OpenVDB 10.0.1
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TreeIterator.h
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1// Copyright Contributors to the OpenVDB Project
2// SPDX-License-Identifier: MPL-2.0
3//
4/// @file tree/TreeIterator.h
5
6#ifndef OPENVDB_TREE_TREEITERATOR_HAS_BEEN_INCLUDED
7#define OPENVDB_TREE_TREEITERATOR_HAS_BEEN_INCLUDED
8
9#include <tbb/blocked_range.h>
10#include <tbb/parallel_for.h>
11#include <openvdb/version.h>
12#include <openvdb/Types.h>
13#include <algorithm>
14#include <sstream>
15#include <string>
16#include <type_traits>
17
18// Prior to 0.96.1, depth-bounded value iterators always descended to the leaf level
19// and iterated past leaf nodes. Now, they never descend past the maximum depth.
20// Comment out the following line to restore the older, less-efficient behavior:
21#define ENABLE_TREE_VALUE_DEPTH_BOUND_OPTIMIZATION
22
23
24namespace openvdb {
26namespace OPENVDB_VERSION_NAME {
27namespace tree {
28
29namespace iter {
30
31template<typename HeadT, int HeadLevel>
33 using SubtreeT = typename InvertedTree<typename HeadT::ChildNodeType, HeadLevel-1>::Type;
34 using Type = typename SubtreeT::template Append<HeadT>;
35};
36template<typename HeadT>
37struct InvertedTree<HeadT, /*HeadLevel=*/1> {
39};
40
41} // namespace iter
42
43
44////////////////////////////////////////
45
46
47/// IterTraits provides the following for iterators of the standard types,
48/// i.e., for {Child,Value}{On,Off,All}{Iter,CIter}:
49/// - a NodeConverter template to convert an iterator for one type of node
50/// to an iterator of the same type for another type of node; for example,
51/// IterTraits<RootNode, RootNode::ValueOnIter>::NodeConverter<LeafNode>::Type
52/// is synonymous with LeafNode::ValueOnIter.
53/// - a begin(node) function that returns a begin iterator for a node of arbitrary type;
54/// for example, IterTraits<LeafNode, LeafNode::ValueOnIter>::begin(leaf) returns
55/// leaf.beginValueOn()
56/// - a getChild() function that returns a pointer to the child node to which the iterator
57/// is currently pointing (always null if the iterator is a Value iterator)
58template<typename NodeT, typename IterT>
60{
61 template<typename ChildT> static ChildT* getChild(const IterT&) { return nullptr; }
62};
63
64template<typename NodeT>
65struct IterTraits<NodeT, typename NodeT::ChildOnIter>
66{
67 using IterT = typename NodeT::ChildOnIter;
68 static IterT begin(NodeT& node) { return node.beginChildOn(); }
69 template<typename ChildT> static ChildT* getChild(const IterT& iter) {
70 return &iter.getValue();
71 }
72 template<typename OtherNodeT> struct NodeConverter {
73 using Type = typename OtherNodeT::ChildOnIter;
74 };
75};
76
77template<typename NodeT>
78struct IterTraits<NodeT, typename NodeT::ChildOnCIter>
79{
80 using IterT = typename NodeT::ChildOnCIter;
81 static IterT begin(const NodeT& node) { return node.cbeginChildOn(); }
82 template<typename ChildT> static const ChildT* getChild(const IterT& iter) {
83 return &iter.getValue();
84 }
85 template<typename OtherNodeT> struct NodeConverter {
86 using Type = typename OtherNodeT::ChildOnCIter;
87 };
88};
89
90template<typename NodeT>
91struct IterTraits<NodeT, typename NodeT::ChildOffIter>
92{
93 using IterT = typename NodeT::ChildOffIter;
94 static IterT begin(NodeT& node) { return node.beginChildOff(); }
95 template<typename OtherNodeT> struct NodeConverter {
96 using Type = typename OtherNodeT::ChildOffIter;
97 };
98};
99
100template<typename NodeT>
101struct IterTraits<NodeT, typename NodeT::ChildOffCIter>
102{
103 using IterT = typename NodeT::ChildOffCIter;
104 static IterT begin(const NodeT& node) { return node.cbeginChildOff(); }
