/* * Copyright (c) 2018-2020, Andreas Kling * Copyright (c) 2019-2020, William McPherson * Copyright (c) 2021, kleines Filmröllchen * * SPDX-License-Identifier: BSD-2-Clause */ #include "RollWidget.h" #include "TrackManager.h" #include #include #include #include #include constexpr int note_height = 20; constexpr int max_note_width = note_height * 2; constexpr int roll_height = note_count * note_height; constexpr int horizontal_scroll_sensitivity = 20; constexpr int max_zoom = 1 << 8; RollWidget::RollWidget(TrackManager& track_manager) : m_track_manager(track_manager) { set_should_hide_unnecessary_scrollbars(true); set_content_size({ 0, roll_height }); vertical_scrollbar().set_value(roll_height / 2); } RollWidget::~RollWidget() { } void RollWidget::paint_event(GUI::PaintEvent& event) { m_roll_width = widget_inner_rect().width() * m_zoom_level; set_content_size({ m_roll_width, roll_height }); // Divide the roll by the maximum note width. If we get fewer notes than // our time signature requires, round up. Otherwise, round down to the // nearest x*(2^y), where x is the base number of notes of our time // signature. In other words, find a number that is a double of our time // signature. For 4/4 that would be 16, 32, 64, 128 ... m_num_notes = m_roll_width / max_note_width; int time_signature_notes = beats_per_bar * notes_per_beat; if (m_num_notes < time_signature_notes) m_num_notes = time_signature_notes; else m_num_notes = time_signature_notes * pow(2, static_cast(log2(m_num_notes / time_signature_notes))); m_note_width = static_cast(m_roll_width) / m_num_notes; // This calculates the minimum number of rows needed. We account for a // partial row at the top and/or bottom. int y_offset = vertical_scrollbar().value(); int note_offset = y_offset / note_height; int note_offset_remainder = y_offset % note_height; int paint_area = widget_inner_rect().height() + note_offset_remainder; if (paint_area % note_height != 0) paint_area += note_height; int notes_to_paint = paint_area / note_height; int key_pattern_index = (notes_per_octave - 1) - (note_offset % notes_per_octave); int x_offset = horizontal_scrollbar().value(); int horizontal_note_offset_remainder = fmod(x_offset, m_note_width); int horizontal_paint_area = widget_inner_rect().width() + horizontal_note_offset_remainder; if (fmod(horizontal_paint_area, m_note_width) != 0) horizontal_paint_area += m_note_width; int horizontal_notes_to_paint = horizontal_paint_area / m_note_width; GUI::Painter painter(*this); // Draw the background, if necessary. if (viewport_changed() || paint_area != m_background->height()) { m_background = Gfx::Bitmap::create(Gfx::BitmapFormat::BGRx8888, Gfx::IntSize(m_roll_width, paint_area)); Gfx::Painter background_painter(*m_background); background_painter.translate(frame_thickness(), frame_thickness()); background_painter.translate(-horizontal_note_offset_remainder, -note_offset_remainder); for (int y = 0; y < notes_to_paint; ++y) { int y_pos = y * note_height; for (int x = 0; x < horizontal_notes_to_paint; ++x) { // This is needed to avoid rounding errors. You can't just use // m_note_width as the width. int x_pos = x * m_note_width; int next_x_pos = (x + 1) * m_note_width; int distance_to_next_x = next_x_pos - x_pos; Gfx::IntRect rect(x_pos, y_pos, distance_to_next_x, note_height); if (key_pattern[key_pattern_index] == Black) background_painter.fill_rect(rect, Color::LightGray); else background_painter.fill_rect(rect, Color::White); background_painter.draw_line(rect.top_right(), rect.bottom_right(), Color::Black); background_painter.draw_line(rect.bottom_left(), rect.bottom_right(), Color::Black); } if (--key_pattern_index == -1) key_pattern_index = notes_per_octave - 1; } background_painter.translate(-x_offset, -y_offset); background_painter.translate(horizontal_note_offset_remainder, note_offset_remainder); for (int note = note_count - (note_offset + notes_to_paint); note <= (note_count - 1) - note_offset; ++note) { int y = ((note_count - 1) - note) * note_height; Gfx::IntRect note_name_rect(3, y, 1, note_height); const char* note_name = note_names[note % notes_per_octave]; background_painter.draw_text(note_name_rect, note_name, Gfx::TextAlignment::CenterLeft); note_name_rect.translate_by(Gfx::FontDatabase::default_font().width(note_name) + 2, 0); if (note % notes_per_octave == 0) background_painter.draw_text(note_name_rect, String::formatted("{}", note / notes_per_octave + 1), Gfx::TextAlignment::CenterLeft); } m_prev_zoom_level = m_zoom_level; m_prev_scroll_x = horizontal_scrollbar().value(); m_prev_scroll_y = vertical_scrollbar().value(); } painter.blit(Gfx::IntPoint(0, 0), *m_background, m_background->rect()); // Draw the notes, mouse interaction, and time position. painter.translate(frame_thickness(), frame_thickness()); painter.add_clip_rect(event.rect()); painter.translate(-horizontal_note_offset_remainder, -note_offset_remainder); for (int y = 0; y < notes_to_paint; ++y) { int y_pos = y * note_height; int note = (note_count - note_offset - 1) - y; for (int x = 0; x < horizontal_notes_to_paint; ++x) { // This is needed to avoid rounding errors. You can't just use // m_note_width as the width. int x_pos = x * m_note_width; int next_x_pos = (x + 1) * m_note_width; int distance_to_next_x = next_x_pos - x_pos; Gfx::IntRect rect(x_pos, y_pos, distance_to_next_x, note_height); if (keys_widget() && keys_widget()->note_is_set(note)) painter.fill_rect(rect, note_pressed_color.with_alpha(128)); } } painter.translate(-x_offset, -y_offset); painter.translate(horizontal_note_offset_remainder, note_offset_remainder); for (int note = note_count - (note_offset + notes_to_paint); note <= (note_count - 1) - note_offset; ++note) { int y = ((note_count - 1) - note) * note_height; for (auto roll_note : m_track_manager.current_track().roll_notes(note)) { int x = m_roll_width * (static_cast(roll_note.on_sample) / roll_length); int width = m_roll_width * (static_cast(roll_note.length()) / roll_length); if (x + width < x_offset || x > x_offset + widget_inner_rect().width()) continue; if (width < 2) width = 2; int height = note_height; Gfx::IntRect rect(x, y, width, height); painter.fill_rect(rect, note_pressed_color); painter.draw_rect(rect, Color::Black); } } int x = m_roll_width * (static_cast(m_track_manager.time()) / roll_length); if (x > x_offset && x <= x_offset + widget_inner_rect().width()) painter.draw_line({ x, 0 }, { x, roll_height }, Gfx::Color::Black); GUI::Frame::paint_event(event); } bool RollWidget::viewport_changed() const { // height is complicated to check, will be done in paint_event return m_background.is_null() || m_roll_width != m_background->width() || m_prev_scroll_x != horizontal_scrollbar().value() || m_prev_scroll_y != vertical_scrollbar().value() || m_prev_zoom_level != m_zoom_level; } void RollWidget::mousedown_event(GUI::MouseEvent& event) { if (!widget_inner_rect().contains(event.x(), event.y())) return; m_note_drag_start = event.position(); int y = (m_note_drag_start.value().y() + vertical_scrollbar().value()) - frame_thickness(); y /= note_height; m_drag_note = (note_count - 1) - y; mousemove_event(event); } void RollWidget::mousemove_event(GUI::MouseEvent& event) { if (!m_note_drag_start.has_value()) return; if (m_note_drag_location.has_value()) { // Clear previous note m_track_manager.current_track().set_roll_note(m_drag_note, m_note_drag_location.value().on_sample, m_note_drag_location.value().off_sample); } auto get_note_x = [&](int x0) { // There's a case where we can't just use x / m_note_width. For example, if // your m_note_width is 3.1 you will have a rect starting at 3. When that // leftmost pixel of the rect is clicked you will do 3 / 3.1 which is 0 // and not 1. We can avoid that case by shifting x by 1 if m_note_width is // fractional, being careful not to shift out of bounds. int x = (x0 + horizontal_scrollbar().value()) - frame_thickness(); bool note_width_is_fractional = m_note_width - static_cast(m_note_width) != 0; bool x_is_not_last = x != widget_inner_rect().width() - 1; if (note_width_is_fractional && x_is_not_last) ++x; x /= m_note_width; return clamp(x, 0, m_num_notes - 1); }; int x0 = get_note_x(m_note_drag_start.value().x()); int x1 = get_note_x(event.x()); u32 on_sample = roll_length * (static_cast(min(x0, x1)) / m_num_notes); u32 off_sample = (roll_length * (static_cast(max(x0, x1) + 1) / m_num_notes)) - 1; m_track_manager.current_track().set_roll_note(m_drag_note, on_sample, off_sample); m_note_drag_location = RollNote({ on_sample, off_sample }); update(); } void RollWidget::mouseup_event([[maybe_unused]] GUI::MouseEvent& event) { m_note_drag_start = {}; m_note_drag_location = {}; } // FIXME: Implement zoom and horizontal scroll events in LibGUI, not here. void RollWidget::mousewheel_event(GUI::MouseEvent& event) { if (event.modifiers() & KeyModifier::Mod_Shift) { horizontal_scrollbar().set_value(horizontal_scrollbar().value() + (event.wheel_delta() * horizontal_scroll_sensitivity)); return; } if (!(event.modifiers() & KeyModifier::Mod_Ctrl)) { GUI::AbstractScrollableWidget::mousewheel_event(event); return; } double multiplier = event.wheel_delta() >= 0 ? 0.5 : 2; if (m_zoom_level * multiplier > max_zoom) return; if (m_zoom_level * multiplier < 1) { if (m_zoom_level == 1) return; m_zoom_level = 1; } else { m_zoom_level *= multiplier; } int absolute_x_of_pixel_at_cursor = horizontal_scrollbar().value() + event.position().x(); int absolute_x_of_pixel_at_cursor_after_resize = absolute_x_of_pixel_at_cursor * multiplier; int new_scrollbar = absolute_x_of_pixel_at_cursor_after_resize - event.position().x(); m_roll_width = widget_inner_rect().width() * m_zoom_level; set_content_size({ m_roll_width, roll_height }); horizontal_scrollbar().set_value(new_scrollbar); }