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Clementine-audio-player-Mac.../src/analyzers/nyancatanalyzer.cpp

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/* This file is part of Clementine.
Copyright 2010, David Sansome <me@davidsansome.com>
Clementine is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
Clementine is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with Clementine. If not, see <http://www.gnu.org/licenses/>.
*/
#include "nyancatanalyzer.h"
#include "core/logging.h"
#include <cmath>
#include <QTimerEvent>
#include <QBrush>
const char* NyanCatAnalyzer::kName = "Nyanalyzer cat";
const float NyanCatAnalyzer::kPixelScale = 0.02f;
NyanCatAnalyzer::NyanCatAnalyzer(QWidget* parent)
: Analyzer::Base(parent, 9),
cat_(":/nyancat.png"),
timer_id_(startTimer(kFrameIntervalMs)),
frame_(0),
current_buffer_(0),
available_rainbow_width_(0),
px_per_frame_(0),
x_offset_(0),
background_brush_(QColor(0x0f, 0x43, 0x73)) {
memset(history_, 0, sizeof(history_));
for (int i = 0; i < kRainbowBands; ++i) {
colors_[i] = QPen(QColor::fromHsv(i * 255 / kRainbowBands, 255, 255),
kCatHeight / kRainbowBands, Qt::SolidLine, Qt::FlatCap,
Qt::RoundJoin);
// pow constants computed so that
// | band_scale(0) | ~= .5 and | band_scale(5) | ~= 32
band_scale_[i] =
-std::cos(M_PI * i / (kRainbowBands - 1)) * 0.5 * std::pow(2.3, i);
}
}
void NyanCatAnalyzer::transform(Scope& s) { m_fht->spectrum(&s.front()); }
void NyanCatAnalyzer::timerEvent(QTimerEvent* e) {
if (e->timerId() == timer_id_) {
frame_ = (frame_ + 1) % kCatFrameCount;
} else {
Analyzer::Base::timerEvent(e);
}
}
void NyanCatAnalyzer::resizeEvent(QResizeEvent* e) {
// Invalidate the buffer so it's recreated from scratch in the next paint
// event.
buffer_[0] = QPixmap();
buffer_[1] = QPixmap();
available_rainbow_width_ = width() - kCatWidth + kRainbowOverlap;
px_per_frame_ = float(available_rainbow_width_) / (kHistorySize - 1) + 1;
x_offset_ = px_per_frame_ * (kHistorySize - 1) - available_rainbow_width_;
}
void NyanCatAnalyzer::analyze(QPainter& p, const Analyzer::Scope& s,
bool new_frame) {
// Discard the second half of the transform
const int scope_size = s.size() / 2;
if ((new_frame && is_playing_) ||
(buffer_[0].isNull() && buffer_[1].isNull())) {
// Transform the music into rainbows!
for (int band = 0; band < kRainbowBands; ++band) {
float* band_start = history_ + band * kHistorySize;
// Move the history of each band across by 1 frame.
memmove(band_start, band_start + 1, (kHistorySize - 1) * sizeof(float));
}
// Now accumulate the scope data into each band. Should maybe use a series
// of band pass filters for this, so bands can leak into neighbouring bands,
// but for now it's a series of separate square filters.
const int samples_per_band = scope_size / kRainbowBands;
int sample = 0;
for (int band = 0; band < kRainbowBands; ++band) {
float accumulator = 0.0;
for (int i = 0; i < samples_per_band; ++i) {
accumulator += s[sample++];
}
history_[(band + 1) * kHistorySize - 1] = accumulator * band_scale_[band];
}
// Create polylines for the rainbows.
QPointF polyline[kRainbowBands * kHistorySize];
QPointF* dest = polyline;
float* source = history_;
const float top_of_cat = float(height()) / 2 - float(kCatHeight) / 2;
for (int band = 0; band < kRainbowBands; ++band) {
// Calculate the Y position of this band.
const float y =
float(kCatHeight) / (kRainbowBands + 1) * (band + 0.5) + top_of_cat;
// Add each point in the line.
for (int x = 0; x < kHistorySize; ++x) {
*dest = QPointF(px_per_frame_ * x, y + *source * kPixelScale);
++dest;
++source;
}
}
// Do we have to draw the whole rainbow into the buffer?
if (buffer_[0].isNull()) {
for (int i = 0; i < 2; ++i) {
buffer_[i] = QPixmap(QSize(width() + x_offset_, height()));
buffer_[i].fill(background_brush_.color());
}
current_buffer_ = 0;
QPainter buffer_painter(&buffer_[0]);
buffer_painter.setRenderHint(QPainter::Antialiasing);
for (int band = kRainbowBands - 1; band >= 0; --band) {
buffer_painter.setPen(colors_[band]);
buffer_painter.drawPolyline(&polyline[band * kHistorySize],
kHistorySize);
buffer_painter.drawPolyline(&polyline[band * kHistorySize],
kHistorySize);
}
} else {
const int last_buffer = current_buffer_;
current_buffer_ = (current_buffer_ + 1) % 2;
// We can just shuffle the buffer along a bit and draw the new frame's
// data.
QPainter buffer_painter(&buffer_[current_buffer_]);
buffer_painter.setRenderHint(QPainter::Antialiasing);
buffer_painter.drawPixmap(
0, 0, buffer_[last_buffer], px_per_frame_, 0,
x_offset_ + available_rainbow_width_ - px_per_frame_, 0);
buffer_painter.fillRect(
x_offset_ + available_rainbow_width_ - px_per_frame_, 0,
kCatWidth - kRainbowOverlap + px_per_frame_, height(),
background_brush_);
for (int band = kRainbowBands - 1; band >= 0; --band) {
buffer_painter.setPen(colors_[band]);
buffer_painter.drawPolyline(&polyline[(band + 1) * kHistorySize - 3],
3);
}
}
}
// Draw the buffer on to the widget
p.drawPixmap(0, 0, buffer_[current_buffer_], x_offset_, 0, 0, 0);
// Draw nyan cat (he's been waiting for this for 75 lines).
// Nyan nyan nyan nyan.
if (!is_playing_) {
// Ssshhh!
p.drawPixmap(SleepingCatDestRect(), cat_, SleepingCatSourceRect());
} else {
p.drawPixmap(CatDestRect(), cat_, CatSourceRect());
}
}
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