/*
* Copyright (c) 2018-2020, Andreas Kling <kling@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Debug.h>
#include <LibGUI/HeaderView.h>
#include <LibGUI/Model.h>
#include <LibGUI/Painter.h>
#include <LibGUI/TreeView.h>
#include <LibGfx/Bitmap.h>
#include <LibGfx/Palette.h>
REGISTER_WIDGET(GUI, TreeView)
namespace GUI {
struct TreeView::MetadataForIndex {
bool open { false };
};
TreeView::MetadataForIndex& TreeView::ensure_metadata_for_index(const ModelIndex& index) const
{
VERIFY(index.is_valid());
auto it = m_view_metadata.find(index.internal_data());
if (it != m_view_metadata.end())
return *it->value;
auto new_metadata = make<MetadataForIndex>();
auto& new_metadata_ref = *new_metadata;
m_view_metadata.set(index.internal_data(), move(new_metadata));
return new_metadata_ref;
}
TreeView::TreeView()
{
set_selection_behavior(SelectionBehavior::SelectItems);
set_fill_with_background_color(true);
set_background_role(ColorRole::Base);
set_foreground_role(ColorRole::BaseText);
set_column_headers_visible(false);
m_expand_bitmap = Gfx::Bitmap::try_load_from_file("/res/icons/serenity/treeview-expand.png").release_value_but_fixme_should_propagate_errors();
m_collapse_bitmap = Gfx::Bitmap::try_load_from_file("/res/icons/serenity/treeview-collapse.png").release_value_but_fixme_should_propagate_errors();
}
TreeView::~TreeView()
{
}
ModelIndex TreeView::index_at_event_position(const Gfx::IntPoint& a_position, bool& is_toggle) const
{
auto position = a_position.translated(0, -column_header().height()).translated(horizontal_scrollbar().value() - frame_thickness(), vertical_scrollbar().value() - frame_thickness());
is_toggle = false;
if (!model())
return {};
ModelIndex result;
traverse_in_paint_order([&](const ModelIndex& index, const Gfx::IntRect& rect, const Gfx::IntRect& toggle_rect, int) {
if (toggle_rect.contains(position)) {
result = index;
is_toggle = true;
return IterationDecision::Break;
}
if (rect.contains_vertically(position.y())) {
result = index;
return IterationDecision::Break;
}
return IterationDecision::Continue;
});
return result;
}
void TreeView::doubleclick_event(MouseEvent& event)
{
if (!model())
return;
auto& model = *this->model();
bool is_toggle;
auto index = index_at_event_position(event.position(), is_toggle);
if (!index.is_valid())
return;
if (event.button() == MouseButton::Primary) {
set_cursor(index, SelectionUpdate::Set);
if (model.row_count(index))
toggle_index(index);
else
activate(index);
}
}
void TreeView::set_open_state_of_all_in_subtree(const ModelIndex& root, bool open)
{
if (root.is_valid()) {
ensure_metadata_for_index(root).open = open;
if (model()->row_count(root)) {
if (on_toggle)
on_toggle(root, open);
}
}
int row_count = model()->row_count(root);
int column = model()->tree_column();
for (int row = 0; row < row_count; ++row) {
auto index = model()->index(row, column, root);
set_open_state_of_all_in_subtree(index, open);
}
}
void TreeView::expand_all_parents_of(const ModelIndex& index)
{
if (!model())
return;
auto current = index;
while (current.is_valid()) {
ensure_metadata_for_index(current).open = true;
if (on_toggle)
on_toggle(current, true);
current = current.parent();
}
update_column_sizes();
update_content_size();
update();
}
void TreeView::expand_tree(const ModelIndex& root)
{
if (!model())
return;
set_open_state_of_all_in_subtree(root, true);
update_column_sizes();
update_content_size();
update();
}
void TreeView::collapse_tree(const ModelIndex& root)
{
if (!model())
return;
set_open_state_of_all_in_subtree(root, false);
update_column_sizes();
update_content_size();
update();
}
void TreeView::toggle_index(const ModelIndex& index)
