/* * Copyright (c) 2018-2020, Andreas Kling * 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 #include #include #include #include #include #include #include #include //#define DRAGDROP_DEBUG namespace GUI { IconView::IconView() { set_fill_with_background_color(true); set_background_role(ColorRole::Base); set_foreground_role(ColorRole::BaseText); horizontal_scrollbar().set_visible(false); } IconView::~IconView() { } void IconView::select_all() { for (int item_index = 0; item_index < item_count(); ++item_index) { auto& item_data = m_item_data_cache[item_index]; if (!item_data.selected) { if (item_data.is_valid()) add_selection(item_data); else add_selection(model()->index(item_index, model_column())); } } } void IconView::scroll_into_view(const ModelIndex& index, bool scroll_horizontally, bool scroll_vertically) { if (!index.is_valid()) return; ScrollableWidget::scroll_into_view(item_rect(index.row()), scroll_horizontally, scroll_vertically); } void IconView::resize_event(ResizeEvent& event) { AbstractView::resize_event(event); update_content_size(); } void IconView::reinit_item_cache() const { auto prev_item_count = m_item_data_cache.size(); size_t new_item_count = item_count(); auto items_to_invalidate = min(prev_item_count, new_item_count); // if the new number of items is less, check if any of the // ones not in the list anymore was selected for (size_t i = new_item_count; i < m_item_data_cache.size(); i++) { auto& item_data = m_item_data_cache[i]; if (item_data.selected) { ASSERT(m_selected_count_cache > 0); m_selected_count_cache--; } } if ((size_t)m_first_selected_hint >= new_item_count) m_first_selected_hint = 0; m_item_data_cache.resize(new_item_count); for (size_t i = 0; i < items_to_invalidate; i++) { auto& item_data = m_item_data_cache[i]; // TODO: It's unfortunate that we have no way to know whether any // data actually changed, so we have to invalidate *everyone* if (item_data.is_valid() /* && !model()->is_valid(item_data.index)*/) item_data.invalidate(); if (item_data.selected && i < (size_t)m_first_selected_hint) m_first_selected_hint = (int)i; } m_item_data_cache_valid = true; } auto IconView::get_item_data(int item_index) const -> ItemData& { if (!m_item_data_cache_valid) reinit_item_cache(); auto& item_data = m_item_data_cache[item_index]; if (item_data.is_valid()) return item_data; item_data.index = model()->index(item_index, model_column()); item_data.text = item_data.index.data().to_string(); get_item_rects(item_index, item_data, font_for_index(item_data.index)); item_data.valid = true; return item_data; } auto IconView::item_data_from_content_position(const Gfx::IntPoint& content_position) const -> ItemData* { if (!m_visual_row_count || !m_visual_column_count) return nullptr; int row, column; column_row_from_content_position(content_position, row, column); int item_index = (m_flow_direction == FlowDirection::LeftToRight) ? row * m_visual_column_count + column : column * m_visual_row_count + row; if (item_index < 0 || item_index >= item_count()) return nullptr; return &get_item_data(item_index); } void IconView::model_did_update(unsigned flags) { AbstractView::model_did_update(flags); if (!model() || (flags & GUI::Model::InvalidateAllIndexes)) { m_item_data_cache.clear(); AbstractView::clear_selection(); m_selected_count_cache = 0; m_first_selected_hint = 0; } m_item_data_cache_valid = false; update_content_size(); update(); } void IconView::update_content_size() { if (!model()) return set_content_size({}); int content_width; int content_height; if (m_flow_direction == FlowDirection::LeftToRight) { m_visual_column_count = max(1, available_size().width() / effective_item_size().width()); if (m_visual_column_count) m_visual_row_count = ceil_div(model()->row_count(), m_visual_column_count); else m_visual_row_count = 0; content_width = available_size().width(); content_height = m_visual_row_count * effective_item_size().height(); } else { m_visual_row_count = max(1, available_size().height() / effective_item_size().height()); if (m_visual_row_count) m_visual_column_count = ceil_div(model()->row_count(), m_visual_row_count); else m_visual_column_count = 0; content_width = m_visual_column_count * effective_item_size().width(); content_height = available_size().height(); } set_content_size({ content_width, content_height }); if (!m_item_data_cache_valid) reinit_item_cache(); for (int item_index = 0; item_index < item_count(); item_index++) { auto& item_data = m_item_data_cache[item_index]; if (item_data.is_valid()) update_item_rects(item_index, item_data); } } Gfx::IntRect IconView::item_rect(int item_index) const { if (!m_visual_row_count || !m_visual_column_count) return {}; int visual_row_index; int visual_column_index; if (m_flow_direction == FlowDirection::LeftToRight) { visual_row_index = item_index / m_visual_column_count; visual_column_index = item_index % m_visual_column_count; } else { visual_row_index = item_index % m_visual_row_count; visual_column_index = item_index / m_visual_row_count; } return { visual_column_index * effective_item_size().width(), visual_row_index * effective_item_size().height(), effective_item_size().width(), effective_item_size().height() }; } ModelIndex IconView::index_at_event_position(const Gfx::IntPoint& position) const { ASSERT(model()); auto adjusted_position = to_content_position(position); if (auto item_data = item_data_from_content_position(adjusted_position)) { if (item_data->is_containing(adjusted_position)) return item_data->index; } return {}; } void IconView::mousedown_event(MouseEvent& event) { if (!model()) return AbstractView::mousedown_event(event); if (event.button() != MouseButton::Left) return AbstractView::mousedown_event(event); auto index = index_at_event_position(event.position()); if (index.is_valid()) { // We might start dragging this item, but not rubber-banding. return AbstractView::mousedown_event(event); } if (event.modifiers() & Mod_Ctrl) { m_rubber_banding_store_selection = true; } else { clear_selection(); m_rubber_banding_store_selection = false; } auto adjusted_position = to_content_position(event.position()); m_might_drag = false; if (selection_mode() == SelectionMode::MultiSelection) { m_rubber_banding = true; m_rubber_band_origin = adjusted_position; m_rubber_band_current = adjusted_position; } } void IconView::mouseup_event(MouseEvent& event) { if (m_rubber_banding && event.button() == MouseButton::Left) { m_rubber_banding = false; if (m_out_of_view_timer) m_out_of_view_timer->stop(); update(); } AbstractView::mouseup_event(event); } void IconView::drag_move_event(DragEvent& event) { auto index = index_at_event_position(event.position()); ModelIndex new_drop_candidate_index; if (index.is_valid()) { bool acceptable = model()->accepts_drag(index, event.data_type()); #ifdef DRAGDROP_DEBUG dbg() << "Drag of type '" << event.data_type() << "' moving over " << index << ", acceptable: " << acceptable; #endif if (acceptable) new_drop_candidate_index = index; } if (m_drop_candidate_index != new_drop_candidate_index) { m_drop_candidate_index = new_drop_candidate_index; update(); } event.accept(); } bool IconView::update_rubber_banding(const Gfx::IntPoint& position) { auto adjusted_position = to_content_position(position); if (m_rubber_band_current != adjusted_position) { auto prev_rect = Gfx::IntRect::from_two_points(m_rubber_band_origin, m_rubber_band_current); m_rubber_band_current = adjusted_position; auto rubber_band_rect = Gfx::IntRect::from_two_points(m_rubber_band_origin, m_rubber_band_current); // If the rectangle width or height is 0, we still want to be able // to match the items in the path. An easy work-around for this // is to simply set the width or height to 1 auto ensure_rect = [](Gfx::IntRect& rect) { if (rect.width() <= 0) rect.set_width(1); if (rect.height() <= 0) rect.set_height(1); }; ensure_rect(prev_rect); ensure_rect(rubber_band_rect); // Clearing the entire selection every time is very expensive, // determine what items may need to be deselected and what new // items may need to be selected. Avoid a ton of allocations. auto deselect_area = prev_rect.shatter(rubber_band_rect); auto select_area = rubber_band_rect.shatter(prev_rect); // Initialize all candidate's toggle flag. We need to know which // items we touched because the various rectangles likely will // contain the same item more than once for_each_item_intersecting_rects(deselect_area, [](ItemData& item_data) -> IterationDecision { item_data.selection_toggled = false; return IterationDecision::Continue; }); for_each_item_intersecting_rects(select_area, [](ItemData& item_data) -> IterationDecision { item_data.selection_toggled = false; return IterationDecision::Continue; }); // Now toggle all items that are no longer in the selected area, once only for_each_item_intersecting_rects(deselect_area, [&](ItemData& item_data) -> IterationDecision { if (!item_data.selection_toggled && item_data.is_intersecting(prev_rect) && !item_data.is_intersecting(rubber_band_rect)) { item_data.selection_toggled = true; toggle_selection(item_data); } return IterationDecision::Continue; }); // Now toggle all items that are in the new selected area, once only for_each_item_intersecting_rects(select_area, [&](ItemData& item_data) -> IterationDecision { if (!item_data.selection_toggled && !item_data.is_intersecting(prev_rect) && item_data.is_intersecting(rubber_band_rect)) { item_data.selection_toggled = true; toggle_selection(item_data); } return IterationDecision::Continue; }); update(); return true; } return false; } #define SCROLL_OUT_OF_VIEW_HOT_MARGIN 20 void IconView::mousemove_event(MouseEvent& event) { if (!model()) return AbstractView::mousemove_event(event); if (m_rubber_banding) { auto in_view_rect = widget_inner_rect(); in_view_rect.shrink(SCROLL_OUT_OF_VIEW_HOT_MARGIN, SCROLL_OUT_OF_VIEW_HOT_MARGIN); if (!in_view_rect.contains(event.position())) { if (!m_out_of_view_timer) { m_out_of_view_timer = add(); m_out_of_view_timer->set_interval(100); m_out_of_view_timer->on_timeout = [this] { scroll_out_of_view_timer_fired(); }; } m_out_of_view_position = event.position(); if (!m_out_of_view_timer->is_active()) m_out_of_view_timer->start(); } else { if (m_out_of_view_timer) m_out_of_view_timer->stop(); } if (update_rubber_banding(event.position())) return; } AbstractView::mousemove_event(event); } void IconView::scroll_out_of_view_timer_fired() { auto scroll_to = to_content_position(m_out_of_view_position); // Adjust the scroll-to position by SCROLL_OUT_OF_VIEW_HOT_MARGIN / 2 // depending on which direction we're scrolling. This allows us to // start scrolling before we actually leave the visible area, which // is important when there is no space to further move the mouse. The // speed of scrolling is determined by the distance between the mouse // pointer and the widget's inner rect shrunken by the hot margin auto in_view_rect = widget_inner_rect().shrunken(SCROLL_OUT_OF_VIEW_HOT_MARGIN, SCROLL_OUT_OF_VIEW_HOT_MARGIN); int adjust_x = 0, adjust_y = 0; if (m_out_of_view_position.y() > in_view_rect.bottom()) adjust_y = (SCROLL_OUT_OF_VIEW_HOT_MARGIN / 2) + min(SCROLL_OUT_OF_VIEW_HOT_MARGIN, m_out_of_view_position.y() - in_view_rect.bottom()); else if (m_out_of_view_position.y() < in_view_rect.top()) adjust_y = -(SCROLL_OUT_OF_VIEW_HOT_MARGIN / 2) + max(-SCROLL_OUT_OF_VIEW_HOT_MARGIN, m_out_of_view_position.y() - in_view_rect.top()); if (m_out_of_view_position.x() > in_view_rect.right()) adjust_x = (SCROLL_OUT_OF_VIEW_HOT_MARGIN / 2) + min(SCROLL_OUT_OF_VIEW_HOT_MARGIN, m_out_of_view_position.x() - in_view_rect.right()); else if (m_out_of_view_position.x() < in_view_rect.left()) adjust_x = -(SCROLL_OUT_OF_VIEW_HOT_MARGIN / 2) + max(-SCROLL_OUT_OF_VIEW_HOT_MARGIN, m_out_of_view_position.x() - in_view_rect.left()); ScrollableWidget::scroll_into_view({ scroll_to.translated(adjust_x, adjust_y), { 1, 1 } }, true, true); update_rubber_banding(m_out_of_view_position); } void IconView::update_item_rects(int item_index, ItemData& item_data) const { auto item_rect = this->item_rect(item_index); item_data.icon_rect.center_within(item_rect); item_data.icon_rect.move_by(0, item_data.icon_offset_y); item_data.text_rect.center_horizontally_within(item_rect); item_data.text_rect.set_top(item_rect.y() + item_data.text_offset_y); } Gfx::IntRect IconView::content_rect(const ModelIndex& index) const { if (!index.is_valid()) return {}; auto& item_data = get_item_data(index.row()); return item_data.text_rect.inflated(4, 4); } void IconView::did_change_hovered_index(const ModelIndex& old_index, const ModelIndex& new_index) { AbstractView::did_change_hovered_index(old_index, new_index); if (old_index.is_valid()) get_item_rects(old_index.row(), get_item_data(old_index.row()), font_for_index(old_index)); if (new_index.is_valid()) get_item_rects(new_index.row(), get_item_data(new_index.row()), font_for_index(new_index)); } void