105 template<typename OtherNodeT> struct NodeConverter {
106 using Type = typename OtherNodeT::ChildOffCIter;
107 };
108};
109
110template<typename NodeT>
111struct IterTraits<NodeT, typename NodeT::ChildAllIter>
112{
113 using IterT = typename NodeT::ChildAllIter;
114 static IterT begin(NodeT& node) { return node.beginChildAll(); }
115 template<typename ChildT> static ChildT* getChild(const IterT& iter) {
116 typename IterT::NonConstValueType val;
117 return iter.probeChild(val);
118 }
119 template<typename OtherNodeT> struct NodeConverter {
120 using Type = typename OtherNodeT::ChildAllIter;
121 };
122};
123
124template<typename NodeT>
125struct IterTraits<NodeT, typename NodeT::ChildAllCIter>
126{
127 using IterT = typename NodeT::ChildAllCIter;
128 static IterT begin(const NodeT& node) { return node.cbeginChildAll(); }
129 template<typename ChildT> static ChildT* getChild(const IterT& iter) {
130 typename IterT::NonConstValueType val;
131 return iter.probeChild(val);
132 }
133 template<typename OtherNodeT> struct NodeConverter {
134 using Type = typename OtherNodeT::ChildAllCIter;
135 };
136};
137
138template<typename NodeT>
139struct IterTraits<NodeT, typename NodeT::ValueOnIter>
140{
141 using IterT = typename NodeT::ValueOnIter;
142 static IterT begin(NodeT& node) { return node.beginValueOn(); }
143 template<typename OtherNodeT> struct NodeConverter {
144 using Type = typename OtherNodeT::ValueOnIter;
145 };
146};
147
148template<typename NodeT>
149struct IterTraits<NodeT, typename NodeT::ValueOnCIter>
150{
151 using IterT = typename NodeT::ValueOnCIter;
152 static IterT begin(const NodeT& node) { return node.cbeginValueOn(); }
153 template<typename OtherNodeT> struct NodeConverter {
154 using Type = typename OtherNodeT::ValueOnCIter;
155 };
156};
157
158template<typename NodeT>
159struct IterTraits<NodeT, typename NodeT::ValueOffIter>
160{
161 using IterT = typename NodeT::ValueOffIter;
162 static IterT begin(NodeT& node) { return node.beginValueOff(); }
163 template<typename OtherNodeT> struct NodeConverter {
164 using Type = typename OtherNodeT::ValueOffIter;
165 };
166};
167
168template<typename NodeT>
169struct IterTraits<NodeT, typename NodeT::ValueOffCIter>
170{
171 using IterT = typename NodeT::ValueOffCIter;
172 static IterT begin(const NodeT& node) { return node.cbeginValueOff(); }
173 template<typename OtherNodeT> struct NodeConverter {
174 using Type = typename OtherNodeT::ValueOffCIter;
175 };
176};
177
178template<typename NodeT>
179struct IterTraits<NodeT, typename NodeT::ValueAllIter>
180{
181 using IterT = typename NodeT::ValueAllIter;
182 static IterT begin(NodeT& node) { return node.beginValueAll(); }
183 template<typename OtherNodeT> struct NodeConverter {
184 using Type = typename OtherNodeT::ValueAllIter;
185 };
186};
187
188template<typename NodeT>
189struct IterTraits<NodeT, typename NodeT::ValueAllCIter>
190{
191 using IterT = typename NodeT::ValueAllCIter;
192 static IterT begin(const NodeT& node) { return node.cbeginValueAll(); }
193 template<typename OtherNodeT> struct NodeConverter {
194 using Type = typename OtherNodeT::ValueAllCIter;
195 };
196};
197
198
199////////////////////////////////////////
200
201
202/// @brief An IterListItem is an element of a compile-time linked list of iterators
203/// to nodes of different types.
204///
205/// The list is constructed by traversing the template hierarchy of a Tree in reverse order,
206/// so typically the elements will be a LeafNode iterator of some type (e.g., ValueOnCIter),
207/// followed by one or more InternalNode iterators of the same type, followed by a RootNode
208/// iterator of the same type.