{
VERIFY(model()->row_count(index));
auto& metadata = ensure_metadata_for_index(index);
metadata.open = !metadata.open;
if (!metadata.open && index.is_parent_of(cursor_index()))
set_cursor(index, SelectionUpdate::Set);
if (on_toggle)
on_toggle(index, metadata.open);
update_column_sizes();
update_content_size();
update();
}
template<typename Callback>
void TreeView::traverse_in_paint_order(Callback callback) const
{
VERIFY(model());
auto& model = *this->model();
auto tree_column = model.tree_column();
int indent_level = 1;
int y_offset = 0;
int tree_column_x_offset = this->tree_column_x_offset();
Function<IterationDecision(const ModelIndex&)> traverse_index = [&](const ModelIndex& index) {
int row_count_at_index = model.row_count(index);
if (index.is_valid()) {
auto& metadata = ensure_metadata_for_index(index);
int x_offset = tree_column_x_offset + horizontal_padding() + indent_level * indent_width_in_pixels();
auto node_text = index.data().to_string();
Gfx::IntRect rect = {
x_offset, y_offset,
icon_size() + icon_spacing() + text_padding() + font_for_index(index)->width(node_text) + text_padding(), row_height()
};
Gfx::IntRect toggle_rect;
if (row_count_at_index > 0) {
int toggle_x = tree_column_x_offset + horizontal_padding() + (indent_width_in_pixels() * indent_level) - (icon_size() / 2) - 4;
toggle_rect = { toggle_x, rect.y(), toggle_size(), toggle_size() };
toggle_rect.center_vertically_within(rect);
}
if (callback(index, rect, toggle_rect, indent_level) == IterationDecision::Break)
return IterationDecision::Break;
y_offset += row_height();
// NOTE: Skip traversing children if this index is closed!
if (!metadata.open)
return IterationDecision::Continue;
}
if (indent_level > 0 && !index.is_valid())
return IterationDecision::Continue;
++indent_level;
int row_count = model.row_count(index);
for (int i = 0; i < row_count; ++i) {
if (traverse_index(model.index(i, tree_column, index)) == IterationDecision::Break)
return IterationDecision::Break;
}
--indent_level;
return IterationDecision::Continue;
};
int root_count = model.row_count();
for (int root_index = 0; root_index < root_count; ++root_index) {
if (traverse_index(model.index(root_index, tree_column, ModelIndex())) == IterationDecision::Break)
break;
}
}
void TreeView::paint_event(PaintEvent& event)
{
Frame::paint_event(event);
Painter painter(*this);
painter.add_clip_rect(frame_inner_rect());
painter.add_clip_rect(event.rect());
if (fill_with_background_color())
painter.fill_rect(event.rect(), palette().color(background_role()));
if (!model())
return;
auto& model = *this->model();
painter.translate(frame_inner_rect().location());
painter.translate(-horizontal_scrollbar().value(), -vertical_scrollbar().value());
auto visible_content_rect = this->visible_content_rect();
int tree_column = model.tree_column();
int column_count = model.column_count();
int tree_column_x_offset = this->tree_column_x_offset();
int y_offset = column_header().height();
int painted_row_index = 0;
traverse_in_paint_order([&](const ModelIndex& index, const Gfx::IntRect& a_rect, const Gfx::IntRect& a_toggle_rect, int indent_level) {
if (!a_rect.intersects_vertically(visible_content_rect))
return IterationDecision::Continue;
auto rect = a_rect.translated(0, y_offset);
auto toggle_rect = a_toggle_rect.translated(0, y_offset);
if constexpr (ITEM_RECTS_DEBUG)
painter.fill_rect(rect, Color::WarmGray);
bool is_selected_row = selection().contains(index);
Color text_color = palette().color(foreground_role());
if (is_selected_row && should_fill_selected_rows())
text_color = is_focused() ? palette().selection_text() : palette().inactive_selection_text();
