amuse/Editor/ADSREditor.cpp

950 lines
34 KiB
C++

#include "ADSREditor.hpp"
#include "MainWindow.hpp"
#include <QVBoxLayout>
#include <QPainter>
#include <QMouseEvent>
static QColor Red = QColor(255, 127, 127);
static QColor Green = QColor(127, 255, 127);
static QColor Blue = QColor(150, 150, 255);
ADSREditor* ADSRView::getEditor() const { return qobject_cast<ADSREditor*>(parentWidget()); }
void ADSRView::loadData(ProjectModel::ADSRNode* node) { m_node = node; }
void ADSRView::unloadData() { m_node.reset(); }
ProjectModel::INode* ADSRView::currentNode() const { return m_node.get(); }
void ADSRView::paintEvent(QPaintEvent* ev) {
if (!m_node)
return;
QPainter painter(this);
painter.setRenderHint(QPainter::Antialiasing);
amuse::ITable& table = **m_node->m_obj;
qreal adTime = 0.0;
qreal aTime = 0.0;
qreal relTime = 0.0;
qreal sustain = 0.0;
if (table.Isa() == amuse::ITable::Type::ADSRDLS) {
amuse::ADSRDLS& adsr = static_cast<amuse::ADSRDLS&>(table);
adTime += adsr.getAttack();
aTime = adsr.getAttack();
adTime += adsr.getDecay();
sustain = adsr.getSustain();
relTime = adsr.getRelease();
} else if (table.Isa() == amuse::ITable::Type::ADSR) {
amuse::ADSR& adsr = static_cast<amuse::ADSR&>(table);
adTime += adsr.getAttack();
aTime = adsr.getAttack();
adTime += adsr.getDecay();
sustain = adsr.getSustain();
relTime = adsr.getRelease();
}
qreal totalTime = adTime + 1.0 + relTime;
qreal deviceRatio = devicePixelRatioF();
qreal penWidth = std::max(std::floor(deviceRatio), 1.0) / deviceRatio;
painter.setPen(QPen(QColor(127, 127, 127), penWidth));
painter.setFont(m_gridFont);
qreal yIncrement = (height() - 16.0) / 10.0;
for (int i = 0; i < 11; ++i) {
qreal thisY = i * yIncrement;
qreal textY = thisY - (i == 0 ? 2.0 : (i == 10 ? 16.0 : 8.0));
painter.drawStaticText(QPointF(0.0, textY), m_percentTexts[i]);
painter.drawLine(QPointF(30.0, thisY), QPointF(width(), thisY));
}
size_t maxTime = size_t(std::max(adTime, relTime)) + 1;
if (m_timeTexts.size() < maxTime) {
m_timeTexts.reserve(maxTime);
for (size_t i = m_timeTexts.size(); i < maxTime; ++i) {
m_timeTexts.emplace_back();
QStaticText& text = m_timeTexts.back();
text.setText(QStringLiteral("%1.0s").arg(i));
text.setTextWidth(32.0);
text.setTextOption(QTextOption(Qt::AlignHCenter | Qt::AlignBaseline));
}
}
qreal xBase = 30.0;
qreal xIncrement = (width() - xBase) / totalTime;
for (size_t i = 0; i <= size_t(adTime); ++i) {
qreal thisX = i * xIncrement + xBase;
qreal textX = thisX - 15.0;
painter.drawStaticText(QPointF(textX, height() - 16.0), m_timeTexts[i]);
painter.drawLine(QPointF(thisX, 0.0), QPointF(thisX, height() - 16.0));
}
xBase = (width() - 30.0) * ((adTime + 1.0) / totalTime) + 30.0;
for (size_t i = 0; i <= size_t(relTime); ++i) {
qreal thisX = i * xIncrement + xBase;
qreal textX = thisX - 15.0;
painter.drawStaticText(QPointF(textX, height() - 16.0), m_timeTexts[i]);
painter.drawLine(QPointF(thisX, 0.0), QPointF(thisX, height() - 16.0));
}
qreal sustainY = (height() - 16.0) - (height() - 16.0) * sustain;
QPointF pt0 = QPointF(30.0, height() - 16.0);
QPointF pt1 = QPointF((width() - 30.0) * (aTime / totalTime) + 30.0, 0.0);
QPointF pt2 = QPointF((width() - 30.0) * (adTime / totalTime) + 30.0, sustainY);
QPointF pt3 = QPointF((width() - 30.0) * ((adTime + 1.0) / totalTime) + 30.0, sustainY);
QPointF pt4 = QPointF(width(), height() - 16.0);
painter.setPen(QPen(Red, penWidth * 3.0));
painter.drawLine(pt0, pt1);
painter.setPen(QPen(Green, penWidth * 3.0));
painter.drawLine(pt1, pt2);
painter.setPen(QPen(Qt::white, penWidth * 3.0));
painter.drawLine(pt2, pt3);
painter.setPen(QPen(Blue, penWidth * 3.0));
painter.drawLine(pt3, pt4);
painter.setPen(Qt::NoPen);
painter.setBrush(Green);
painter.drawEllipse(pt1, 8.0, 8.0);
painter.setBrush(Qt::white);
painter.drawEllipse(pt2, 8.0, 8.0);
painter.setBrush(Blue);
painter.drawEllipse(pt3, 8.0, 8.0);
}
static qreal PointDistanceSq(const QPointF& p1, const QPointF& p2) {
QPointF delta = p1 - p2;
return QPointF::dotProduct(delta, delta);
}
