"further.";
}
}
painter.drawText(rect(), text, QTextOption(Qt::AlignCenter));
} else {
if (getApp()->themes->isLightTheme()) {
painter.fillRect(rect(), QColor("#999"));
} else {
painter.fillRect(rect(), QColor("#555"));
}
}
for (DropRect &dropRect : this->dropRects_) {
QColor border = getApp()->themes->splits.dropTargetRectBorder;
QColor background = getApp()->themes->splits.dropTargetRect;
if (!dropRect.rect.contains(this->mouseOverPoint_)) {
// border.setAlphaF(0.1);
// background.setAlphaF(0.1);
} else {
// background.setAlphaF(0.1);
border.setAlpha(255);
}
painter.setPen(border);
painter.setBrush(background);
auto rect = dropRect.rect.marginsRemoved(QMargins(2, 2, 2, 2));
painter.drawRect(rect);
int s =
std::min<int>(dropRect.rect.width(), dropRect.rect.height()) - 12;
if (this->theme->isLightTheme()) {
painter.setPen(QColor(0, 0, 0));
} else {
painter.setPen(QColor(255, 255, 255));
}
painter.drawLine(rect.left() + rect.width() / 2 - (s / 2),
rect.top() + rect.height() / 2,
rect.left() + rect.width() / 2 + (s / 2),
rect.top() + rect.height() / 2);
painter.drawLine(rect.left() + rect.width() / 2,
rect.top() + rect.height() / 2 - (s / 2),
rect.left() + rect.width() / 2,
rect.top() + rect.height() / 2 + (s / 2));
}
QBrush accentColor =
(QApplication::activeWindow() == this->window()
? this->theme->tabs.selected.backgrounds.regular
: this->theme->tabs.selected.backgrounds.unfocused);
painter.fillRect(0, 0, width(), 1, accentColor);
}
void SplitContainer::dragEnterEvent(QDragEnterEvent *event)
{
if (!event->mimeData()->hasFormat("chatterino/split")) return;
if (!SplitContainer::isDraggingSplit) return;
this->isDragging_ = true;
this->layout();
this->overlay_.setGeometry(this->rect());
this->overlay_.show();
this->overlay_.raise();
}
void SplitContainer::mouseMoveEvent(QMouseEvent *event)
{
if (Split::modifierStatus == showSplitOverlayModifiers) {
this->setCursor(Qt::PointingHandCursor);
}
this->mouseOverPoint_ = event->pos();
this->update();
}
void SplitContainer::leaveEvent(QEvent *)
{
this->mouseOverPoint_ = QPoint(-10000, -10000);
this->update();
}
void SplitContainer::focusInEvent(QFocusEvent *)
{
if (this->baseNode_.findNodeContainingSplit(this->selected_) != nullptr) {
this->selected_->setFocus();
return;
}
if (this->splits_.size() != 0) {
this->splits_.front()->setFocus();
}
}
void SplitContainer::refreshTabTitle()
{
if (this->tab_ == nullptr) {
return;
}
QString newTitle = "";
bool first = true;
for (const auto &chatWidget : this->splits_) {
auto channelName = chatWidget->getChannel()->getName();
if (channelName.isEmpty()) {
continue;
}
if (!first) {
newTitle += ", ";
}
newTitle += channelName;
first = false;
}
if (newTitle.isEmpty()) {
newTitle = "empty";
}
this->tab_->setDefaultTitle(newTitle);
}
int SplitContainer::getSplitCount()
{
return 0;
}
const std::vector<Split *> SplitContainer::getSplits() const
{
return this->splits_;
}
SplitContainer::Node *SplitContainer::getBaseNode()
{
return &this->baseNode_;
}
void SplitContainer::decodeFromJson(QJsonObject &obj)
{
assert(this->baseNode_.type_ == Node::EmptyRoot);
this->decodeNodeRecusively(obj, &this->baseNode_);
}
void SplitContainer::decodeNodeRecusively(QJsonObject &obj, Node *node)
{
QString type = obj.value("type").toString();
if (type == "split") {
auto *split = new Split(this);
split->setChannel(
WindowManager::decodeChannel(obj.value("data").toObject()));
this->appendSplit(split);
} else if (type == "horizontal" || type == "vertical") {
bool vertical = type == "vertical";
Direction direction = vertical ? Direction::Below : Direction::Right;
node->type_ =
vertical ? Node::VerticalContainer : Node::HorizontalContainer;
for (QJsonValue _val : obj.value("items").toArray()) {