Color background_color;
if (is_selected_row) {
background_color = is_focused() ? palette().selection() : palette().inactive_selection();
} else {
if (alternating_row_colors() && (painted_row_index % 2)) {
background_color = Color(220, 220, 220);
} else {
background_color = palette().color(background_role());
}
}
int row_width = 0;
for (int column_index = 0; column_index < column_count; ++column_index) {
if (!column_header().is_section_visible(column_index))
continue;
row_width += this->column_width(column_index) + horizontal_padding() * 2;
}
if (frame_inner_rect().width() > row_width) {
row_width = frame_inner_rect().width();
}
Gfx::IntRect row_rect { 0, rect.y(), row_width, rect.height() };
if (!is_selected_row || should_fill_selected_rows())
painter.fill_rect(row_rect, background_color);
int x_offset = 0;
for (int column_index = 0; column_index < column_count; ++column_index) {
if (!column_header().is_section_visible(column_index))
continue;
int column_width = this->column_width(column_index);
painter.draw_rect(toggle_rect, text_color);
if (column_index != tree_column) {
Gfx::IntRect cell_rect(horizontal_padding() + x_offset, rect.y(), column_width, row_height());
auto cell_index = model.index(index.row(), column_index, index.parent());
if (auto* delegate = column_painting_delegate(column_index)) {
delegate->paint(painter, cell_rect, palette(), cell_index);
} else {
auto data = cell_index.data();
if (data.is_bitmap()) {
painter.blit(cell_rect.location(), data.as_bitmap(), data.as_bitmap().rect());
} else if (data.is_icon()) {
if (auto bitmap = data.as_icon().bitmap_for_size(16)) {
auto opacity = cell_index.data(ModelRole::IconOpacity).as_float_or(1.0f);
painter.blit(cell_rect.location(), *bitmap, bitmap->rect(), opacity);
}
} else {
auto text_alignment = cell_index.data(ModelRole::TextAlignment).to_text_alignment(Gfx::TextAlignment::CenterLeft);
draw_item_text(painter, cell_index, is_selected_row, cell_rect, data.to_string(), font_for_index(cell_index), text_alignment, Gfx::TextElision::Right);
}
}
} else {
// It's the tree column!
int indent_width = indent_width_in_pixels() * indent_level;
Gfx::IntRect icon_rect = { rect.x(), rect.y(), icon_size(), icon_size() };
Gfx::IntRect background_rect = {
icon_rect.right() + 1 + icon_spacing(), rect.y(),
min(rect.width(), column_width - indent_width) - icon_size() - icon_spacing(), rect.height()
};
Gfx::IntRect text_rect = background_rect.shrunken(text_padding() * 2, 0);
painter.fill_rect(background_rect, background_color);
auto icon = index.data(ModelRole::Icon);
if (icon.is_icon()) {
if (auto* bitmap = icon.as_icon().bitmap_for_size(icon_size())) {
if (m_hovered_index.is_valid() && m_hovered_index.parent() == index.parent() && m_hovered_index.row() == index.row()) {
painter.blit_brightened(icon_rect.location(), *bitmap, bitmap->rect());
} else {
auto opacity = index.data(ModelRole::IconOpacity).as_float_or(1.0f);
painter.blit(icon_rect.location(), *bitmap, bitmap->rect(), opacity);
}
}
}
draw_item_text(painter, index, is_selected_row, text_rect, index.data().to_string(), font_for_index(index), Gfx::TextAlignment::CenterLeft, Gfx::TextElision::Right);
if (selection_behavior() == SelectionBehavior::SelectItems && is_focused() && index == cursor_index()) {
painter.draw_rect(background_rect, palette().color(background_role()));
painter.draw_focus_rect(background_rect, palette().focus_outline());
}
auto index_at_indent = index;
for (int i = indent_level; i > 0; --i) {
auto parent_of_index_at_indent = index_at_indent.parent();
bool index_at_indent_is_last_in_parent = index_at_indent.row() == model.row_count(parent_of_index_at_indent) - 1;