static qreal PointDistance(const QPointF& p1, const QPointF& p2) { return std::sqrt(PointDistanceSq(p1, p2)); }
void ADSRView::mousePressEvent(QMouseEvent* ev) {
if (!m_node)
return;
amuse::ITable& table = **m_node->m_obj;
qreal adTime = 0.0;
qreal aTime = 0.0;
qreal relTime = 0.0;
qreal sustain = 0.0;
if (table.Isa() == amuse::ITable::Type::ADSRDLS) {
amuse::ADSRDLS& adsr = static_cast<amuse::ADSRDLS&>(table);
adTime += adsr.getAttack();
aTime = adsr.getAttack();
adTime += adsr.getDecay();
sustain = adsr.getSustain();
relTime = adsr.getRelease();
} else if (table.Isa() == amuse::ITable::Type::ADSR) {
amuse::ADSR& adsr = static_cast<amuse::ADSR&>(table);
adTime += adsr.getAttack();
aTime = adsr.getAttack();
adTime += adsr.getDecay();
sustain = adsr.getSustain();
relTime = adsr.getRelease();
}
qreal totalTime = adTime + 1.0 + relTime;
qreal sustainY = (height() - 16.0) - (height() - 16.0) * sustain;
QPointF points[] = {QPointF((width() - 30.0) * (aTime / totalTime) + 30.0, 0.0),
QPointF((width() - 30.0) * (adTime / totalTime) + 30.0, sustainY),
QPointF((width() - 30.0) * ((adTime + 1.0) / totalTime) + 30.0, sustainY)};
qreal dists[] = {PointDistance(ev->localPos(), points[0]), PointDistance(ev->localPos(), points[1]),
PointDistance(ev->localPos(), points[2])};
int minDist = 0;
if (dists[1] < dists[minDist] + 8.0) /* pt1 overlaps pt0, so include radius in test */
minDist = 1;
if (dists[2] < dists[minDist])
minDist = 2;
if (dists[minDist] < 10.0) {
++m_cycleIdx;
m_dragPoint = minDist;
mouseMoveEvent(ev);
}
}
void ADSRView::mouseReleaseEvent(QMouseEvent* ev) { m_dragPoint = -1; }
void ADSRView::mouseMoveEvent(QMouseEvent* ev) {
amuse::ITable& table = **m_node->m_obj;
ADSRControls* ctrls = getEditor()->m_controls;
qreal adTime = 0.0;
qreal aTime = 0.0;
qreal relTime = 0.0;
if (table.Isa() == amuse::ITable::Type::ADSRDLS) {
amuse::ADSRDLS& adsr = static_cast<amuse::ADSRDLS&>(table);
adTime += adsr.getAttack();
aTime = adsr.getAttack();
adTime += adsr.getDecay();
relTime = adsr.getRelease();
} else if (table.Isa() == amuse::ITable::Type::ADSR) {
amuse::ADSR& adsr = static_cast<amuse::ADSR&>(table);
adTime += adsr.getAttack();
aTime = adsr.getAttack();
adTime += adsr.getDecay();
relTime = adsr.getRelease();
}
qreal totalTime = adTime + 1.0 + relTime;
if (m_dragPoint == 0) {
qreal newAttack = std::max(0.0, (ev->localPos().x() - 30.0) / (width() - 30.0) * totalTime);
qreal delta = newAttack - aTime;
ctrls->setAttackAndDecay(newAttack, std::max(0.0, ctrls->m_decay->value() - delta), m_cycleIdx);
} else if (m_dragPoint == 1) {
qreal newDecay = std::max(0.0, (ev->localPos().x() - 30.0) * totalTime / (width() - 30.0) - aTime);
qreal newSustain = (-ev->localPos().y() + (height() - 16.0)) / (height() - 16.0);
ctrls->setDecayAndSustain(newDecay, newSustain * 100.0, m_cycleIdx);
} else if (m_dragPoint == 2) {
qreal newRelease = std::max(0.0, (width() - 30.0) * (adTime + 1.0) / (ev->localPos().x() - 30.0) - (adTime + 1.0));
ctrls->setRelease(newRelease, m_cycleIdx);
ctrls->m_release->setValue(newRelease);
}
}
ADSRView::ADSRView(QWidget* parent) : QWidget(parent) {
for (int i = 0; i < 11; ++i) {
m_percentTexts[i].setText(QStringLiteral("%1%").arg(100 - i * 10));
m_percentTexts[i].setTextOption(QTextOption(Qt::AlignVCenter | Qt::AlignRight));
m_percentTexts[i].setTextWidth(28.0);
}
m_gridFont.setPointSize(8);
}
ADSREditor* ADSRControls::getEditor() const { return qobject_cast<ADSREditor*>(parentWidget()); }
void ADSRControls::loadData() {
m_enableUpdate = false;
amuse::ITable& table = **getEditor()->m_adsrView->m_node->m_obj;
m_attack->setDisabled(false);
m_decay->setDisabled(false);
m_sustain->setDisabled(false);
m_release->setDisabled(false);
m_dls->setDisabled(false);
if (table.Isa() == amuse::ITable::Type::ADSRDLS) {
amuse::ADSRDLS& adsr = static_cast<amuse::ADSRDLS&>(table);
m_attack->setValue(adsr.getAttack());
m_decay->setValue(adsr.getDecay());
m_sustain->setValue(adsr.getSustain() * 100.0);
m_release->setValue(adsr.getRelease());
m_dls->setChecked(true);