209///
210/// The length of the list is fixed at compile time, and because it is implemented using
211/// nested, templated classes, much of the list traversal logic can be optimized away.
212template<typename PrevItemT, typename NodeVecT, size_t VecSize, Index _Level>
214{
215public:
216 /// The type of iterator stored in the previous list item
217 using PrevIterT = typename PrevItemT::IterT;
218 /// The type of node (non-const) whose iterator is stored in this list item
219 using _NodeT = typename NodeVecT::Front;
220 /// The type of iterator stored in this list item (e.g., InternalNode::ValueOnCIter)
222 NodeConverter<_NodeT>::Type;
223
224 /// The type of node (const or non-const) over which IterT iterates (e.g., const RootNode<...>)
225 using NodeT = typename IterT::NodeType;
226 /// The type of the node with const qualifiers removed ("Non-Const")
227 using NCNodeT = typename IterT::NonConstNodeType;
228 /// The type of value (with const qualifiers removed) to which the iterator points
229 using NCValueT = typename IterT::NonConstValueType;
230 /// NodeT's child node type, with the same constness (e.g., const InternalNode<...>)
232 /// NodeT's child node type with const qualifiers removed
235 /// NodeT's level in its tree (0 = LeafNode)
236 static const Index Level = _Level;
237
238 IterListItem(PrevItemT* prev): mNext(this), mPrev(prev) {}
239
241 mIter(other.mIter), mNext(other.mNext), mPrev(nullptr) {}
243 {
244 if (&other != this) {
245 mIter = other.mIter;
246 mNext = other.mNext;
247 mPrev = nullptr; ///< @note external call to updateBackPointers() required
248 }
249 return *this;
250 }
251
252 void updateBackPointers(PrevItemT* prev) { mPrev = prev; mNext.updateBackPointers(this); }
253
254 void setIter(const IterT& iter) { mIter = iter; }
255 template<typename OtherIterT>
256 void setIter(const OtherIterT& iter) { mNext.setIter(iter); }
257
258 /// Return the node over which this list element's iterator iterates.
259 void getNode(Index lvl, NodeT*& node) const
260 {
261 node = (lvl <= Level) ? mIter.getParentNode() : nullptr;
262 }
263 /// Return the node over which one of the following list elements' iterator iterates.
264 template<typename OtherNodeT>
265 void getNode(Index lvl, OtherNodeT*& node) const { mNext.getNode(lvl, node); }
266
267 /// @brief Initialize the iterator for level @a lvl of the tree with the node
268 /// over which the corresponding iterator of @a otherListItem is iterating.
269 ///
270 /// For example, if @a otherListItem contains a LeafNode::ValueOnIter,
271 /// initialize this list's leaf iterator with the same LeafNode.
272 template<typename OtherIterListItemT>
273 void initLevel(Index lvl, OtherIterListItemT& otherListItem)
274 {
275 if (lvl == Level) {
276 const NodeT* node = nullptr;
277 otherListItem.getNode(lvl, node);
278 mIter = (node == nullptr) ? IterT() : ITraits::begin(*const_cast<NodeT*>(node));
279 } else {
280 // Forward to one of the following list elements.
281 mNext.initLevel(lvl, otherListItem);
282 }
283 }
284
285 /// Return The table offset of the iterator at level @a lvl of the tree.
286 Index pos(Index lvl) const { return (lvl == Level) ? mIter.pos() : mNext.pos(lvl); }
287
288 /// Return @c true if the iterator at level @a lvl of the tree has not yet reached its end.
289 bool test(Index lvl) const { return (lvl == Level) ? mIter.test() : mNext.test(lvl); }
290
291 /// Increment the iterator at level @a lvl of the tree.
292 bool next(Index lvl) { return (lvl == Level) ? mIter.next() : mNext.next(lvl); }
293
294 /// @brief If the iterator at level @a lvl of the tree points to a child node,
295 /// initialize the next iterator in this list with that child node.