Gfx::IntPoint a { tree_column_x_offset + horizontal_padding() + indent_width_in_pixels() * i - icon_size() / 2, rect.y() - 2 };
Gfx::IntPoint b { a.x(), a.y() + row_height() - 1 };
if (index_at_indent_is_last_in_parent)
b.set_y(rect.center().y());
if (!(i != indent_level && index_at_indent_is_last_in_parent))
painter.draw_line(a, b, Color::MidGray);
if (i == indent_level) {
Gfx::IntPoint c { a.x(), rect.center().y() };
Gfx::IntPoint d { c.x() + icon_size() / 2, c.y() };
painter.draw_line(c, d, Color::MidGray);
}
index_at_indent = parent_of_index_at_indent;
}
if (!toggle_rect.is_empty()) {
auto& metadata = ensure_metadata_for_index(index);
if (metadata.open)
painter.blit(toggle_rect.location(), *m_collapse_bitmap, m_collapse_bitmap->rect());
else
painter.blit(toggle_rect.location(), *m_expand_bitmap, m_expand_bitmap->rect());
}
if (has_pending_drop() && index == drop_candidate_index()) {
painter.draw_rect(rect, palette().selection(), true);
}
}
x_offset += column_width + horizontal_padding() * 2;
}
if (selection_behavior() == SelectionBehavior::SelectRows && is_focused() && index == cursor_index()) {
painter.draw_rect(row_rect, palette().color(background_role()));
painter.draw_focus_rect(row_rect, palette().focus_outline());
}
return IterationDecision::Continue;
});
}
void TreeView::scroll_into_view(const ModelIndex& a_index, bool, bool scroll_vertically)
{
if (!a_index.is_valid())
return;
Gfx::IntRect found_rect;
traverse_in_paint_order([&](const ModelIndex& index, const Gfx::IntRect& rect, const Gfx::IntRect&, int) {
if (index == a_index) {
found_rect = rect;
return IterationDecision::Break;
}
return IterationDecision::Continue;
});
AbstractScrollableWidget::scroll_into_view(found_rect, false, scroll_vertically);
}
void TreeView::model_did_update(unsigned flags)
{
m_view_metadata.clear();
AbstractTableView::model_did_update(flags);
}
void TreeView::did_update_selection()
{
AbstractView::did_update_selection();
if (!model())
return;
auto index = selection().first();
if (!index.is_valid())
return;
if (activates_on_selection())
activate(index);
}
void TreeView::keydown_event(KeyEvent& event)
{
if (!model())
return AbstractTableView::keydown_event(event);
if (event.key() == KeyCode::Key_Space) {
if (model()->row_count(cursor_index()))
toggle_index(cursor_index());
return;
}
auto open_tree_node = [&](bool open, MetadataForIndex& metadata) {
if (on_toggle)
on_toggle(cursor_index(), open);
metadata.open = open;
update_column_sizes();
update_content_size();
update();
};
if (event.key() == KeyCode::Key_Left) {
if (cursor_index().is_valid() && model()->row_count(cursor_index())) {
if (event.ctrl()) {
collapse_tree(cursor_index());
return;
}
auto& metadata = ensure_metadata_for_index(cursor_index());
if (metadata.open) {
open_tree_node(false, metadata);
return;
}
}
if (cursor_index().is_valid() && cursor_index().parent().is_valid()) {
set_cursor(cursor_index().parent(), SelectionUpdate::Set);
return;
}
}
if (event.key() == KeyCode::Key_Right) {
if (cursor_index().is_valid() && model()->row_count(cursor_index())) {
if (event.ctrl()) {
expand_tree(cursor_index());
return;
}
auto& metadata = ensure_metadata_for_index(cursor_index());
if (!metadata.open) {
open_tree_node(true, metadata);
return;
}
auto new_cursor = model()->index(0, model()->tree_column(), cursor_index());
set_cursor(new_cursor, SelectionUpdate::Set);
return;
}
}
if (event.key() == KeyCode::Key_Return) {
if (cursor_index().is_valid() && model()->row_count(cursor_index())) {
toggle_index(cursor_index());
return;
}
}
AbstractTableView::keydown_event(event);
}
