/* * Copyright (c) 2021, Cesar Torres * * SPDX-License-Identifier: BSD-2-Clause */ #include "BarsVisualizationWidget.h" #include "AudioAlgorithms.h" #include #include #include #include #include u32 round_previous_power_of_2(u32 x); void BarsVisualizationWidget::paint_event(GUI::PaintEvent& event) { GUI::Frame::paint_event(event); GUI::Painter painter(*this); painter.add_clip_rect(event.rect()); painter.fill_rect(frame_inner_rect(), Color::Black); if (m_sample_buffer.is_empty()) return; fft(m_sample_buffer, false); double max = AK::sqrt(m_sample_count * 2.); double freq_bin = m_samplerate / (double)m_sample_count; constexpr int group_count = 60; Vector groups; groups.resize(group_count); if (m_gfx_falling_bars.size() != group_count) { m_gfx_falling_bars.resize(group_count); for (int& i : m_gfx_falling_bars) i = 0; } for (double& d : groups) d = 0.; int bins_per_group = ceil_div((m_sample_count - 1) / 2, group_count); for (int i = 1; i < m_sample_count / 2; i++) { groups[i / bins_per_group] += AK::fabs(m_sample_buffer.data()[i].real()); } for (int i = 0; i < group_count; i++) groups[i] /= max * freq_bin / (m_adjust_frequencies ? (clamp(AK::pow(AK::E, (double)i / group_count * 3.) - 1.75, 1., 15.)) : 1.); const int horizontal_margin = 30; const int top_vertical_margin = 15; const int pixels_inbetween_groups = frame_inner_rect().width() > 350 ? 5 : 2; int pixel_per_group_width = (frame_inner_rect().width() - horizontal_margin * 2 - pixels_inbetween_groups * (group_count - 1)) / group_count; int max_height = frame_inner_rect().height() - top_vertical_margin; int current_xpos = horizontal_margin; for (int g = 0; g < group_count; g++) { m_gfx_falling_bars[g] = AK::min(clamp(max_height - (int)(groups[g] * max_height * 0.8), 0, max_height), m_gfx_falling_bars[g]); painter.fill_rect(Gfx::Rect(current_xpos, max_height - (int)(groups[g] * max_height * 0.8), pixel_per_group_width, (int)(groups[g] * max_height * 0.8)), Gfx::Color::from_rgb(0x95d437)); painter.fill_rect(Gfx::Rect(current_xpos, m_gfx_falling_bars[g], pixel_per_group_width, 2), Gfx::Color::White); current_xpos += pixel_per_group_width + pixels_inbetween_groups; m_gfx_falling_bars[g] += 3; } m_is_using_last = false; } BarsVisualizationWidget::~BarsVisualizationWidget() { } BarsVisualizationWidget::BarsVisualizationWidget() : m_last_id(-1) , m_is_using_last(false) , m_adjust_frequencies(false) { m_context_menu = GUI::Menu::construct(); m_context_menu->add_action(GUI::Action::create_checkable("Adjust frequency energy (for aesthetics)", [&](GUI::Action& action) { m_adjust_frequencies = action.is_checked(); })); } // black magic from Hacker's delight u32 round_previous_power_of_2(u32 x) { x = x | (x >> 1); x = x | (x >> 2); x = x | (x >> 4); x = x | (x >> 8); x = x | (x >> 16); return x - (x >> 1); } void BarsVisualizationWidget::set_buffer(RefPtr buffer, int samples_to_use) { if (m_is_using_last) return; m_is_using_last = true; // FIXME: We should dynamically adapt to the sample count and e.g. perform the fft over multiple buffers. // For now, the visualizer doesn't work with extremely low global sample rates. if (buffer->sample_count() < 256) return; m_sample_count = round_previous_power_of_2(samples_to_use); m_sample_buffer.resize(m_sample_count); for (int i = 0; i < m_sample_count; i++) { m_sample_buffer.data()[i] = (AK::fabs(buffer->samples()[i].left) + AK::fabs(buffer->samples()[i].right)) / 2.; } update(); } void BarsVisualizationWidget::set_buffer(RefPtr buffer) { if (buffer.is_null()) return; if (m_last_id == buffer->id()) return; set_buffer(buffer, buffer->sample_count()); } void BarsVisualizationWidget::context_menu_event(GUI::ContextMenuEvent& event) { m_context_menu->popup(event.screen_position()); } void BarsVisualizationWidget::set_samplerate(int samplerate) { m_samplerate = samplerate; }