auto _obj = _val.toObject();
auto _type = _obj.value("type");
if (_type == "split") {
auto *split = new Split(this);
split->setChannel(WindowManager::decodeChannel(
_obj.value("data").toObject()));
Node *_node = new Node();
_node->parent_ = node;
_node->split_ = split;
_node->type_ = Node::_Split;
_node->flexH_ = _obj.value("flexh").toDouble(1.0);
_node->flexV_ = _obj.value("flexv").toDouble(1.0);
node->children_.emplace_back(_node);
this->addSplit(split);
} else {
Node *_node = new Node();
_node->parent_ = node;
node->children_.emplace_back(_node);
this->decodeNodeRecusively(_obj, _node);
}
}
for (int i = 0; i < 2; i++) {
if (node->getChildren().size() < 2) {
auto *split = new Split(this);
split->setChannel(
WindowManager::decodeChannel(obj.value("data").toObject()));
this->insertSplit(split, direction, node);
}
}
}
}
//
// Node
//
SplitContainer::Node::Type SplitContainer::Node::getType()
{
return this->type_;
}
Split *SplitContainer::Node::getSplit()
{
return this->split_;
}
SplitContainer::Node *SplitContainer::Node::getParent()
{
return this->parent_;
}
qreal SplitContainer::Node::getHorizontalFlex()
{
return this->flexH_;
}
qreal SplitContainer::Node::getVerticalFlex()
{
return this->flexV_;
}
const std::vector<std::unique_ptr<SplitContainer::Node>>
&SplitContainer::Node::getChildren()
{
return this->children_;
}
SplitContainer::Node::Node()
: type_(SplitContainer::Node::Type::EmptyRoot)
, split_(nullptr)
, parent_(nullptr)
{
}
SplitContainer::Node::Node(Split *_split, Node *_parent)
: type_(Type::_Split)
, split_(_split)
, parent_(_parent)
{
}
bool SplitContainer::Node::isOrContainsNode(SplitContainer::Node *_node)
{
if (this == _node) {
return true;
}
return std::any_of(this->children_.begin(), this->children_.end(),
[_node](std::unique_ptr<Node> &n) {
return n->isOrContainsNode(_node);
});
}
SplitContainer::Node *SplitContainer::Node::findNodeContainingSplit(
Split *_split)
{
if (this->type_ == Type::_Split && this->split_ == _split) {
return this;
}
for (std::unique_ptr<Node> &node : this->children_) {
Node *a = node->findNodeContainingSplit(_split);
if (a != nullptr) {
return a;
}
}
return nullptr;
}
void SplitContainer::Node::insertSplitRelative(Split *_split,
Direction _direction)
{
if (this->parent_ == nullptr) {
switch (this->type_) {
case Node::EmptyRoot: {
this->setSplit(_split);
} break;
case Node::_Split: {
this->nestSplitIntoCollection(_split, _direction);
} break;
case Node::HorizontalContainer: {
this->nestSplitIntoCollection(_split, _direction);
} break;
case Node::VerticalContainer: {
this->nestSplitIntoCollection(_split, _direction);
} break;
}
return;
}
// parent != nullptr
if (parent_->type_ == toContainerType(_direction)) {
// hell yeah we'll just insert it next to outselves
this->insertNextToThis(_split, _direction);
} else {
this->nestSplitIntoCollection(_split, _direction);
}
}
void SplitContainer::Node::nestSplitIntoCollection(Split *_split,
Direction _direction)
{
if (toContainerType(_direction) == this->type_) {
this->children_.emplace_back(new Node(_split, this));
} else {
// we'll need to nest outselves
// move all our data into a new node
Node *clone = new Node();
clone->type_ = this->type_;
clone->children_ = std::move(this->children_);
for (std::unique_ptr<Node> &node : clone->children_) {
node->parent_ = clone;
}
clone->split_ = this->split_;
clone->parent_ = this;
// add the node to our children and change our type
this->children_.push_back(std::unique_ptr<Node>(clone));
this->type_ = toContainerType(_direction);
this->split_ = nullptr;
clone->insertNextToThis(_split, _direction);
}
}
void SplitContainer::Node::insertNextToThis(Split *_split, Direction _direction)
{
auto &siblings = this->parent_->children_;