void TreeView::move_cursor(CursorMovement movement, SelectionUpdate selection_update)
{
auto& model = *this->model();
if (!cursor_index().is_valid())
set_cursor(model.index(0, model.tree_column(), cursor_index()), SelectionUpdate::Set);
auto find_last_index_in_tree = [&](const ModelIndex tree_index) -> ModelIndex {
auto last_index = tree_index;
size_t row_count = model.row_count(last_index);
while (row_count > 0) {
last_index = model.index(row_count - 1, model.tree_column(), last_index);
if (last_index.is_valid()) {
if (model.row_count(last_index) == 0)
break;
auto& metadata = ensure_metadata_for_index(last_index);
if (!metadata.open)
break;
}
row_count = model.row_count(last_index);
}
return last_index;
};
auto step_up = [&](const ModelIndex current_index) -> ModelIndex {
// Traverse into parent index if we're at the top of our subtree
if (current_index.row() == 0) {
auto parent_index = current_index.parent();
if (parent_index.is_valid())
return parent_index;
return current_index;
}
// If previous index is closed, move to it immediately
auto previous_index = model.index(current_index.row() - 1, model.tree_column(), current_index.parent());
if (model.row_count(previous_index) == 0)
return previous_index;
auto& metadata = ensure_metadata_for_index(previous_index);
if (!metadata.open)
return previous_index;
// Return very last index inside of open previous index
return find_last_index_in_tree(previous_index);
};
auto step_down = [&](const ModelIndex current_index) -> ModelIndex {
if (!current_index.is_valid())
return current_index;
// Step in when node is open
if (model.row_count(current_index) > 0) {
auto& metadata = ensure_metadata_for_index(current_index);
if (metadata.open)
return model.index(0, model.tree_column(), current_index);
}
// Find the parent index in which we must step one down
auto child_index = current_index;
auto parent_index = child_index.parent();
int row_count = model.row_count(parent_index);
while (child_index.is_valid() && child_index.row() >= row_count - 1) {
child_index = parent_index;
parent_index = parent_index.parent();
row_count = model.row_count(parent_index);
}
// Step one down
if (!child_index.is_valid())
return current_index;
return model.index(child_index.row() + 1, child_index.column(), parent_index);
};
switch (movement) {
case CursorMovement::Up: {
auto new_index = step_up(cursor_index());
if (new_index.is_valid())
set_cursor(new_index, selection_update);
break;
}
case CursorMovement::Down: {
auto new_index = step_down(cursor_index());
if (new_index.is_valid())
set_cursor(new_index, selection_update);
return;
}
case CursorMovement::Home: {
ModelIndex first_index = model.index(0, model.tree_column(), ModelIndex());
if (first_index.is_valid())
set_cursor(first_index, selection_update);
return;
}
case CursorMovement::End: {
auto last_index = find_last_index_in_tree({});
if (last_index.is_valid())
set_cursor(last_index, selection_update);
return;
}
case CursorMovement::PageUp: {
const int items_per_page = visible_content_rect().height() / row_height();
auto new_index = cursor_index();
for (int step = 0; step < items_per_page; ++step)
new_index = step_up(new_index);
if (new_index.is_valid())
set_cursor(new_index, selection_update);
return;
}
case CursorMovement::PageDown: {
const int items_per_page = visible_content_rect().height() / row_height();
auto new_index = cursor_index();
for (int step = 0; step < items_per_page; ++step)
new_index = step_down(new_index);
if (new_index.is_valid())
set_cursor(new_index, selection_update);
return;
}
case CursorMovement::Left:
case CursorMovement::Right:
// There is no left/right in a treeview, those keys expand/collapse items instead.
