38 namespace Gecode {
namespace Gist {
44 : _startNode(theNode), _node(theNode),
45 _alternative(theNode->getAlternative(na0)),
71 return _node != _startNode && !_node->isRoot();
77 _node = static_cast<Node*>(_node->getParent(na));
78 if (_node->isRoot()) {
81 Node*
p = static_cast<Node*>(_node->getParent(na));
82 for (
int i=
p->getNumberOfChildren();
i--;) {
83 if (
p->getChild(na,
i) == _node) {
94 return _node->getNumberOfChildren() > 0;
101 _node = _node->getChild(na,0);
107 return (!_node->isRoot()) && (_node != _startNode) &&
108 (_alternative < _node->getParent(na)->getNumberOfChildren() - 1);
115 static_cast<Node*>(_node->getParent(na)->getChild(na,++_alternative));
119 HideFailedCursor::mayMoveDownwards(
void) {
121 return (!onlyDirty ||
n->isDirty()) &&
123 (
n->hasSolvedChildren() ||
n->getNoOfOpenChildren(na) > 0) &&
136 if (
n->getStatus() ==
BRANCH &&
137 !
n->hasSolvedChildren() &&
138 n->getNoOfOpenChildren(
na) == 0) {
140 n->setChildrenLayoutDone(
false);
167 if (
n->getStatus() ==
STOP) {
182 NextSolCursor::notOnSol(
void) {
232 curDepth(0), depth(0), failed(0), solved(0), choice(0), open(0) {}
237 switch (
n->getStatus()) {
261 int c_d,
int a_d,
bool clear,
264 _c_d(
c_d), _a_d(
a_d), _clear(clear) {}
270 if (!
na.hasLabel(
n)) {
274 n->getBranchLabel(_na,
p,
p->getChoice(),
276 _na.setLabel(
n,QString(
l.c_str()));
277 if (
n->getNumberOfChildren() < 1 &&
Node representing stop point.
bool mayMoveDownwards(void)
Test if cursor may move to the first child node.
NodeStatus getStatus(void) const
Return current status of the node.
bool isRoot(void) const
Check if this node is the root of a tree.
BranchLabelCursor(VisualNode *theNode, BestNode *curBest, int c_d, int a_d, bool clear, VisualNode::NodeAllocator &na)
Constructor.
void dispose(void)
Free allocated memory.
Static reference to the currently best space.
const FloatNum max
Largest allowed float value.
Node representing a branch.
void moveUpwards(void)
Move cursor to the parent node.
NodeAllocatorBase< VisualNode > NodeAllocator
void moveDownwards(void)
Move cursor to the first child node.
int depth
Depth of the search tree.
Node representing failure.
void moveSidewards(void)
Move cursor to the first sibling.
Base class for nodes of the search tree.
DisposeCursor(VisualNode *theNode, const VisualNode::NodeAllocator &na)
Constructor.
void processCurrentNode(void)
Process node.
void processCurrentNode(void)
Process node.
Node that has not been explored yet.
int p
Number of positive literals for node type.
Gecode::IntArgs i(4, 1, 2, 3, 4)
int n
Number of negative literals for node type.
void moveDownwards(void)
Move cursor to the first child node.
const VisualNode ::NodeAllocator & na
The node allocator.
void moveUpwards(void)
Move cursor to the parent node.
const unsigned int a_d
Create a clone during recomputation if distance is greater than a_d (adaptive distance)
Node representing a solution.
void processCurrentNode(void)
Process node.
void moveDownwards(void)
Move cursor to the first child node.
void processCurrentNode(void)
Dispose node.
VisualNode * startNode(void)
Return start node.
StatCursor(VisualNode *theNode, const VisualNode::NodeAllocator &na)
Constructor.
UnhideAllCursor(VisualNode *theNode, const VisualNode::NodeAllocator &na)
Constructor.
void moveSidewards(void)
Move cursor to the first sibling.
struct Gecode::@511::NNF::@54::@56 a
For atomic nodes.
bool mayMoveDownwards(void)
Test if cursor may move to the first child node.
int getParent(void) const
Return the parent.
int open
Number of open nodes.
A cursor that can be run over a tree.
Node class that supports visual layout
int choice
Number of choice nodes.
const unsigned int c_d
Create a clone after every c_d commits (commit distance)
int failed
Number of failed nodes.
bool mayMoveSidewards(void)
Test if cursor may move to the first sibling.
void processCurrentNode(void)
Do nothing.
VisualNode * node(void)
Return current node.
UnstopAllCursor(VisualNode *theNode, const VisualNode::NodeAllocator &na)
Constructor.
NodeCursor(Node *theNode, const typename Node::NodeAllocator &na)
Construct cursor, initially set to theNode.
Gecode toplevel namespace
unsigned int alternative(void)
Return current alternative.
void processCurrentNode(void)
Collect statistics.
bool mayMoveUpwards(void)
Test if the cursor may move to the parent node.
void processCurrentNode(void)
int solved
Number of solved nodes.
bool hasSolvedChildren(void)
Return whether the subtree of this node has any solved children.
NextSolCursor(VisualNode *theNode, bool backwards, const VisualNode::NodeAllocator &na)
Constructor.