qreal width = this->parent_->geometry_.width() / siblings.size();
qreal height = this->parent_->geometry_.height() / siblings.size();
if (siblings.size() == 1) {
this->geometry_ = QRect(0, 0, int(width), int(height));
}
auto it = std::find_if(siblings.begin(), siblings.end(),
[this](auto &node) { return this == node.get(); });
assert(it != siblings.end());
if (_direction == Direction::Right || _direction == Direction::Below) {
it++;
}
Node *node = new Node(_split, this->parent_);
node->geometry_ = QRectF(0, 0, width, height);
siblings.insert(it, std::unique_ptr<Node>(node));
}
void SplitContainer::Node::setSplit(Split *_split)
{
assert(this->split_ == nullptr);
assert(this->children_.size() == 0);
this->split_ = _split;
this->type_ = Type::_Split;
}
SplitContainer::Position SplitContainer::Node::releaseSplit()
{
assert(this->type_ == Type::_Split);
if (parent_ == nullptr) {
this->type_ = Type::EmptyRoot;
this->split_ = nullptr;
Position pos;
pos.relativeNode_ = nullptr;
pos.direction_ = Direction::Right;
return pos;
} else {
auto &siblings = this->parent_->children_;
auto it =
std::find_if(begin(siblings), end(siblings),
[this](auto &node) { return this == node.get(); });
assert(it != siblings.end());
Position position;
if (siblings.size() == 2) {
// delete this and move split to parent
position.relativeNode_ = this->parent_;
if (this->parent_->type_ == Type::VerticalContainer) {
position.direction_ = siblings.begin() == it ? Direction::Above
: Direction::Below;
} else {
position.direction_ =
siblings.begin() == it ? Direction::Left : Direction::Right;
}
Node *_parent = this->parent_;
siblings.erase(it);
std::unique_ptr<Node> &sibling = siblings.front();
_parent->type_ = sibling->type_;
_parent->split_ = sibling->split_;
std::vector<std::unique_ptr<Node>> nodes =
std::move(sibling->children_);
for (auto &node : nodes) {
node->parent_ = _parent;
}
_parent->children_ = std::move(nodes);
} else {
if (this == siblings.back().get()) {
position.direction_ =
this->parent_->type_ == Type::VerticalContainer
? Direction::Below
: Direction::Right;
siblings.erase(it);
position.relativeNode_ = siblings.back().get();
} else {
position.relativeNode_ = (it + 1)->get();
position.direction_ =
this->parent_->type_ == Type::VerticalContainer
? Direction::Above
: Direction::Left;
siblings.erase(it);
}
}
return position;
}
}
qreal SplitContainer::Node::getFlex(bool isVertical)
{
return isVertical ? this->flexV_ : this->flexH_;
}
qreal SplitContainer::Node::getSize(bool isVertical)
{
return isVertical ? this->geometry_.height() : this->geometry_.width();
}
qreal SplitContainer::Node::getChildrensTotalFlex(bool isVertical)
{
return std::accumulate(this->children_.begin(), this->children_.end(),
qreal(0),
[=](qreal val, std::unique_ptr<Node> &node) {
return val + node->getFlex(isVertical);
});
}
void SplitContainer::Node::layout(bool addSpacing, float _scale,
std::vector<DropRect> &dropRects,
std::vector<ResizeRect> &resizeRects)
{
for (std::unique_ptr<Node> &node : this->children_) {
if (node->flexH_ <= 0) node->flexH_ = 0;
if (node->flexV_ <= 0) node->flexV_ = 0;
}
switch (this->type_) {
case Node::_Split: {
QRect rect = this->geometry_.toRect();
this->split_->setGeometry(
rect.marginsRemoved(QMargins(1, 1, 0, 0)));
} break;
case Node::VerticalContainer:
case Node::HorizontalContainer: {
bool isVertical = this->type_ == Node::VerticalContainer;
// vars
qreal minSize = qreal(48 * _scale);
qreal totalFlex = this->getChildrensTotalFlex(isVertical);
qreal totalSize = std::accumulate(
this->children_.begin(), this->children_.end(), qreal(0),
[=](int val, std::unique_ptr<Node> &node) {
return val + std::max<qreal>(this->getSize(isVertical) /
totalFlex *