m_velToAttackLab->setVisible(true);
m_velToAttack->setVisible(true);
m_velToAttack->setValue(adsr._getVelToAttack());
m_keyToDecayLab->setVisible(true);
m_keyToDecay->setVisible(true);
m_keyToDecay->setValue(adsr._getKeyToDecay());
} else if (table.Isa() == amuse::ITable::Type::ADSR) {
amuse::ADSR& adsr = static_cast<amuse::ADSR&>(table);
m_attack->setValue(adsr.getAttack());
m_decay->setValue(adsr.getDecay());
m_sustain->setValue(adsr.getSustain() * 100.0);
m_release->setValue(adsr.getRelease());
m_dls->setChecked(false);
m_velToAttackLab->setVisible(false);
m_velToAttack->setVisible(false);
m_keyToDecayLab->setVisible(false);
m_keyToDecay->setVisible(false);
} else {
unloadData();
}
m_enableUpdate = true;
}
void ADSRControls::unloadData() {
m_attack->setDisabled(true);
m_decay->setDisabled(true);
m_sustain->setDisabled(true);
m_release->setDisabled(true);
m_dls->setDisabled(true);
m_velToAttackLab->setVisible(false);
m_velToAttack->setVisible(false);
m_keyToDecayLab->setVisible(false);
m_keyToDecay->setVisible(false);
}
class ADSRAttackUndoCommand : public EditorUndoCommand {
double m_redoVal, m_undoVal;
bool m_undid = false;
public:
ADSRAttackUndoCommand(double redoVal, amuse::ObjToken<ProjectModel::ADSRNode> node)
: EditorUndoCommand(node.get(), ADSRControls::tr("Change Attack")), m_redoVal(redoVal) {}
void undo() override {
m_undid = true;
amuse::ITable& table = **m_node.cast<ProjectModel::ADSRNode>()->m_obj;
if (table.Isa() == amuse::ITable::Type::ADSRDLS) {
amuse::ADSRDLS& adsr = static_cast<amuse::ADSRDLS&>(table);
adsr.setAttack(m_undoVal);
} else if (table.Isa() == amuse::ITable::Type::ADSR) {
amuse::ADSR& adsr = static_cast<amuse::ADSR&>(table);
adsr.setAttack(m_undoVal);
}
EditorUndoCommand::undo();
}
void redo() override {
amuse::ITable& table = **m_node.cast<ProjectModel::ADSRNode>()->m_obj;
if (table.Isa() == amuse::ITable::Type::ADSRDLS) {
amuse::ADSRDLS& adsr = static_cast<amuse::ADSRDLS&>(table);
m_undoVal = adsr.getAttack();
adsr.setAttack(m_redoVal);
} else if (table.Isa() == amuse::ITable::Type::ADSR) {
amuse::ADSR& adsr = static_cast<amuse::ADSR&>(table);
m_undoVal = adsr.getAttack();
adsr.setAttack(m_redoVal);
}
if (m_undid)
EditorUndoCommand::redo();
}
bool mergeWith(const QUndoCommand* other) override {
if (other->id() == id()) {
m_redoVal = static_cast<const ADSRAttackUndoCommand*>(other)->m_redoVal;
return true;
}
return false;
}
int id() const override { return int(Id::ADSRAttack); }
};
void ADSRControls::attackChanged(double val) {
if (m_enableUpdate) {
ADSRView* view = getEditor()->m_adsrView;
g_MainWindow->pushUndoCommand(new ADSRAttackUndoCommand(val, view->m_node));
view->update();
}
}
class ADSRDecayUndoCommand : public EditorUndoCommand {
double m_redoVal, m_undoVal;
bool m_undid = false;
public:
ADSRDecayUndoCommand(double redoVal, amuse::ObjToken<ProjectModel::ADSRNode> node)
: EditorUndoCommand(node.get(), ADSRControls::tr("Change Decay")), m_redoVal(redoVal) {}
void undo() override {
m_undid = true;
amuse::ITable& table = **m_node.cast<ProjectModel::ADSRNode>()->m_obj;
if (table.Isa() == amuse::ITable::Type::ADSRDLS) {
amuse::ADSRDLS& adsr = static_cast<amuse::ADSRDLS&>(table);
adsr.setDecay(m_undoVal);
} else if (table.Isa() == amuse::ITable::Type::ADSR) {
amuse::ADSR& adsr = static_cast<amuse::ADSR&>(table);
adsr.setDecay(m_undoVal);
}
EditorUndoCommand::undo();
}
void redo() override {
amuse::ITable& table = **m_node.cast<ProjectModel::ADSRNode>()->m_obj;
if (table.Isa() == amuse::ITable::Type::ADSRDLS) {
amuse::ADSRDLS& adsr = static_cast<amuse::ADSRDLS&>(table);
m_undoVal = adsr.getDecay();
adsr.setDecay(m_redoVal);
} else if (table.Isa() == amuse::ITable::Type::ADSR) {
amuse::ADSR& adsr = static_cast<amuse::ADSR&>(table);
m_undoVal = adsr.getDecay();
adsr.setDecay(m_redoVal);
}
if (m_undid)
EditorUndoCommand::redo();
}
bool mergeWith(const QUndoCommand* other) override {
if (other->id() == id()) {
m_redoVal = static_cast<const ADSRDecayUndoCommand*>(other)->m_redoVal;
