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/***
Olive - Non-Linear Video Editor
Copyright (C) 2019 Olive Team
This program 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.
This program 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 this program. If not, see <http://www.gnu.org/licenses/>.
***/
#include "matrix.h"
#include <QGuiApplication>
#include <QMatrix4x4>
#include <QVector2D>
#include "common/range.h"
OLIVE_NAMESPACE_ENTER
MatrixGenerator::MatrixGenerator()
{
position_input_ = new NodeInput("pos_in", NodeParam::kVec2, QVector2D());
AddInput(position_input_);
rotation_input_ = new NodeInput("rot_in", NodeParam::kFloat, 0.0f);
AddInput(rotation_input_);
scale_input_ = new NodeInput("scale_in", NodeParam::kVec2, QVector2D(1.0f, 1.0f));
scale_input_->set_property("min", QVector2D(0, 0));
scale_input_->set_property("view", "percent");
scale_input_->set_property("disabley", true);
AddInput(scale_input_);
uniform_scale_input_ = new NodeInput("uniform_scale_in", NodeParam::kBoolean, true);
uniform_scale_input_->set_is_keyframable(false);
uniform_scale_input_->set_connectable(false);
connect(uniform_scale_input_, &NodeInput::ValueChanged, this, &MatrixGenerator::UniformScaleChanged);
AddInput(uniform_scale_input_);
anchor_input_ = new NodeInput("anchor_in", NodeParam::kVec2, QVector2D());
AddInput(anchor_input_);
}
Node *MatrixGenerator::copy() const
{
return new MatrixGenerator();
}
QString MatrixGenerator::Name() const
{
return tr("Orthographic Matrix");
}
QString MatrixGenerator::ShortName() const
{
return tr("Ortho");
}
QString MatrixGenerator::id() const
{
return QStringLiteral("org.olivevideoeditor.Olive.transform");
}
QList<Node::CategoryID> MatrixGenerator::Category() const
{
return {kCategoryGenerator, kCategoryMath};
}
QString MatrixGenerator::Description() const
{
return tr("Generate an orthographic matrix using position, rotation, and scale.");
}
void MatrixGenerator::Retranslate()
{
position_input_->set_name(tr("Position"));
rotation_input_->set_name(tr("Rotation"));
scale_input_->set_name(tr("Scale"));
uniform_scale_input_->set_name(tr("Uniform Scale"));
anchor_input_->set_name(tr("Anchor Point"));
}
NodeValueTable MatrixGenerator::Value(NodeValueDatabase &value) const
{
// Push matrix output
QMatrix4x4 mat = GenerateMatrix(value);
NodeValueTable output = value.Merge();
output.Push(NodeParam::kMatrix, mat, this);
return output;
}
bool MatrixGenerator::GizmoPress(NodeValueDatabase &db, const QPointF &p, const QVector2D &scale, const QSize &viewport)
{
GizmoSharedData gizmo_data(viewport, scale);
QPointF anchor_pt = GetGizmoAnchorPoint(db, gizmo_data);
int anchor_radius = GetGizmoAnchorPointRadius();
if (InRange(p.x(), anchor_pt.x(), anchor_radius * 2.0)
&& InRange(p.y(), anchor_pt.y(), anchor_radius * 2.0)) {
gizmo_drag_ = anchor_input_;
gizmo_start2_ = db[position_input_].Get(NodeParam::kVec2).value<QVector2D>();
} else {
gizmo_drag_ = position_input_;
}
gizmo_start_ = db[gizmo_drag_].Get(NodeParam::kVec2).value<QVector2D>();
gizmo_mouse_start_ = p;
return true;
}
void MatrixGenerator::GizmoMove(const QPointF &p, const QVector2D &scale, const rational &time)
{
QVector2D movement = 2.0 * QVector2D(p - gizmo_mouse_start_) / scale;
QVector2D new_pos = gizmo_start_ + movement;
if (!gizmo_x_dragger_.IsStarted()) {
gizmo_x_dragger_.Start(gizmo_drag_, time, 0);
}
if (!gizmo_y_dragger_.IsStarted()) {
gizmo_y_dragger_.Start(gizmo_drag_, time, 1);
}
gizmo_x_dragger_.Drag(new_pos.x());
gizmo_y_dragger_.Drag(new_pos.y());
if (gizmo_drag_ == anchor_input_) {
// If we're dragging the anchor, counter the position at the same time
QVector2D new_pos2 = gizmo_start2_ + movement;
if (!gizmo_x2_dragger_.IsStarted()) {
gizmo_x2_dragger_.Start(position_input_, time, 0);
}
if (!gizmo_y2_dragger_.IsStarted()) {
