Qt::Alignment QSpacerItemProto::alignment() const { QSpacerItem *item = qscriptvalue_cast<QSpacerItem*>(thisObject()); if (item) return item->alignment(); return (Qt::Alignment)0; }
QSpacerItem *QSpacerItemProto::spacerItem() { QSpacerItem *item = qscriptvalue_cast<QSpacerItem*>(thisObject()); if (item) return item->spacerItem(); return 0; }
QWidget *QSpacerItemProto::widget() { QSpacerItem *item = qscriptvalue_cast<QSpacerItem*>(thisObject()); if (item) return item->widget(); return 0; }
Qt::Orientations QSpacerItemProto::expandingDirections() const { QSpacerItem *item = qscriptvalue_cast<QSpacerItem*>(thisObject()); if (item) return item->expandingDirections(); return (Qt::Orientations)0; }
QSize QSpacerItemProto::sizeHint() const { QSpacerItem *item = qscriptvalue_cast<QSpacerItem*>(thisObject()); if (item) return item->sizeHint(); return QSize(); }
int QSpacerItemProto::minimumHeightForWidth(int w) const { QSpacerItem *item = qscriptvalue_cast<QSpacerItem*>(thisObject()); if (item) return item->minimumHeightForWidth(w); return 0; }
void QSpacerItemProto::setAlignment(Qt::Alignment alignment) { if (DEBUG) qDebug("QSpacerItemProto::setAlignment(%d)", (int)alignment); QSpacerItem *item = qscriptvalue_cast<QSpacerItem*>(thisObject()); if (item) item->setAlignment(alignment); }
bool QSpacerItemProto::isEmpty() const { QSpacerItem *item = qscriptvalue_cast<QSpacerItem*>(thisObject()); if (item) return item->isEmpty(); return false; }
QLayout *QSpacerItemProto::layout() { QSpacerItem *item = qscriptvalue_cast<QSpacerItem*>(thisObject()); if (item) return item->layout(); return 0; }
bool QSpacerItemProto::hasHeightForWidth() const { QSpacerItem *item = qscriptvalue_cast<QSpacerItem*>(thisObject()); if (item) return item->hasHeightForWidth(); return false; }
QRect QSpacerItemProto::geometry() const { QSpacerItem *item = qscriptvalue_cast<QSpacerItem*>(thisObject()); if (item) return item->geometry(); return QRect(); }
static PyObject *meth_QSpacerItem_changeSize(PyObject *sipSelf, PyObject *sipArgs, PyObject *sipKwds) { PyObject *sipParseErr = NULL; { int a0; int a1; QSizePolicy::Policy a2 = QSizePolicy::Minimum; QSizePolicy::Policy a3 = QSizePolicy::Minimum; QSpacerItem *sipCpp; static const char *sipKwdList[] = { NULL, NULL, sipName_hPolicy, sipName_vPolicy, }; if (sipParseKwdArgs(&sipParseErr, sipArgs, sipKwds, sipKwdList, NULL, "Bii|EE", &sipSelf, sipType_QSpacerItem, &sipCpp, &a0, &a1, sipType_QSizePolicy_Policy, &a2, sipType_QSizePolicy_Policy, &a3)) { Py_BEGIN_ALLOW_THREADS sipCpp->changeSize(a0,a1,a2,a3); Py_END_ALLOW_THREADS Py_INCREF(Py_None); return Py_None; } } /* Raise an exception if the arguments couldn't be parsed. */ sipNoMethod(sipParseErr, sipName_QSpacerItem, sipName_changeSize, NULL); return NULL; }
static PyObject *meth_QSpacerItem_sizeHint(PyObject *sipSelf, PyObject *sipArgs) { PyObject *sipParseErr = NULL; bool sipSelfWasArg = (!sipSelf || sipIsDerived((sipSimpleWrapper *)sipSelf)); { QSpacerItem *sipCpp; if (sipParseArgs(&sipParseErr, sipArgs, "B", &sipSelf, sipType_QSpacerItem, &sipCpp)) { QSize *sipRes; Py_BEGIN_ALLOW_THREADS sipRes = new QSize((sipSelfWasArg ? sipCpp->QSpacerItem::sizeHint() : sipCpp->sizeHint())); Py_END_ALLOW_THREADS return sipConvertFromNewType(sipRes,sipType_QSize,NULL); } }
QString LayoutDumper::getLayoutItemInfo(QLayoutItem* item) { QWidgetItem* wi = dynamic_cast<QWidgetItem*>(item); QSpacerItem* si = dynamic_cast<QSpacerItem*>(item); if (wi) { if (wi->widget()) { return QString("%1 [alignment: %2]") .arg(getWidgetInfo(*wi->widget())) .arg(toString(wi->alignment())); } } else if (si) { QSize hint = si->sizeHint(); QLayout* layout = si->layout(); return QString("QSpacerItem: sizeHint (%1 x %2), policy %3, " "constraint %4, alignment %5") .arg(hint.width()) .arg(hint.height()) .arg(toString(si->sizePolicy())) .arg(layout ? toString(layout->sizeConstraint()) : "[no layout]") .arg(si->alignment()); } return ""; }
/*! Sets the direction of this layout to \a direction. */ void QBoxLayout::setDirection(Direction direction) { Q_D(QBoxLayout); if (d->dir == direction) return; if (horz(d->dir) != horz(direction)) { //swap around the spacers (the "magic" bits) //#### a bit yucky, knows too much. //#### probably best to add access functions to spacerItem //#### or even a QSpacerItem::flip() for (int i = 0; i < d->list.size(); ++i) { QBoxLayoutItem *box = d->list.at(i); if (box->magic) { QSpacerItem *sp = box->item->spacerItem(); if (sp) { if (sp->expandingDirections() == Qt::Orientations(0) /*No Direction*/) { //spacing or strut QSize s = sp->sizeHint(); sp->changeSize(s.height(), s.width(), horz(direction) ? QSizePolicy::Fixed:QSizePolicy::Minimum, horz(direction) ? QSizePolicy::Minimum:QSizePolicy::Fixed); } else { //stretch if (horz(direction)) sp->changeSize(0, 0, QSizePolicy::Expanding, QSizePolicy::Minimum); else sp->changeSize(0, 0, QSizePolicy::Minimum, QSizePolicy::Expanding); } } } } } d->dir = direction; invalidate(); }
void QSpacerItemProto::invalidate() { QSpacerItem *item = qscriptvalue_cast<QSpacerItem*>(thisObject()); if (item) item->invalidate(); }
void QSpacerItemProto::setGeometry(const QRect &r) { QSpacerItem *item = qscriptvalue_cast<QSpacerItem*>(thisObject()); if (item) item->setGeometry(r); }
void QSpacerItemProto::changeSize(int w, int h, QSizePolicy::Policy hPolicy, QSizePolicy::Policy vPolicy) { QSpacerItem *item = qscriptvalue_cast<QSpacerItem*>(thisObject()); if (item) item->changeSize(w, h, hPolicy, vPolicy); }