296 bool down(Index lvl)
297 {
298 if (lvl == Level && mPrev != nullptr && mIter) {
299 if (ChildT* child = ITraits::template getChild<ChildT>(mIter)) {
300 mPrev->setIter(PrevItemT::ITraits::begin(*child));
301 return true;
302 }
303 }
304 return (lvl > Level) ? mNext.down(lvl) : false;
305 }
306
307 /// @brief Return the global coordinates of the voxel or tile to which the iterator
308 /// at level @a lvl of the tree is currently pointing.
310 {
311 return (lvl == Level) ? mIter.getCoord() : mNext.getCoord(lvl);
312 }
314 {
315 return (lvl == Level) ? NodeT::getChildDim() : mNext.getChildDim(lvl);
316 }
317 /// Return the number of (virtual) voxels spanned by a tile value or child node
319 {
320 return (lvl == Level) ? ChildT::NUM_VOXELS : mNext.getVoxelCount(lvl);
321 }
322
323 /// Return @c true if the iterator at level @a lvl of the tree points to an active value.
324 bool isValueOn(Index lvl) const
325 {
326 return (lvl == Level) ? mIter.isValueOn() : mNext.isValueOn(lvl);
327 }
328
329 /// Return the value to which the iterator at level @a lvl of the tree points.
330 const NCValueT& getValue(Index lvl) const
331 {
332 if (lvl == Level) return mIter.getValue();
333 return mNext.getValue(lvl);
334 }
335
336 /// @brief Set the value (to @a val) to which the iterator at level @a lvl
337 /// of the tree points and mark the value as active.
338 /// @note Not valid when @c IterT is a const iterator type
339 void setValue(Index lvl, const NCValueT& val) const
340 {
341 if (lvl == Level) mIter.setValue(val); else mNext.setValue(lvl, val);
342 }
343 /// @brief Set the value (to @a val) to which the iterator at level @a lvl of the tree
344 /// points and mark the value as active if @a on is @c true, or inactive otherwise.
345 /// @note Not valid when @c IterT is a const iterator type
346 void setValueOn(Index lvl, bool on = true) const
347 {
348 if (lvl == Level) mIter.setValueOn(on); else mNext.setValueOn(lvl, on);
349 }
350 /// @brief Mark the value to which the iterator at level @a lvl of the tree points
351 /// as inactive.
352 /// @note Not valid when @c IterT is a const iterator type
353 void setValueOff(Index lvl) const
354 {
355 if (lvl == Level) mIter.setValueOff(); else mNext.setValueOff(lvl);
356 }
357
358 /// @brief Apply a functor to the item to which this iterator is pointing.
359 /// @note Not valid when @c IterT is a const iterator type
360 template<typename ModifyOp>
361 void modifyValue(Index lvl, const ModifyOp& op) const
362 {
363 if (lvl == Level) mIter.modifyValue(op); else mNext.modifyValue(lvl, op);
364 }
365
366private:
367 using RestT = typename NodeVecT::PopFront; // NodeVecT minus its first item
368 using NextItem = IterListItem<IterListItem, RestT, VecSize - 1, Level + 1>;
369
370 IterT mIter;
371 NextItem mNext;
372 PrevItemT* mPrev;
373};
374
375
376/// The initial element of a compile-time linked list of iterators to nodes of different types
377template<typename PrevItemT, typename NodeVecT, size_t VecSize>
378class IterListItem<PrevItemT, NodeVecT, VecSize, /*Level=*/0U>
379{
380public:
381 /// The type of iterator stored in the previous list item
382 using PrevIterT = typename PrevItemT::IterT;
383 /// The type of node (non-const) whose iterator is stored in this list item
384 using _NodeT = typename NodeVecT::Front;
385 /// The type of iterator stored in this list item (e.g., InternalNode::ValueOnCIter)
387 NodeConverter<_NodeT>::Type;
388
389 /// The type of node (const or non-const) over which IterT iterates (e.g., const RootNode<...>)
390 using NodeT = typename IterT::NodeType;
391 /// The type of the node with const qualifiers removed ("Non-Const")
392 using NCNodeT = typename IterT::NonConstNodeType;
393 /// The type of value (with const qualifiers removed) to which the iterator points