return true;
}
return false;
}
int id() const override { return int(Id::ADSRDecay); }
};
void ADSRControls::decayChanged(double val) {
if (m_enableUpdate) {
ADSRView* view = getEditor()->m_adsrView;
g_MainWindow->pushUndoCommand(new ADSRDecayUndoCommand(val, view->m_node));
view->update();
}
}
class ADSRSustainUndoCommand : public EditorUndoCommand {
double m_redoVal, m_undoVal;
bool m_undid = false;
public:
ADSRSustainUndoCommand(double redoVal, amuse::ObjToken<ProjectModel::ADSRNode> node)
: EditorUndoCommand(node.get(), ADSRControls::tr("Change Sustain")), m_redoVal(redoVal) {}
void undo() override {
m_undid = true;
amuse::ITable& table = **m_node.cast<ProjectModel::ADSRNode>()->m_obj;
if (table.Isa() == amuse::ITable::Type::ADSRDLS) {
amuse::ADSRDLS& adsr = static_cast<amuse::ADSRDLS&>(table);
adsr.setSustain(m_undoVal);
} else if (table.Isa() == amuse::ITable::Type::ADSR) {
amuse::ADSR& adsr = static_cast<amuse::ADSR&>(table);
adsr.setSustain(m_undoVal);
}
EditorUndoCommand::undo();
}
void redo() override {
amuse::ITable& table = **m_node.cast<ProjectModel::ADSRNode>()->m_obj;
if (table.Isa() == amuse::ITable::Type::ADSRDLS) {
amuse::ADSRDLS& adsr = static_cast<amuse::ADSRDLS&>(table);
m_undoVal = adsr.getSustain();
adsr.setSustain(m_redoVal);
} else if (table.Isa() == amuse::ITable::Type::ADSR) {
amuse::ADSR& adsr = static_cast<amuse::ADSR&>(table);
m_undoVal = adsr.getSustain();
adsr.setSustain(m_redoVal);
}
if (m_undid)
EditorUndoCommand::redo();
}
bool mergeWith(const QUndoCommand* other) override {
if (other->id() == id()) {
m_redoVal = static_cast<const ADSRSustainUndoCommand*>(other)->m_redoVal;
return true;
}
return false;
}
int id() const override { return int(Id::ADSRSustain); }
};
void ADSRControls::sustainChanged(double val) {
if (m_enableUpdate) {
ADSRView* view = getEditor()->m_adsrView;
g_MainWindow->pushUndoCommand(new ADSRSustainUndoCommand(val / 100.0, view->m_node));
view->update();
}
}
class ADSRAttackAndDecayUndoCommand : public EditorUndoCommand {
double m_redoAttack, m_redoDecay;
double m_undoAttack, m_undoDecay;
uint64_t m_cycleCount;
bool m_undid = false;
public:
ADSRAttackAndDecayUndoCommand(double redoAttack, double redoDecay, uint64_t cycleCount,
amuse::ObjToken<ProjectModel::ADSRNode> node)
: EditorUndoCommand(node.get(), ADSRControls::tr("Change Attack/Decay"))
, m_redoAttack(redoAttack)
, m_redoDecay(redoDecay)
, m_cycleCount(cycleCount) {}
void undo() override {
m_undid = true;
amuse::ITable& table = **m_node.cast<ProjectModel::ADSRNode>()->m_obj;
if (table.Isa() == amuse::ITable::Type::ADSRDLS) {
amuse::ADSRDLS& adsr = static_cast<amuse::ADSRDLS&>(table);
adsr.setAttack(m_undoAttack);
adsr.setDecay(m_undoDecay);
} else if (table.Isa() == amuse::ITable::Type::ADSR) {
amuse::ADSR& adsr = static_cast<amuse::ADSR&>(table);
adsr.setAttack(m_undoAttack);
adsr.setDecay(m_undoDecay);
}
EditorUndoCommand::undo();
}
void redo() override {
amuse::ITable& table = **m_node.cast<ProjectModel::ADSRNode>()->m_obj;
if (table.Isa() == amuse::ITable::Type::ADSRDLS) {
amuse::ADSRDLS& adsr = static_cast<amuse::ADSRDLS&>(table);
m_undoAttack = adsr.getAttack();
m_undoDecay = adsr.getDecay();
adsr.setAttack(m_redoAttack);
adsr.setDecay(m_redoDecay);
} else if (table.Isa() == amuse::ITable::Type::ADSR) {
amuse::ADSR& adsr = static_cast<amuse::ADSR&>(table);
m_undoAttack = adsr.getAttack();
m_undoDecay = adsr.getDecay();
adsr.setAttack(m_redoAttack);
adsr.setDecay(m_redoDecay);
}
if (m_undid)
EditorUndoCommand::redo();
}
bool mergeWith(const QUndoCommand* other) override {
if (other->id() == id() && m_cycleCount == static_cast<const ADSRAttackAndDecayUndoCommand*>(other)->m_cycleCount) {
m_redoAttack = static_cast<const ADSRAttackAndDecayUndoCommand*>(other)->m_redoAttack;
m_redoDecay = static_cast<const ADSRAttackAndDecayUndoCommand*>(other)->m_redoDecay;
return true;
}
return false;
}
int id() const override { return int(Id::ADSRAttackAndDecay); }
};
void ADSRControls::setAttackAndDecay(double attack, double decay, uint64_t cycleCount) {
