RadioConvDialog::RadioConvDialog() : GfxDialog() {
int idx;
// Set up the list of buttons
int maxWidth = 0;
for (idx = 0; idx < 8; ++idx) {
_buttons[idx].setText(RADIO_BTN_LIST[idx]);
maxWidth = MAX(maxWidth, (int)_buttons[idx]._bounds.width());
add(&_buttons[idx]);
}
// Set up the button positions and add them to the dialog
for (idx = 0; idx < 8; ++idx) {
_buttons[idx]._bounds.moveTo((idx % 2) * maxWidth + 2,
idx / 2 * _buttons[idx]._bounds.height() + 2);
_buttons[idx]._bounds.setWidth(maxWidth);
add(&_buttons[idx]);
}
// Set the dialog size and position
setDefaults();
setTopLeft(8, 92);
BF_GLOBALS._events.setCursor(CURSOR_ARROW);
}
void Square::setHalfEdge(double he)
{
QPointF c = center();
setTopLeft(QPointF(c.x()-he, c.y()-he));
setBottomRight(QPointF(c.x()+he, c.y()+he));
}
void CRoom_2x1::update()
{
CRoom::update();
if (!correctRoomCollision_down())
{
if (!correctMapCollision_down())
{
m_topLeft.x += (int) m_sAtributes.velosity_x;
m_topLeft.y += (int) m_sAtributes.velosity_y;
setTopLeft(m_topLeft);
isFalling = true;
}
}
// only update the adjacent room pointers when not falling
if (!isFalling)
{
checkPtrs(1); // for now just 1 pixel
}
else // is falling - null pointers to prevent weird pathing glitches
{
nullPtrs();
}
}
void Square::setCenter(double x, double y)
{
QSizeF s=size();
double he = halfEdge();
setTopLeft(QPointF(x-he, y-he));
setSize(s);
}
void Square::setCeter(const QPointF& c)
{
QSizeF s=size();
double he = halfEdge();
setTopLeft(QPointF(c.x()-he, c.y()-he));
setSize(s);
}
void Circle::translate(const Point& tr)
{
center.translate(tr);
setTopLeft( Point(center.getX() - radius, center.getY() - radius) );
setBtmRight( Point(center.getX() + radius, center.getY() + radius) );
}
void Line::translate(const Point& tr)
{
p1.translate(tr);
p2.translate(tr);
setTopLeft( Point( min(p1.getX(), p2.getX() ), min( p1.getY(), p2.getY()) ) );
setBtmRight( Point( max(p1.getX(), p2.getX() ), max( p1.getY(), p2.getY()) ) );
}
void Line::setCoord(const double * coord, unsigned size)
{
if (size < 4)
return;
p1.setX(coord[0]);
p1.setY(coord[1]);
p2.setX(coord[2]);
p2.setY(coord[3]);
setTopLeft( Point( min(p1.getX(), p2.getX() ), min( p1.getY(), p2.getY()) ) );
setBtmRight( Point( max(p1.getX(), p2.getX() ), max( p1.getY(), p2.getY()) ) );
}
QMPointer<QMJsonValue> QM_JSON_EXPORT QMJsonType<QRect>::fromComplexJson(const QMPointer<QMJsonObject> &obj)
{
auto rect = QRect();
if (obj.isNull() == true)
return QMPointer<QMJsonValue>(new QMJsonValue(rect));
auto size = QMJsonValue::fromComplexJson(obj->value("size"));
auto point = QMJsonValue::fromComplexJson(obj->value("point"));
rect.setTopLeft(point->to<QPoint>(QPoint()));
rect.setSize(size->to<QSize>(QSize()));
return QMPointer<QMJsonValue>(new QMJsonValue(rect));
}
void PiShape::configure(const std::string& parameters) {
if (parameters.empty()) return;
std::vector<std::string> values = Op::split(parameters, " ");
std::size_t required = 4;
if (values.size() < required) {
std::ostringstream ex;
ex << "[configuration error] term <" << className() << ">"
<< " requires <" << required << "> parameters";
throw fl::Exception(ex.str(), FL_AT);
}
setBottomLeft(Op::toScalar(values.at(0)));
setTopLeft(Op::toScalar(values.at(1)));
setTopRight(Op::toScalar(values.at(2)));
setBottomRight(Op::toScalar(values.at(3)));
if (values.size() > required)
setHeight(Op::toScalar(values.at(required)));
}
void Circle::setCoord(const double * coord, unsigned size)
{
if (size < 3)
return;
center.setX(coord[0]);
center.setY(coord[1]);
if (coord[2] > 0)
radius = coord[2];
setTopLeft( Point(center.getX() - radius, center.getY() - radius) );
setBtmRight( Point(center.getX() + radius, center.getY() + radius) );
}
void GfxDialog::setCenter(int xp, int yp) {
setTopLeft(xp - (_bounds.width() / 2), yp - (_bounds.height() / 2));
}
bool setTopLeft(const Point& p, RepaintOption repaint = repaintNot) {return setTopLeft(p.x, p.y, repaint);}