394 using NCValueT = typename IterT::NonConstValueType;
396 /// NodeT's level in its tree (0 = LeafNode)
397 static const Index Level = 0;
398
399 IterListItem(PrevItemT*): mNext(this), mPrev(nullptr) {}
400
402 mIter(other.mIter), mNext(other.mNext), mPrev(nullptr) {}
404 {
405 if (&other != this) {
406 mIter = other.mIter;
407 mNext = other.mNext;
408 mPrev = nullptr;
409 }
410 return *this;
411 }
412
413 void updateBackPointers(PrevItemT* = nullptr)
414 {
415 mPrev = nullptr; mNext.updateBackPointers(this);
416 }
417
418 void setIter(const IterT& iter) { mIter = iter; }
419 template<typename OtherIterT>
420 void setIter(const OtherIterT& iter) { mNext.setIter(iter); }
421
422 void getNode(Index lvl, NodeT*& node) const
423 {
424 node = (lvl == 0) ? mIter.getParentNode() : nullptr;
425 }
426 template<typename OtherNodeT>
427 void getNode(Index lvl, OtherNodeT*& node) const { mNext.getNode(lvl, node); }
428
429 template<typename OtherIterListItemT>
430 void initLevel(Index lvl, OtherIterListItemT& otherListItem)
431 {
432 if (lvl == 0) {
433 const NodeT* node = nullptr;
434 otherListItem.getNode(lvl, node);
435 mIter = (node == nullptr) ? IterT() : ITraits::begin(*const_cast<NodeT*>(node));
436 } else {
437 mNext.initLevel(lvl, otherListItem);
438 }
439 }
440
441 Index pos(Index lvl) const { return (lvl == 0) ? mIter.pos() : mNext.pos(lvl); }
442
443 bool test(Index lvl) const { return (lvl == 0) ? mIter.test() : mNext.test(lvl); }
444
445 bool next(Index lvl) { return (lvl == 0) ? mIter.next() : mNext.next(lvl); }
446
447 bool down(Index lvl) { return (lvl == 0) ? false : mNext.down(lvl); }
448
450 {
451 return (lvl == 0) ? mIter.getCoord() : mNext.getCoord(lvl);
452 }
454 {
455 return (lvl == 0) ? NodeT::getChildDim() : mNext.getChildDim(lvl);
456 }
457
459 {
460 return (lvl == 0) ? 1 : mNext.getVoxelCount(lvl);
461 }
462
463 bool isValueOn(Index lvl) const
464 {
465 return (lvl == 0) ? mIter.isValueOn() : mNext.isValueOn(lvl);
466 }
467
468 const NCValueT& getValue(Index lvl) const
469 {
470 if (lvl == 0) return mIter.getValue();
471 return mNext.getValue(lvl);
472 }
473
474 void setValue(Index lvl, const NCValueT& val) const
475 {
476 if (lvl == 0) mIter.setValue(val); else mNext.setValue(lvl, val);
477 }
478 void setValueOn(Index lvl, bool on = true) const
479 {
480 if (lvl == 0) mIter.setValueOn(on); else mNext.setValueOn(lvl, on);
481 }
482 void setValueOff(Index lvl) const
483 {
484 if (lvl == 0) mIter.setValueOff(); else mNext.setValueOff(lvl);
485 }
486
487 template<typename ModifyOp>
488 void modifyValue(Index lvl, const ModifyOp& op) const
489 {
490 if (lvl == 0) mIter.modifyValue(op); else mNext.modifyValue(lvl, op);
491 }
492
493private:
494 using RestT = typename NodeVecT::PopFront; // NodeVecT minus its first item
495 using NextItem = IterListItem<IterListItem, RestT, VecSize - 1, /*Level=*/1>;
496
497 IterT mIter;
498 NextItem mNext;
499 PrevItemT* mPrev;
500};
501
502
503/// The final element of a compile-time linked list of iterators to nodes of different types
504template<typename PrevItemT, typename NodeVecT, Index _Level>
505class IterListItem<PrevItemT, NodeVecT, /*VecSize=*/1, _Level>
506{
507public:
508 using _NodeT = typename NodeVecT::Front;
509 /// The type of iterator stored in the previous list item
510 using PrevIterT = typename PrevItemT::IterT;
511 /// The type of iterator stored in this list item (e.g., RootNode::ValueOnCIter)
513 NodeConverter<_NodeT>::Type;
514
515 /// The type of node over which IterT iterates (e.g., const RootNode<...>)
516 using NodeT = typename IterT::NodeType;
517 /// The type of the node with const qualifiers removed ("Non-Const")
518 using NCNodeT = typename IterT::NonConstNodeType;
519 /// The type of value (with const qualifiers removed) to which the iterator points