IconView::did_change_cursor_index(const ModelIndex& old_index, const ModelIndex& new_index) { AbstractView::did_change_cursor_index(old_index, new_index); if (old_index.is_valid()) get_item_rects(old_index.row(), get_item_data(old_index.row()), font_for_index(old_index)); if (new_index.is_valid()) get_item_rects(new_index.row(), get_item_data(new_index.row()), font_for_index(new_index)); } void IconView::get_item_rects(int item_index, ItemData& item_data, const Gfx::Font& font) const { auto item_rect = this->item_rect(item_index); item_data.icon_rect = { 0, 0, 32, 32 }; item_data.icon_rect.center_within(item_rect); item_data.icon_offset_y = -font.glyph_height() - 6; item_data.icon_rect.move_by(0, item_data.icon_offset_y); int unwrapped_text_width = font.width(item_data.text); int available_width = item_rect.width() - 6; item_data.text_rect = { 0, item_data.icon_rect.bottom() + 6 + 1, 0, font.glyph_height() }; item_data.wrapped_text_lines.clear(); if ((unwrapped_text_width > available_width) && (item_data.selected || m_hovered_index == item_data.index || cursor_index() == item_data.index)) { int current_line_width = 0; int current_line_start = 0; int widest_line_width = 0; Utf8View utf8_view(item_data.text); auto it = utf8_view.begin(); for (; it != utf8_view.end(); ++it) { auto codepoint = *it; auto glyph_width = font.glyph_width(codepoint); if ((current_line_width + glyph_width + font.glyph_spacing()) > available_width) { item_data.wrapped_text_lines.append(item_data.text.substring_view(current_line_start, utf8_view.byte_offset_of(it) - current_line_start)); current_line_start = utf8_view.byte_offset_of(it); current_line_width = glyph_width; } else { current_line_width += glyph_width + font.glyph_spacing(); } widest_line_width = max(widest_line_width, current_line_width); } if (current_line_width > 0) { item_data.wrapped_text_lines.append(item_data.text.substring_view(current_line_start, utf8_view.byte_offset_of(it) - current_line_start)); } item_data.text_rect.set_width(widest_line_width); item_data.text_rect.center_horizontally_within(item_rect); item_data.text_rect.intersect(item_rect); item_data.text_rect.set_height(font.glyph_height() * item_data.wrapped_text_lines.size()); item_data.text_rect.inflate(6, 4); } else { item_data.text_rect.set_width(unwrapped_text_width); item_data.text_rect.inflate(6, 4); item_data.text_rect.center_horizontally_within(item_rect); } item_data.text_rect.intersect(item_rect); item_data.text_offset_y = item_data.text_rect.y() - item_rect.y(); } void IconView::second_paint_event(PaintEvent& event) { if (!m_rubber_banding) return; Painter painter(*this); painter.add_clip_rect(event.rect()); painter.add_clip_rect(widget_inner_rect()); painter.translate(frame_thickness(), frame_thickness()); painter.translate(-horizontal_scrollbar().value(), -vertical_scrollbar().value()); auto rubber_band_rect = Gfx::IntRect::from_two_points(m_rubber_band_origin, m_rubber_band_current); painter.fill_rect(rubber_band_rect, palette().rubber_band_fill()); painter.draw_rect(rubber_band_rect, palette().rubber_band_border()); } void IconView::paint_event(PaintEvent& event) { Color widget_background_color = palette().color(background_role()); Frame::paint_event(event); Painter painter(*this); painter.add_clip_rect(widget_inner_rect()); painter.add_clip_rect(event.rect()); if (fill_with_background_color()) painter.fill_rect(event.rect(), widget_background_color); painter.translate(frame_thickness(), frame_thickness()); painter.translate(-horizontal_scrollbar().value(), -vertical_scrollbar().value()); auto selection_color = is_focused() ? palette().selection() : palette().inactive_selection(); for_each_item_intersecting_rect(to_content_rect(event.rect()), [&](auto& item_data) -> IterationDecision { Color background_color; if (item_data.selected) { background_color = selection_color; } else { if (fill_with_background_color()) background_color = widget_background_color; } auto icon = item_data.index.data(ModelRole::Icon); if (icon.is_icon()) { if (auto bitmap = icon.as_icon().bitmap_for_size(item_data.icon_rect.width())) { Gfx::IntRect destination = bitmap->rect(); destination.center_within(item_data.icon_rect); if (item_data.selected) { auto tint = selection_color.with_alpha(100); painter.blit_filtered(destination.location(), *bitmap, bitmap->rect(), [&](auto