void
SoFile::getBoundingBox(SoGetBoundingBoxAction *action)
//
////////////////////////////////////////////////////////////////////////
{
SbVec3f totalCenter(0,0,0);
int numCenters = 0;
int numIndices;
const int *indices;
int lastChild;
if (action->getPathCode(numIndices, indices) == SoAction::IN_PATH)
lastChild = indices[numIndices - 1];
else
lastChild = children.getLength() - 1;
for (int i = 0; i <= lastChild; i++) {
children.traverse(action, i, i);
if (action->isCenterSet()) {
totalCenter += action->getCenter();
numCenters++;
action->resetCenter();
}
}
// Now, set the center to be the average:
if (numCenters != 0)
action->setCenter(totalCenter / numCenters, FALSE);
}
/*!
This implements typical action traversal for an SoComplexShape node
*/
void
SoComplexShape::doAction(SoAction *action)
{
// Make sure all the children exist
if (children->getLength() == 0) { generateChildren(); }
// SoAction has a method called "getPathCode()" that returns
// a code indicating how this node is related to the path(s)
// the action is being applied to. This code is one of the
// following:
//
// NO_PATH = Not traversing a path (action was applied
// to a node)
// IN_PATH = This node is in the path chain, but is not
// the tail node
// BELOW_PATH = This node is the tail of the path chain or
// is below the tail
// OFF_PATH = This node is off to the left of some node in
// the path chain
//
// If getPathCode() returns IN_PATH, it returns (in its two
// arguments) the indices of the next nodes in the paths.
// (Remember that an action can be applied to a list of
// paths.)
// For the IN_PATH case, these will be set by getPathCode()
// to contain the number of child nodes that are in paths and
// the indices of those children, respectively. In the other
// cases, they are not meaningful.
int numIndices;
const int *indices;
// This will be set to the index of the last (rightmost)
// child to traverse
int lastChildIndex;
// If this node is in a path, see which of our children are
// in paths, and traverse up to and including the rightmost
// of these nodes (the last one in the "indices" array).
if (action->getPathCode(numIndices, indices) ==
SoAction::IN_PATH) {
lastChildIndex = indices[numIndices - 1];
}
// Otherwise, consider all of the children
else {
lastChildIndex = children->getLength() - 1;
}
// Now we are ready to traverse the children, skipping every
// other one. For the SoGetBoundingBoxAction, however, we
// have to do some extra work in between each pair of
// children - we have to make sure the center points get
// averaged correctly.
if (action->isOfType(
SoGetBoundingBoxAction::getClassTypeId())) {
SoGetBoundingBoxAction *bba =
(SoGetBoundingBoxAction *) action;
SbVec3f totalCenter(0.0, 0.0, 0.0);
int numCenters = 0;
for (int i = 0; i <= lastChildIndex; i++) {
children->traverse(bba, i);
// If the traversal set a center point in the action,
// add it to the total and reset for the next child.
if (bba->isCenterSet()) {
totalCenter += bba->getCenter();
numCenters++;
bba->resetCenter();
}
}
// Now, set the center to be the average. Since the
// centers were already transformed, there's no need to
// transform the average.
if (numCenters != 0) {
bba->setCenter(totalCenter / (float)numCenters, FALSE);
}
}
// For all other actions, just traverse every child
else
for (int i = 0; i <= lastChildIndex; i++) {
children->traverse(action, i);
}
}
void
SoSwitch::doChild(SoAction *action, int matchIndex)
//
////////////////////////////////////////////////////////////////////////
{
int32_t which;
if (whichChild.isIgnored())
which = SO_SWITCH_NONE;
else
which = whichChild.getValue();
// If index is inherited from state, get value from there
if (which == SO_SWITCH_INHERIT) {
which = SoSwitchElement::get(action->getState());
// Make sure it is in range
if (which >= getNumChildren())
which %= getNumChildren();
}
// Store resulting index in state if not already inherited from there
else
SoSwitchElement::set(action->getState(), which);
// Now we have the real value to deal with
switch (which) {
case SO_SWITCH_NONE:
break;
case SO_SWITCH_ALL:
// If traversing to compute bounding box, we have to do some
// work in between children
if (action->isOfType(SoGetBoundingBoxAction::getClassTypeId())) {
SoGetBoundingBoxAction *bba = (SoGetBoundingBoxAction *) action;
SbVec3f totalCenter(0.0, 0.0, 0.0);
int numCenters = 0;
int lastChild = (matchIndex >= 0 ? matchIndex :
getNumChildren() - 1);
for (int i = 0; i <= lastChild; i++) {
children->traverse(bba, i, i);
if (bba->isCenterSet()) {
totalCenter += bba->getCenter();
numCenters++;
bba->resetCenter();
}
}
// Now, set the center to be the average:
if (numCenters != 0)
bba->setCenter(totalCenter / numCenters, FALSE);
}
else {
if (matchIndex >= 0)
children->traverse(action, 0, matchIndex);
else
children->traverse(action);
}
break;
default:
// Make sure index is reasonable
if (which < 0 || which >= getNumChildren()) {
#ifdef DEBUG
SoDebugError::post("SoSwitch::doChild",
"Child index %d is out of range %d - %d "
"(applying %s)",
which, 0, getNumChildren() - 1,
action->getTypeId().getName().getString());
#endif /* DEBUG */
break;
}
// Traverse indicated child
if (matchIndex < 0 || matchIndex == which)
children->traverse(action, (int) which);
}
}