520 using NCValueT = typename IterT::NonConstValueType;
521 /// NodeT's child node type, with the same constness (e.g., const InternalNode<...>)
523 /// NodeT's child node type with const qualifiers removed
526 /// NodeT's level in its tree (0 = LeafNode)
527 static const Index Level = _Level;
528
529 IterListItem(PrevItemT* prev): mPrev(prev) {}
530
531 IterListItem(const IterListItem& other): mIter(other.mIter), mPrev(nullptr) {}
533 {
534 if (&other != this) {
535 mIter = other.mIter;
536 mPrev = nullptr; ///< @note external call to updateBackPointers() required
537 }
538 return *this;
539 }
540
541 void updateBackPointers(PrevItemT* prev) { mPrev = prev; }
542
543 // The following method specializations differ from the default template
544 // implementations mainly in that they don't forward.
545
546 void setIter(const IterT& iter) { mIter = iter; }
547
548 void getNode(Index lvl, NodeT*& node) const
549 {
550 node = (lvl <= Level) ? mIter.getParentNode() : nullptr;
551 }
552
553 template<typename OtherIterListItemT>
554 void initLevel(Index lvl, OtherIterListItemT& otherListItem)
555 {
556 if (lvl == Level) {
557 const NodeT* node = nullptr;
558 otherListItem.getNode(lvl, node);
559 mIter = (node == nullptr) ? IterT() : ITraits::begin(*const_cast<NodeT*>(node));
560 }
561 }
562
563 Index pos(Index lvl) const { return (lvl == Level) ? mIter.pos() : Index(-1); }
564
565 bool test(Index lvl) const { return (lvl == Level) ? mIter.test() : false; }
566
567 bool next(Index lvl) { return (lvl == Level) ? mIter.next() : false; }
568
569 bool down(Index lvl)
570 {
571 if (lvl == Level && mPrev != nullptr && mIter) {
572 if (ChildT* child = ITraits::template getChild<ChildT>(mIter)) {
573 mPrev->setIter(PrevItemT::ITraits::begin(*child));
574 return true;
575 }
576 }
577 return false;
578 }
579
580 Coord getCoord(Index lvl) const { return (lvl == Level) ? mIter.getCoord() : Coord(); }
581 Index getChildDim(Index lvl) const { return (lvl == Level) ? NodeT::getChildDim() : 0; }
582 Index64 getVoxelCount(Index lvl) const { return (lvl == Level) ? ChildT::NUM_VOXELS : 0; }
583
584 bool isValueOn(Index lvl) const { return (lvl == Level) ? mIter.isValueOn() : false; }
585
586 const NCValueT& getValue(Index lvl) const
587 {
588 assert(lvl == Level);
589 (void)lvl; // avoid unused variable warning in optimized builds
590 return mIter.getValue();
591 }
592
593 void setValue(Index lvl, const NCValueT& val) const { if (lvl == Level) mIter.setValue(val); }
594 void setValueOn(Index lvl, bool on = true) const { if (lvl == Level) mIter.setValueOn(on); }
595 void setValueOff(Index lvl) const { if (lvl == Level) mIter.setValueOff(); }
596
597 template<typename ModifyOp>
598 void modifyValue(Index lvl, const ModifyOp& op) const
599 {
600 if (lvl == Level) mIter.modifyValue(op);
601 }
602
603private:
604 IterT mIter;
605 PrevItemT* mPrev;
606};
607
608
609////////////////////////////////////////
610
611
612//#define DEBUG_TREE_VALUE_ITERATOR
613
614/// @brief Base class for tree-traversal iterators over tile and voxel values
615template<typename _TreeT, typename _ValueIterT>
617{
618public:
619 using TreeT = _TreeT;
620 using ValueIterT = _ValueIterT;
621 using NodeT = typename ValueIterT::NodeType;
622 using ValueT = typename ValueIterT::NonConstValueType;
623 using ChildOnIterT = typename NodeT::ChildOnCIter;
624 static const Index ROOT_LEVEL = NodeT::LEVEL;
625 static_assert(ValueIterT::NodeType::LEVEL == ROOT_LEVEL, "invalid value iterator node type");
626 static const Index LEAF_LEVEL = 0, ROOT_DEPTH = 0, LEAF_DEPTH = ROOT_LEVEL;
627
629
631 TreeValueIteratorBase& operator=(const TreeValueIteratorBase& other);
632
633 /// Specify the depth of the highest level of the tree to which to ascend (depth 0 = root).