src) { return src.blend(tint); }); } else if (m_hovered_index.is_valid() && m_hovered_index == item_data.index) { painter.blit_brightened(destination.location(), *bitmap, bitmap->rect()); } else { painter.blit(destination.location(), *bitmap, bitmap->rect()); } } } auto font = font_for_index(item_data.index); const auto& text_rect = item_data.text_rect; painter.fill_rect(text_rect, background_color); if (is_focused() && item_data.index == cursor_index()) { painter.draw_rect(text_rect, widget_background_color); painter.draw_focus_rect(text_rect, palette().focus_outline()); } if (!item_data.wrapped_text_lines.is_empty()) { // Item text would not fit in the item text rect, let's break it up into lines.. const auto& lines = item_data.wrapped_text_lines; size_t number_of_text_lines = min((size_t)text_rect.height() / font->glyph_height(), lines.size()); for (size_t line_index = 0; line_index < number_of_text_lines; ++line_index) { Gfx::IntRect line_rect; line_rect.set_width(text_rect.width()); line_rect.set_height(font->glyph_height()); line_rect.center_horizontally_within(item_data.text_rect); line_rect.set_y(2 + item_data.text_rect.y() + line_index * font->glyph_height()); line_rect.inflate(6, 0); // Shrink the line_rect on the last line to apply elision if there are more lines. if (number_of_text_lines - 1 == line_index && lines.size() > number_of_text_lines) line_rect.inflate(-(6 + 2 * font->max_glyph_width()), 0); draw_item_text(painter, item_data.index, item_data.selected, line_rect, lines[line_index], font, Gfx::TextAlignment::Center, Gfx::TextElision::Right); } } else { draw_item_text(painter, item_data.index, item_data.selected, item_data.text_rect, item_data.text, font, Gfx::TextAlignment::Center, Gfx::TextElision::Right); } if (item_data.index == m_drop_candidate_index) { // FIXME: This visualization is not great, as it's also possible to drop things on the text label.. painter.draw_rect(item_data.icon_rect.inflated(8, 8), palette().selection(), true); } return IterationDecision::Continue; }); } int IconView::item_count() const { if (!model()) return 0; return model()->row_count(); } void IconView::did_update_selection() { AbstractView::did_update_selection(); if (m_changing_selection) return; // Selection was modified externally, we need to synchronize our cache do_clear_selection(); selection().for_each_index([&](const ModelIndex& index) { if (index.is_valid()) { auto item_index = model_index_to_item_index(index); if ((size_t)item_index < m_item_data_cache.size()) do_add_selection(get_item_data(item_index)); } }); } void IconView::do_clear_selection() { for (size_t item_index = m_first_selected_hint; item_index < m_item_data_cache.size(); item_index++) { if (m_selected_count_cache == 0) break; auto& item_data = m_item_data_cache[item_index]; if (!item_data.selected) continue; item_data.selected = false; m_selected_count_cache--; } m_first_selected_hint = 0; ASSERT(m_selected_count_cache == 0); } void IconView::clear_selection() { TemporaryChange change(m_changing_selection, true); AbstractView::clear_selection(); do_clear_selection(); } bool IconView::do_add_selection(ItemData& item_data) { if (!item_data.selected) { item_data.selected = true; m_selected_count_cache++; int item_index = &item_data - &m_item_data_cache[0]; if (m_first_selected_hint > item_index) m_first_selected_hint = item_index; return true; } return false; } void IconView::add_selection(ItemData& item_data) { if (do_add_selection(item_data)) AbstractView::add_selection(item_data.index); } void IconView::add_selection(const ModelIndex& new_index) { TemporaryChange change(m_changing_selection, true); auto item_index = model_index_to_item_index(new_index); add_selection(get_item_data(item_index)); } void IconView::toggle_selection(ItemData& item_data) { if (!item_data.selected) add_selection(item_data); else remove_selection(item_data); } void IconView::toggle_selection(const ModelIndex& new_index) { TemporaryChange change(m_changing_selection, true); auto item_index = model_index_to_item_index(new_index); toggle_selection(get_item_data(item_index)); } void IconView::remove_selection(ItemData& item_data) { if (!item_data.selected) return; TemporaryChange change(m_changing_selection, true); item_data.selected = false; ASSERT(m_selected_count_cache > 0); m_selected_count_cache--; int item_index = &item_data - &m_item_data_cache[0]; if (m_first_selected_hint == item_index) { m_first_selected_hint = 0; while ((size_t)item_index < m_item_data_cache.size()) { if (m_item_data_cache[item_index].selected) { m_first_selected_hint = item_index; break; } item_index++; } } AbstractView::remove_selection(item_data.index); } void IconView::set_selection(const ModelIndex& new_index) { TemporaryChange change(m_changing_selection, true); do_clear_selection(); auto item_index = model_index_to_item_index(new_index); auto& item_data = get_item_data(item_index); item_data.selected = true; m_selected_count_cache = 1; if (item_index < m_first_selected_hint) m_first_selected_hint = item_index; AbstractView::set_selection(new_index); } int IconView::items_per_page() const { if (m_flow_direction == FlowDirection::LeftToRight) return (visible_content_rect().height() / effective_item_size().height()) * m_visual_column_count; return (visible_content_rect().width() / effective_item_size().width()) * m_visual_row_count; } void IconView::move_cursor(CursorMovement movement, SelectionUpdate selection_update) { if (!model()) return; auto& model = *this->model(); if (!cursor_index().is_valid()) { set_cursor(model.index(0, model_column()), SelectionUpdate::Set); return; } auto new_row = cursor_index().row(); switch (movement) { case CursorMovement::Right: if (m_flow_direction == FlowDirection::LeftToRight) new_row += 1; else new_row += m_visual_row_count; break; case CursorMovement::Left: if (m_flow_direction == FlowDirection::LeftToRight) new_row -= 1; else new_row -= m_visual_row_count; break; case CursorMovement::Up: if (m_flow_direction == FlowDirection::LeftToRight) new_row -= m_visual_column_count; else new_row -= 1; break; case CursorMovement::Down: if (m_flow_direction == FlowDirection::LeftToRight) new_row += m_visual_column_count; else new_row += 1; break; case CursorMovement::PageUp: new_row = max(0, cursor_index().row() - items_per_page()); break; case CursorMovement::PageDown: new_row = min(model.row_count() - 1, cursor_index().row() + items_per_page()); break; case CursorMovement::Home: new_row = 0; break; case CursorMovement::End: new_row = model.row_count() - 1; break; default: return; } auto new_index = model.index(new_row, cursor_index().column()); if (new_index.is_valid()) set_cursor(new_index, selection_update); } void IconView::set_flow_direction(FlowDirection flow_direction) { if (m_flow_direction == flow_direction) return; m_flow_direction = flow_direction; m_item_data_cache.clear(); m_item_data_cache_valid = false; update(); } template inline IterationDecision IconView::for_each_item_intersecting_rect(const Gfx::IntRect& rect, Function f) const { ASSERT(model()); if (rect.is_empty()) return IterationDecision::Continue; int begin_row, begin_column; column_row_from_content_position(rect.top_left(), begin_row, begin_column); int end_row, end_column; column_row_from_content_position(rect.bottom_right(), end_row, end_column); int items_per_flow_axis_step; int item_index; int last_index; if (m_flow_direction == FlowDirection::LeftToRight) { items_per_flow_axis_step = end_column - begin_column + 1; item_index = max(0, begin_row * m_visual_column_count + begin_column); last_index = min(item_count(), end_row * m_visual_column_count + end_column + 1); } else { items_per_flow_axis_step = end_row - begin_row + 1; item_index = max(0, begin_column * m_visual_row_count + begin_row); last_index = min(item_count(), end_column * m_visual_row_count + end_row + 1); } while (item_index < last_index) { for (int i = item_index; i < min(item_index + items_per_flow_axis_step, last_index); i++) { auto& item_data = get_item_data(i); if (item_data.is_intersecting(rect)) { auto decision = f(item_data); if (decision != IterationDecision::Continue) return decision; } } item_index += m_visual_column_count; }; return IterationDecision::Continue; } template inline IterationDecision IconView::for_each_item_intersecting_rects(const Vector& rects, Function f) const { for (auto& rect : rects) { auto decision = for_each_item_intersecting_rect(rect, f); if (decision != IterationDecision::Continue) return decision; } return IterationDecision::Continue; } }