node->getFlex(isVertical),
minSize);
});
qreal sizeMultiplier = this->getSize(isVertical) / totalSize;
QRectF childRect = this->geometry_;
// add spacing if reqested
if (addSpacing) {
qreal offset = std::min<qreal>(this->getSize(!isVertical) * 0.1,
qreal(_scale * 24));
// droprect left / above
dropRects.emplace_back(
QRectF(this->geometry_.left(), this->geometry_.top(),
isVertical ? offset : this->geometry_.width(),
isVertical ? this->geometry_.height() : offset)
.toRect(),
Position(this,
isVertical ? Direction::Left : Direction::Above));
// droprect right / below
if (isVertical) {
dropRects.emplace_back(
QRectF(this->geometry_.right() - offset,
this->geometry_.top(), offset,
this->geometry_.height())
.toRect(),
Position(this, Direction::Right));
} else {
dropRects.emplace_back(
QRectF(this->geometry_.left(),
this->geometry_.bottom() - offset,
this->geometry_.width(), offset)
.toRect(),
Position(this, Direction::Below));
}
// shrink childRect
if (isVertical) {
childRect.setLeft(childRect.left() + offset);
childRect.setRight(childRect.right() - offset);
} else {
childRect.setTop(childRect.top() + offset);
childRect.setBottom(childRect.bottom() - offset);
}
}
// iterate children
auto pos = int(isVertical ? childRect.top() : childRect.left());
for (std::unique_ptr<Node> &child : this->children_) {
// set rect
QRect rect = childRect.toRect();
if (isVertical) {
rect.setTop(pos);
rect.setHeight(
std::max<qreal>(this->geometry_.height() / totalFlex *
child->flexV_,
minSize) *
sizeMultiplier);
} else {
rect.setLeft(pos);
rect.setWidth(std::max<qreal>(this->geometry_.width() /
totalFlex * child->flexH_,
minSize) *
sizeMultiplier);
}
if (child == this->children_.back()) {
rect.setRight(childRect.right() - 1);
rect.setBottom(childRect.bottom() - 1);
}
child->geometry_ = rect;
child->layout(addSpacing, _scale, dropRects, resizeRects);
pos += child->getSize(isVertical);
// add resize rect
if (child != this->children_.front()) {
QRectF r = isVertical ? QRectF(this->geometry_.left(),
child->geometry_.top() - 4,
this->geometry_.width(), 8)
: QRectF(child->geometry_.left() - 4,
this->geometry_.top(), 8,
this->geometry_.height());
resizeRects.push_back(
ResizeRect(r.toRect(), child.get(), isVertical));
}
// normalize flex
if (isVertical) {
child->flexV_ =
child->flexV_ / totalFlex * this->children_.size();
child->flexH_ = 1;
} else {
child->flexH_ =
child->flexH_ / totalFlex * this->children_.size();
child->flexV_ = 1;
}
}
} break;
};
}
SplitContainer::Node::Type SplitContainer::Node::toContainerType(Direction _dir)
{
return _dir == Direction::Left || _dir == Direction::Right
? Type::HorizontalContainer
: Type::VerticalContainer;
}
//
// DropOverlay
//
SplitContainer::DropOverlay::DropOverlay(SplitContainer *_parent)
: QWidget(_parent)
, mouseOverPoint_(-10000, -10000)
, parent_(_parent)
{
this->setMouseTracking(true);
this->setAcceptDrops(true);
}
void SplitContainer::DropOverlay::setRects(
std::vector<SplitContainer::DropRect> _rects)
{
this->rects_ = std::move(_rects);
}
// pajlada::Signals::NoArgSignal dragEnded;
void SplitContainer::DropOverlay::paintEvent(QPaintEvent *)
{
QPainter painter(this);
// painter.fillRect(this->rect(), QColor("#334"));
bool foundMover = false;
for (DropRect &rect : this->rects_) {
if (!foundMover && rect.rect.contains(this->mouseOverPoint_)) {
painter.setBrush(getApp()->themes->splits.dropPreview);
painter.setPen(getApp()->themes->splits.dropPreviewBorder);
foundMover = true;
} else {
painter.setBrush(QColor(0, 0, 0, 0));
painter.setPen(QColor(0, 0, 0, 0));
// painter.setPen(getApp()->themes->splits.dropPreviewBorder);
}
painter.drawRect(rect.rect);
}
}
void SplitContainer::DropOverlay::dragEnterEvent(QDragEnterEvent *event)