m_enableUpdate = false;
m_attack->setValue(attack);
m_decay->setValue(decay);
m_enableUpdate = true;
ADSRView* view = getEditor()->m_adsrView;
g_MainWindow->pushUndoCommand(
new ADSRAttackAndDecayUndoCommand(m_attack->value(), m_decay->value(), cycleCount, view->m_node));
view->update();
}
class ADSRDecayAndSustainUndoCommand : public EditorUndoCommand {
double m_redoDecay, m_redoSustain;
double m_undoDecay, m_undoSustain;
uint64_t m_cycleCount;
bool m_undid = false;
public:
ADSRDecayAndSustainUndoCommand(double redoDecay, double redoSustain, uint64_t cycleCount,
amuse::ObjToken<ProjectModel::ADSRNode> node)
: EditorUndoCommand(node.get(), ADSRControls::tr("Change Decay/Sustain"))
, m_redoDecay(redoDecay)
, m_redoSustain(redoSustain)
, m_cycleCount(cycleCount) {}
void undo() override {
m_undid = true;
amuse::ITable& table = **m_node.cast<ProjectModel::ADSRNode>()->m_obj;
if (table.Isa() == amuse::ITable::Type::ADSRDLS) {
amuse::ADSRDLS& adsr = static_cast<amuse::ADSRDLS&>(table);
adsr.setDecay(m_undoDecay);
adsr.setSustain(m_undoSustain);
} else if (table.Isa() == amuse::ITable::Type::ADSR) {
amuse::ADSR& adsr = static_cast<amuse::ADSR&>(table);
adsr.setDecay(m_undoDecay);
adsr.setSustain(m_undoSustain);
}
EditorUndoCommand::undo();
}
void redo() override {
amuse::ITable& table = **m_node.cast<ProjectModel::ADSRNode>()->m_obj;
if (table.Isa() == amuse::ITable::Type::ADSRDLS) {
amuse::ADSRDLS& adsr = static_cast<amuse::ADSRDLS&>(table);
m_undoDecay = adsr.getDecay();
m_undoSustain = adsr.getSustain();
adsr.setDecay(m_redoDecay);
adsr.setSustain(m_redoSustain);
} else if (table.Isa() == amuse::ITable::Type::ADSR) {
amuse::ADSR& adsr = static_cast<amuse::ADSR&>(table);
m_undoDecay = adsr.getDecay();
m_undoSustain = adsr.getSustain();
adsr.setDecay(m_redoDecay);
adsr.setSustain(m_redoSustain);
}
if (m_undid)
EditorUndoCommand::redo();
}
bool mergeWith(const QUndoCommand* other) override {
if (other->id() == id() &&
m_cycleCount == static_cast<const ADSRDecayAndSustainUndoCommand*>(other)->m_cycleCount) {
m_redoDecay = static_cast<const ADSRDecayAndSustainUndoCommand*>(other)->m_redoDecay;
m_redoSustain = static_cast<const ADSRDecayAndSustainUndoCommand*>(other)->m_redoSustain;
return true;
}
return false;
}
int id() const override { return int(Id::ADSRDecayAndSustain); }
};
void ADSRControls::setDecayAndSustain(double decay, double sustain, uint64_t cycleCount) {
m_enableUpdate = false;
m_decay->setValue(decay);
m_sustain->setValue(sustain);
m_enableUpdate = true;
ADSRView* view = getEditor()->m_adsrView;
g_MainWindow->pushUndoCommand(
new ADSRDecayAndSustainUndoCommand(m_decay->value(), m_sustain->value() / 100.0, cycleCount, view->m_node));
view->update();
}
class ADSRReleaseUndoCommand : public EditorUndoCommand {
double m_redoVal, m_undoVal;
uint64_t m_cycleCount;
bool m_undid = false;
public:
ADSRReleaseUndoCommand(double redoVal, uint64_t cycleCount, amuse::ObjToken<ProjectModel::ADSRNode> node)
: EditorUndoCommand(node.get(), ADSRControls::tr("Change Release")), m_redoVal(redoVal), m_cycleCount(cycleCount) {}
void undo() override {
m_undid = true;
amuse::ITable& table = **m_node.cast<ProjectModel::ADSRNode>()->m_obj;
if (table.Isa() == amuse::ITable::Type::ADSRDLS) {
amuse::ADSRDLS& adsr = static_cast<amuse::ADSRDLS&>(table);
adsr.setRelease(m_undoVal);
} else if (table.Isa() == amuse::ITable::Type::ADSR) {
amuse::ADSR& adsr = static_cast<amuse::ADSR&>(table);
adsr.setRelease(m_undoVal);
}
EditorUndoCommand::undo();
}
void redo() override {
amuse::ITable& table = **m_node.cast<ProjectModel::ADSRNode>()->m_obj;
if (table.Isa() == amuse::ITable::Type::ADSRDLS) {
amuse::ADSRDLS& adsr = static_cast<amuse::ADSRDLS&>(table);
m_undoVal = adsr.getRelease();
adsr.setRelease(m_redoVal);
} else if (table.Isa() == amuse::ITable::Type::ADSR) {
amuse::ADSR& adsr = static_cast<amuse::ADSR&>(table);
m_undoVal = adsr.getRelease();
adsr.setRelease(m_redoVal);
}
if (m_undid)
EditorUndoCommand::redo();
}