break;
}
}
int TreeView::item_count() const
{
int count = 0;
traverse_in_paint_order([&](const ModelIndex&, const Gfx::IntRect&, const Gfx::IntRect&, int) {
++count;
return IterationDecision::Continue;
});
return count;
}
void TreeView::auto_resize_column(int column)
{
if (!model())
return;
if (!column_header().is_section_visible(column))
return;
auto& model = *this->model();
int header_width = column_header().font().width(model.column_name(column));
if (column == m_key_column && model.is_column_sortable(column))
header_width += font().width(" \xE2\xAC\x86");
int column_width = header_width;
bool is_empty = true;
traverse_in_paint_order([&](const ModelIndex& index, const Gfx::IntRect&, const Gfx::IntRect&, int indent_level) {
auto cell_data = model.index(index.row(), column, index.parent()).data();
int cell_width = 0;
if (cell_data.is_icon()) {
cell_width = cell_data.as_icon().bitmap_for_size(16)->width();
} else if (cell_data.is_bitmap()) {
cell_width = cell_data.as_bitmap().width();
} else if (cell_data.is_valid()) {
cell_width = font().width(cell_data.to_string());
}
if (is_empty && cell_width > 0)
is_empty = false;
if (column == model.tree_column())
cell_width += horizontal_padding() * 2 + indent_level * indent_width_in_pixels() + icon_size() / 2;
column_width = max(column_width, cell_width);
return IterationDecision::Continue;
});
auto default_column_width = column_header().default_section_size(column);
if (is_empty && column_header().is_default_section_size_initialized(column))
column_header().set_section_size(column, default_column_width);
else
column_header().set_section_size(column, column_width);
}
void TreeView::update_column_sizes()
{
if (!model())
return;
auto& model = *this->model();
int column_count = model.column_count();
int tree_column = model.tree_column();
for (int column = 0; column < column_count; ++column) {
if (column == tree_column)
continue;
if (!column_header().is_section_visible(column))
continue;
int header_width = column_header().font().width(model.column_name(column));
if (column == m_key_column && model.is_column_sortable(column))
header_width += font().width(" \xE2\xAC\x86");
int column_width = header_width;
traverse_in_paint_order([&](const ModelIndex& index, const Gfx::IntRect&, const Gfx::IntRect&, int) {
auto cell_data = model.index(index.row(), column, index.parent()).data();
int cell_width = 0;
if (cell_data.is_icon()) {
cell_width = cell_data.as_icon().bitmap_for_size(16)->width();
} else if (cell_data.is_bitmap()) {
cell_width = cell_data.as_bitmap().width();
} else if (cell_data.is_valid()) {
cell_width = font().width(cell_data.to_string());
}
column_width = max(column_width, cell_width);
return IterationDecision::Continue;
});
set_column_width(column, max(this->column_width(column), column_width));
}
int tree_column_header_width = column_header().font().width(model.column_name(tree_column));
if (tree_column == m_key_column && model.is_column_sortable(tree_column))
tree_column_header_width += font().width(" \xE2\xAC\x86");
int tree_column_width = tree_column_header_width;
traverse_in_paint_order([&](const ModelIndex& index, const Gfx::IntRect&, const Gfx::IntRect&, int indent_level) {
auto cell_data = model.index(index.row(), tree_column, index.parent()).data();
int cell_width = 0;
if (cell_data.is_valid()) {
cell_width = font().width(cell_data.to_string());
cell_width += horizontal_padding() * 2 + indent_level * indent_width_in_pixels() + icon_size() / 2 + text_padding() * 2;
}
tree_column_width = max(tree_column_width, cell_width);
return IterationDecision::Continue;
});
set_column_width(tree_column, tree_column_width);
}
int TreeView::tree_column_x_offset() const
{
int tree_column = model()->tree_column();
int offset = 0;
for (int i = 0; i < tree_column; ++i) {
if (column_header().is_section_visible(i)) {
offset += column_width(i);
offset += horizontal_padding() * 2;
}
}
return offset;
}
Gfx::IntRect TreeView::content_rect(ModelIndex const& index) const
{
if (!index.is_valid())
return {};
Gfx::IntRect found_rect;
traverse_in_paint_order([&](ModelIndex const& current_index, Gfx::IntRect const& rect, Gfx::IntRect const&, int) {
if (index == current_index) {
found_rect = rect;
return IterationDecision::Break;
}
return IterationDecision::Continue;
});
return found_rect;
}
int TreeView::minimum_column_width(int column)
{
if (column != model()->tree_column()) {
return 2;
}
int maximum_indent_level = 1;
traverse_in_paint_order([&](ModelIndex const&, Gfx::IntRect const&, Gfx::IntRect const&, int indent_level) {
maximum_indent_level = max(maximum_indent_level, indent_level);
return IterationDecision::Continue;
});
return indent_width_in_pixels() * maximum_indent_level + icon_size() + icon_spacing() + 2;
}
}