{
event->acceptProposedAction();
}
void SplitContainer::DropOverlay::dragMoveEvent(QDragMoveEvent *event)
{
event->acceptProposedAction();
this->mouseOverPoint_ = event->pos();
this->update();
}
void SplitContainer::DropOverlay::dragLeaveEvent(QDragLeaveEvent *)
{
this->mouseOverPoint_ = QPoint(-10000, -10000);
this->close();
this->dragEnded.invoke();
}
void SplitContainer::DropOverlay::dropEvent(QDropEvent *event)
{
Position *position = nullptr;
for (DropRect &rect : this->rects_) {
if (rect.rect.contains(this->mouseOverPoint_)) {
position = &rect.position;
break;
}
}
if (position != nullptr) {
this->parent_->insertSplit(SplitContainer::draggingSplit, *position);
event->acceptProposedAction();
}
this->mouseOverPoint_ = QPoint(-10000, -10000);
this->close();
this->dragEnded.invoke();
}
//
// ResizeHandle
//
void SplitContainer::ResizeHandle::setVertical(bool isVertical)
{
this->setCursor(isVertical ? Qt::SplitVCursor : Qt::SplitHCursor);
this->vertical_ = isVertical;
}
SplitContainer::ResizeHandle::ResizeHandle(SplitContainer *_parent)
: QWidget(_parent)
, parent(_parent)
{
this->setMouseTracking(true);
this->hide();
}
void SplitContainer::ResizeHandle::paintEvent(QPaintEvent *)
{
QPainter painter(this);
painter.setPen(QPen(getApp()->themes->splits.resizeHandle, 2));
painter.fillRect(this->rect(),
getApp()->themes->splits.resizeHandleBackground);
if (this->vertical_) {
painter.drawLine(0, this->height() / 2, this->width(),
this->height() / 2);
} else {
painter.drawLine(this->width() / 2, 0, this->width() / 2,
this->height());
}
}
void SplitContainer::ResizeHandle::mousePressEvent(QMouseEvent *event)
{
this->isMouseDown_ = true;
if (event->button() == Qt::RightButton) {
this->resetFlex();
}
}
void SplitContainer::ResizeHandle::mouseReleaseEvent(QMouseEvent *)
{
this->isMouseDown_ = false;
}
void SplitContainer::ResizeHandle::mouseMoveEvent(QMouseEvent *event)
{
if (!this->isMouseDown_) {
return;
}
assert(node != nullptr);
assert(node->parent_ != nullptr);
auto &siblings = node->parent_->getChildren();
auto it = std::find_if(siblings.begin(), siblings.end(),
[this](const std::unique_ptr<Node> &n) {
return n.get() == this->node;
});
assert(it != siblings.end());
Node *before = siblings[it - siblings.begin() - 1].get();
QPoint topLeft =
this->parent->mapToGlobal(before->geometry_.topLeft().toPoint());
QPoint bottomRight = this->parent->mapToGlobal(
this->node->geometry_.bottomRight().toPoint());
int globalX = topLeft.x() > event->globalX()
? topLeft.x()
: (bottomRight.x() < event->globalX() ? bottomRight.x()
: event->globalX());
int globalY = topLeft.y() > event->globalY()
? topLeft.y()
: (bottomRight.y() < event->globalY() ? bottomRight.y()
: event->globalY());
QPoint mousePoint(globalX, globalY);
if (this->vertical_) {
qreal totalFlexV = this->node->flexV_ + before->flexV_;
before->flexV_ = totalFlexV * (mousePoint.y() - topLeft.y()) /
(bottomRight.y() - topLeft.y());
this->node->flexV_ = totalFlexV - before->flexV_;
this->parent->layout();
// move handle
this->move(this->x(), int(before->geometry_.bottom() - 4));
} else {
qreal totalFlexH = this->node->flexH_ + before->flexH_;
before->flexH_ = totalFlexH * (mousePoint.x() - topLeft.x()) /
(bottomRight.x() - topLeft.x());
this->node->flexH_ = totalFlexH - before->flexH_;
this->parent->layout();
// move handle
this->move(int(before->geometry_.right() - 4), this->y());
}
}
void SplitContainer::ResizeHandle::mouseDoubleClickEvent(QMouseEvent *event)
{
event->accept();
this->resetFlex();
}
void SplitContainer::ResizeHandle::resetFlex()
{
for (auto &sibling : this->node->getParent()->getChildren()) {
sibling->flexH_ = 1;
sibling->flexV_ = 1;
}
this->parent->layout();
}
} // namespace chatterino