bool mergeWith(const QUndoCommand* other) override {
if (other->id() == id() && m_cycleCount == static_cast<const ADSRReleaseUndoCommand*>(other)->m_cycleCount) {
m_redoVal = static_cast<const ADSRReleaseUndoCommand*>(other)->m_redoVal;
return true;
}
return false;
}
int id() const override { return int(Id::ADSRRelease); }
};
void ADSRControls::setRelease(double release, uint64_t cycleCount) {
m_enableUpdate = false;
m_release->setValue(release);
m_enableUpdate = true;
ADSRView* view = getEditor()->m_adsrView;
g_MainWindow->pushUndoCommand(new ADSRReleaseUndoCommand(m_release->value(), cycleCount, view->m_node));
view->update();
}
void ADSRControls::releaseChanged(double val) {
if (m_enableUpdate) {
ADSRView* view = getEditor()->m_adsrView;
g_MainWindow->pushUndoCommand(new ADSRReleaseUndoCommand(val, ~0ull, view->m_node));
view->update();
}
}
template <class T>
static std::unique_ptr<T> MakeAlternateVersion(amuse::ITable& table) {
std::unique_ptr<T> ret = std::make_unique<T>();
if (table.Isa() == amuse::ITable::Type::ADSRDLS) {
amuse::ADSRDLS& adsr = static_cast<amuse::ADSRDLS&>(table);
ret->setAttack(adsr.getAttack());
ret->setDecay(adsr.getDecay());
ret->setSustain(adsr.getSustain());
ret->setRelease(adsr.getRelease());
} else if (table.Isa() == amuse::ITable::Type::ADSR) {
amuse::ADSR& adsr = static_cast<amuse::ADSR&>(table);
ret->setAttack(adsr.getAttack());
ret->setDecay(adsr.getDecay());
ret->setSustain(adsr.getSustain());
ret->setRelease(adsr.getRelease());
}
return ret;
}
class ADSRDLSUndoCommand : public EditorUndoCommand {
bool m_redoVal;
double m_redoVelToAttack, m_redoKeyToDecay;
double m_undoVelToAttack, m_undoKeyToDecay;
bool m_undid = false;
public:
ADSRDLSUndoCommand(bool redoVal, double redoVelToAttack, double redoKeyToDecay,
amuse::ObjToken<ProjectModel::ADSRNode> node)
: EditorUndoCommand(node.get(), ADSRControls::tr("Change DLS"))
, m_redoVal(redoVal)
, m_redoVelToAttack(redoVelToAttack)
, m_redoKeyToDecay(redoKeyToDecay) {}
void undo() override {
m_undid = true;
std::unique_ptr<amuse::ITable>& table = *m_node.cast<ProjectModel::ADSRNode>()->m_obj;
if ((table->Isa() == amuse::ITable::Type::ADSRDLS && !m_redoVal) ||
(table->Isa() == amuse::ITable::Type::ADSR && m_redoVal))
return;
std::unique_ptr<amuse::ITable> oldTable = std::move(table);
if (!m_redoVal) {
table = MakeAlternateVersion<amuse::ADSRDLS>(*oldTable);
static_cast<amuse::ADSRDLS&>(*table)._setVelToAttack(m_undoVelToAttack);
static_cast<amuse::ADSRDLS&>(*table)._setKeyToDecay(m_undoKeyToDecay);
} else {
table = MakeAlternateVersion<amuse::ADSR>(*oldTable);
}
EditorUndoCommand::undo();
}
void redo() override {
std::unique_ptr<amuse::ITable>& table = *m_node.cast<ProjectModel::ADSRNode>()->m_obj;
if ((table->Isa() == amuse::ITable::Type::ADSRDLS && m_redoVal) ||
(table->Isa() == amuse::ITable::Type::ADSR && !m_redoVal))
return;
std::unique_ptr<amuse::ITable> oldTable = std::move(table);
if (m_redoVal) {
table = MakeAlternateVersion<amuse::ADSRDLS>(*oldTable);
static_cast<amuse::ADSRDLS&>(*table)._setVelToAttack(m_redoVelToAttack);
static_cast<amuse::ADSRDLS&>(*table)._setKeyToDecay(m_redoKeyToDecay);
} else {
if (oldTable->Isa() == amuse::ITable::Type::ADSRDLS) {
m_undoVelToAttack = static_cast<amuse::ADSRDLS&>(*oldTable)._getVelToAttack();
m_undoKeyToDecay = static_cast<amuse::ADSRDLS&>(*oldTable)._getKeyToDecay();
}
table = MakeAlternateVersion<amuse::ADSR>(*oldTable);
}
if (m_undid)
EditorUndoCommand::redo();
}
bool mergeWith(const QUndoCommand* other) override {
if (other->id() == id()) {
m_redoVal = static_cast<const ADSRDLSUndoCommand*>(other)->m_redoVal;
m_redoVelToAttack = static_cast<const ADSRDLSUndoCommand*>(other)->m_redoVelToAttack;
m_redoKeyToDecay = static_cast<const ADSRDLSUndoCommand*>(other)->m_redoKeyToDecay;
return true;
}
return false;
}
int id() const override { return int(Id::ADSRDLS); }
};
void ADSRControls::dlsStateChanged(int state) {
if (m_enableUpdate) {
m_velToAttackLab->setVisible(state == Qt::Checked);
m_velToAttack->setVisible(state == Qt::Checked);