gizmo_y2_dragger_.Start(position_input_, time, 1);
}
gizmo_x2_dragger_.Drag(new_pos2.x());
gizmo_y2_dragger_.Drag(new_pos2.y());
}
}
void MatrixGenerator::GizmoRelease()
{
gizmo_x_dragger_.End();
gizmo_y_dragger_.End();
gizmo_x2_dragger_.End();
gizmo_y2_dragger_.End();
}
bool MatrixGenerator::HasGizmos() const
{
return true;
}
void MatrixGenerator::DrawGizmos(NodeValueDatabase &db, QPainter *p, const QVector2D &scale, const QSize& viewport) const
{
p->setPen(Qt::white);
GizmoSharedData gizmo_data(viewport, scale);
{
// Fold values into a matrix
QMatrix4x4 matrix;
matrix.scale(gizmo_data.half_scale);
matrix *= GenerateMatrix(db, false);
matrix.scale(gizmo_data.inverted_half_scale);
// Create rect and transform it
QVector<QPointF> points = {QPointF(-100, -100),
QPointF(100, -100),
QPointF(100, 100),
QPointF(-100, 100),
QPointF(-100, -100)};
QPolygonF poly(points);
poly = matrix.toTransform().map(poly);
poly.translate(gizmo_data.half_viewport);
// Draw square
p->drawPolyline(poly);
}
{
// Draw anchor point marker (with no anchor point translation)
QPointF pt = GetGizmoAnchorPoint(db, gizmo_data);
// Draw anchor point
int anchor_pt_radius = GetGizmoAnchorPointRadius();
p->drawEllipse(pt, anchor_pt_radius, anchor_pt_radius);
p->drawLines({QLineF(pt.x() - anchor_pt_radius, pt.y(),
pt.x() + anchor_pt_radius, pt.y()),
QLineF(pt.x(), pt.y() - anchor_pt_radius,
pt.x(), pt.y() + anchor_pt_radius)});
}
}
QMatrix4x4 MatrixGenerator::GenerateMatrix(NodeValueDatabase &value) const
{
return GenerateMatrix(value[position_input_].Take(NodeParam::kVec2).value<QVector2D>(),
value[rotation_input_].Take(NodeParam::kFloat).toFloat(),
value[scale_input_].Take(NodeParam::kVec2).value<QVector2D>(),
value[uniform_scale_input_].Take(NodeParam::kBoolean).toBool(),
value[anchor_input_].Take(NodeParam::kVec2).value<QVector2D>());
}
QMatrix4x4 MatrixGenerator::GenerateMatrix(NodeValueDatabase &value, bool ignore_anchor) const
{
QVector2D anchor;
if (!ignore_anchor) {
anchor = value[anchor_input_].Get(NodeParam::kVec2).value<QVector2D>();
}
return GenerateMatrix(value[position_input_].Get(NodeParam::kVec2).value<QVector2D>(),
value[rotation_input_].Get(NodeParam::kFloat).toFloat(),
value[scale_input_].Get(NodeParam::kVec2).value<QVector2D>(),
value[uniform_scale_input_].Get(NodeParam::kBoolean).toBool(),
anchor);
}
QMatrix4x4 MatrixGenerator::GenerateMatrix(const QVector2D& pos,
const float& rot,
const QVector2D& scale,
bool uniform_scale,
const QVector2D& anchor)
{
QMatrix4x4 mat;
// Position
mat.translate(pos);
// Rotation
mat.rotate(rot, 0, 0, 1);
// Scale (convert to a QVector3D so that the identity matrix is preserved if all values are 1.0f)
QVector3D full_scale;
if (uniform_scale) {
full_scale = QVector3D(scale.x(), scale.x(), 1.0f);
} else {
full_scale = QVector3D(scale, 1.0f);
}
mat.scale(full_scale);
// Anchor Point
mat.translate(-anchor);
return mat;
}
QPointF MatrixGenerator::GetGizmoAnchorPoint(NodeValueDatabase &db,
const GizmoSharedData& gizmo_data) const
{
QMatrix4x4 matrix;
matrix.scale(gizmo_data.half_scale);
matrix *= GenerateMatrix(db, true);
matrix.scale(gizmo_data.inverted_half_scale);
QPointF pt = matrix.toTransform().map(QPointF());
pt += gizmo_data.half_viewport;
return pt;
}
int MatrixGenerator::GetGizmoAnchorPointRadius()
{
return QFontMetrics(qApp->font()).height() / 2;
}
void MatrixGenerator::UniformScaleChanged()
{
scale_input_->set_property("disabley", uniform_scale_input_->get_standard_value().toBool());
}
MatrixGenerator::GizmoSharedData::GizmoSharedData(const QSize &viewport, const QVector2D &scale)
{
half_viewport = QPointF(viewport.width() / 2, viewport.height() / 2);
half_scale = scale * 0.5;
inverted_half_scale = QVector2D(1.0f / half_scale.x(), 1.0f / half_scale.y());
}
OLIVE_NAMESPACE_EXIT
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