m_keyToDecayLab->setVisible(state == Qt::Checked);
m_keyToDecay->setVisible(state == Qt::Checked);
ADSRView* view = getEditor()->m_adsrView;
g_MainWindow->pushUndoCommand(
new ADSRDLSUndoCommand(state == Qt::Checked, m_velToAttack->value(), m_keyToDecay->value(), view->m_node));
view->update();
}
}
class ADSRVelToAttackUndoCommand : public EditorUndoCommand {
double m_redoVal, m_undoVal;
bool m_undid = false;
public:
ADSRVelToAttackUndoCommand(double redoVal, amuse::ObjToken<ProjectModel::ADSRNode> node)
: EditorUndoCommand(node.get(), ADSRControls::tr("Change Vel To Attack")), m_redoVal(redoVal) {}
void undo() override {
m_undid = true;
amuse::ITable& table = **m_node.cast<ProjectModel::ADSRNode>()->m_obj;
if (table.Isa() == amuse::ITable::Type::ADSRDLS) {
amuse::ADSRDLS& adsr = static_cast<amuse::ADSRDLS&>(table);
adsr._setVelToAttack(m_undoVal);
}
EditorUndoCommand::undo();
}
void redo() override {
amuse::ITable& table = **m_node.cast<ProjectModel::ADSRNode>()->m_obj;
if (table.Isa() == amuse::ITable::Type::ADSRDLS) {
amuse::ADSRDLS& adsr = static_cast<amuse::ADSRDLS&>(table);
m_undoVal = adsr._getVelToAttack();
adsr._setVelToAttack(m_redoVal);
}
if (m_undid)
EditorUndoCommand::redo();
}
bool mergeWith(const QUndoCommand* other) override {
if (other->id() == id()) {
m_redoVal = static_cast<const ADSRVelToAttackUndoCommand*>(other)->m_redoVal;
return true;
}
return false;
}
int id() const override { return int(Id::ADSRVelToAttack); }
};
void ADSRControls::velToAttackChanged(double val) {
if (m_enableUpdate) {
ADSRView* view = getEditor()->m_adsrView;
g_MainWindow->pushUndoCommand(new ADSRVelToAttackUndoCommand(val, view->m_node));
view->update();
}
}
class ADSRKeyToDecayUndoCommand : public EditorUndoCommand {
double m_redoVal, m_undoVal;
bool m_undid = false;
public:
ADSRKeyToDecayUndoCommand(double redoVal, amuse::ObjToken<ProjectModel::ADSRNode> node)
: EditorUndoCommand(node.get(), ADSRControls::tr("Change Key To Decay")), m_redoVal(redoVal) {}
void undo() override {
m_undid = true;
amuse::ITable& table = **m_node.cast<ProjectModel::ADSRNode>()->m_obj;
if (table.Isa() == amuse::ITable::Type::ADSRDLS) {
amuse::ADSRDLS& adsr = static_cast<amuse::ADSRDLS&>(table);
adsr._setKeyToDecay(m_undoVal);
}
EditorUndoCommand::undo();
}
void redo() override {
amuse::ITable& table = **m_node.cast<ProjectModel::ADSRNode>()->m_obj;
if (table.Isa() == amuse::ITable::Type::ADSRDLS) {
amuse::ADSRDLS& adsr = static_cast<amuse::ADSRDLS&>(table);
m_undoVal = adsr._getKeyToDecay();
adsr._setKeyToDecay(m_redoVal);
}
if (m_undid)
EditorUndoCommand::redo();
}
bool mergeWith(const QUndoCommand* other) override {
if (other->id() == id()) {
m_redoVal = static_cast<const ADSRKeyToDecayUndoCommand*>(other)->m_redoVal;
return true;
}
return false;
}
int id() const override { return int(Id::ADSRKeyToDecay); }
};
void ADSRControls::keyToDecayChanged(double val) {
if (m_enableUpdate) {
ADSRView* view = getEditor()->m_adsrView;
g_MainWindow->pushUndoCommand(new ADSRKeyToDecayUndoCommand(val, view->m_node));
view->update();
}
}
ADSRControls::ADSRControls(QWidget* parent) : QFrame(parent) {
setSizePolicy(QSizePolicy::Preferred, QSizePolicy::Fixed);
setFixedHeight(100);
setFrameShape(QFrame::StyledPanel);
setFrameShadow(QFrame::Sunken);
setBackgroundRole(QPalette::Base);
setAutoFillBackground(true);
QHBoxLayout* mainLayout = new QHBoxLayout;
QGridLayout* leftLayout = new QGridLayout;
QPalette palette = QWidget::palette();
palette.setColor(QPalette::Base, palette.color(QPalette::Window));
palette.setColor(QPalette::Text, Red);
QLabel* lab = new QLabel(tr("Attack"));
lab->setPalette(palette);
leftLayout->addWidget(lab, 0, 0);
m_attack = new QDoubleSpinBox;
m_attack->setDisabled(true);
m_attack->setRange(0, 65.535);
m_attack->setDecimals(3);
m_attack->setSingleStep(0.1);
m_attack->setSuffix(tr(" sec"));
m_attack->setPalette(palette);
connect(m_attack, SIGNAL(valueChanged(double)), this, SLOT(attackChanged(double)));
leftLayout->addWidget(m_attack, 1, 0);
palette.setColor(QPalette::Text, Green);
lab = new QLabel(tr("Decay"));
lab->setPalette(palette);
leftLayout->addWidget(lab, 0, 1);
m_decay = new QDoubleSpinBox;
m_decay->setDisabled(true);
m_decay->setRange(0, 65.535);
m_decay->setDecimals(3);
m_decay->setSingleStep(0.1);
m_decay->setSuffix(tr(" sec"));
m_decay->setPalette(palette);
connect(m_decay, SIGNAL(valueChanged(double)), this, SLOT(decayChanged(double)));
leftLayout->addWidget(m_decay, 1, 1);
palette.setColor(QPalette::Text, Qt::white);
leftLayout->addWidget(new QLabel(tr("Sustain")), 0, 2);
m_sustain = new QDoubleSpinBox;
m_sustain->setDisabled(true);
m_sustain->setRange(0.0, 100.0);
m_sustain->setDecimals(3);
m_sustain->setSuffix(tr(" %"));
m_sustain->setPalette(palette);
connect(m_sustain, SIGNAL(valueChanged(double)), this, SLOT(sustainChanged(double)));
leftLayout->addWidget(m_sustain, 1, 2);
palette.setColor(QPalette::Text, Blue);
lab = new QLabel(tr("Release"));
lab->setPalette(palette);
leftLayout->addWidget(lab, 0, 3);
m_release = new QDoubleSpinBox;
m_release->setDisabled(true);
m_release->setRange(0.0, 65.535);
m_release->setDecimals(3);
m_release->setSingleStep(0.1);
m_release->setSuffix(tr(" sec"));
m_release->setPalette(palette);
connect(m_release, SIGNAL(valueChanged(double)), this, SLOT(releaseChanged(double)));
leftLayout->addWidget(m_release, 1, 3);
palette.setColor(QPalette::Text, Qt::white);
leftLayout->addWidget(new QLabel(tr("DLS")), 0, 4);
m_dls = new QCheckBox;
m_dls->setPalette(palette);
m_dls->setDisabled(true);
m_dls->setChecked(false);
connect(m_dls, SIGNAL(stateChanged(int)), this, SLOT(dlsStateChanged(int)));
leftLayout->addWidget(m_dls, 1, 4);
m_velToAttackLab = new QLabel(tr("Vel To Attack"));
m_velToAttackLab->setVisible(false);
leftLayout->addWidget(m_velToAttackLab, 0, 5);
m_velToAttack = new QDoubleSpinBox;
m_velToAttack->setVisible(false);
m_velToAttack->setRange(0.0, 9999.999);
m_velToAttack->setDecimals(3);
m_velToAttack->setSingleStep(1.0);
m_velToAttack->setPalette(palette);
connect(m_velToAttack, SIGNAL(valueChanged(double)), this, SLOT(velToAttackChanged(double)));
leftLayout->addWidget(m_velToAttack, 1, 5);
m_keyToDecayLab = new QLabel(tr("Key To Decay"));
m_keyToDecayLab->setVisible(false);
leftLayout->addWidget(m_keyToDecayLab, 0, 6);
m_keyToDecay = new QDoubleSpinBox;
m_keyToDecay->setVisible(false);
m_keyToDecay->setRange(0.0, 9999.999);
m_keyToDecay->setDecimals(3);
m_keyToDecay->setSingleStep(1.0);
m_keyToDecay->setPalette(palette);
connect(m_keyToDecay, SIGNAL(valueChanged(double)), this, SLOT(keyToDecayChanged(double)));
leftLayout->addWidget(m_keyToDecay, 1, 6);
leftLayout->setColumnMinimumWidth(0, 75);
leftLayout->setColumnStretch(0, 1);
leftLayout->setColumnMinimumWidth(1, 75);
leftLayout->setColumnStretch(1, 1);
leftLayout->setColumnMinimumWidth(2, 75);
leftLayout->setColumnStretch(2, 1);
leftLayout->setColumnMinimumWidth(3, 75);
leftLayout->setColumnStretch(3, 1);
leftLayout->setColumnMinimumWidth(4, 50);
leftLayout->setColumnStretch(4, 0);
leftLayout->setColumnMinimumWidth(5, 75);
leftLayout->setColumnStretch(5, 1);
leftLayout->setColumnMinimumWidth(6, 75);
leftLayout->setColumnStretch(6, 1);
leftLayout->setRowMinimumHeight(0, 22);
leftLayout->setRowMinimumHeight(1, 37);
leftLayout->setContentsMargins(10, 6, 0, 14);
mainLayout->addLayout(leftLayout);
mainLayout->addStretch();
setLayout(mainLayout);
}
bool ADSREditor::loadData(ProjectModel::ADSRNode* node) {
m_adsrView->loadData(node);
m_controls->loadData();
return true;
}
void ADSREditor::unloadData() {
m_adsrView->unloadData();
m_controls->unloadData();
}
ProjectModel::INode* ADSREditor::currentNode() const { return m_adsrView->currentNode(); }
ADSREditor::ADSREditor(QWidget* parent) : EditorWidget(parent), m_adsrView(new ADSRView), m_controls(new ADSRControls) {
QVBoxLayout* layout = new QVBoxLayout;
layout->setContentsMargins(QMargins());
layout->setSpacing(1);
layout->addWidget(m_adsrView);
layout->addWidget(m_controls);
setLayout(layout);
}