634 void setMinDepth(Index minDepth);
635 /// Return the depth of the highest level of the tree to which this iterator ascends.
636 Index getMinDepth() const { return ROOT_LEVEL - Index(mMaxLevel); }
637 /// Specify the depth of the lowest level of the tree to which to descend (depth 0 = root).
638 void setMaxDepth(Index maxDepth);
639 /// Return the depth of the lowest level of the tree to which this iterator ascends.
640 Index getMaxDepth() const { return ROOT_LEVEL - Index(mMinLevel); }
641
642 //@{
643 /// Return @c true if this iterator is not yet exhausted.
644 bool test() const { return mValueIterList.test(mLevel); }
645 operator bool() const { return this->test(); }
646 //@}
647
648 /// @brief Advance to the next tile or voxel value.
649 /// Return @c true if this iterator is not yet exhausted.
650 bool next();
651 /// Advance to the next tile or voxel value.
652 TreeValueIteratorBase& operator++() { this->next(); return *this; }
653
654 /// @brief Return the level in the tree (0 = leaf) of the node to which
655 /// this iterator is currently pointing.
656 Index getLevel() const { return mLevel; }
657 /// @brief Return the depth in the tree (0 = root) of the node to which
658 /// this iterator is currently pointing.
659 Index getDepth() const { return ROOT_LEVEL - mLevel; }
660 static Index getLeafDepth() { return LEAF_DEPTH; }
661
662 /// @brief Return in @a node a pointer to the node over which this iterator is
663 /// currently iterating or one of that node's parents, as determined by @a NodeType.
664 /// Sets @a node to null pointer if @a NodeType specifies a node at a lower level
665 /// of the tree than that given by getLevel().
666 template<typename NodeType>
667 void getNode(NodeType*& node) const { mValueIterList.getNode(mLevel, node); }
668
669 /// @brief Return the global coordinates of the voxel or tile to which
670 /// this iterator is currently pointing.
671 Coord getCoord() const { return mValueIterList.getCoord(mLevel); }
672 /// @brief Return in @a bbox the axis-aligned bounding box of
673 /// the voxel or tile to which this iterator is currently pointing.
674 /// @return false if the bounding box is empty.
675 bool getBoundingBox(CoordBBox&) const;
676 /// @brief Return the axis-aligned bounding box of the voxel or tile to which
677 /// this iterator is currently pointing.
678 CoordBBox getBoundingBox() const { CoordBBox b; this->getBoundingBox(b); return b; }
679
680 /// Return the number of (virtual) voxels corresponding to the value
681 Index64 getVoxelCount() const { return mValueIterList.getVoxelCount(mLevel);}
682
683 /// Return @c true if this iterator is currently pointing to a (non-leaf) tile value.
684 bool isTileValue() const { return mLevel != 0 && this->test(); }
685 /// Return @c true if this iterator is currently pointing to a (leaf) voxel value.
686 bool isVoxelValue() const { return mLevel == 0 && this->test(); }
687 /// Return @c true if the value to which this iterator is currently pointing is active.
688 bool isValueOn() const { return mValueIterList.isValueOn(mLevel); }
689
690 //@{
691 /// Return the tile or voxel value to which this iterator is currently pointing.
692 const ValueT& getValue() const { return mValueIterList.getValue(mLevel); }
693 const ValueT& operator*() const { return this->getValue(); }
694 const ValueT* operator->() const { return &(this->operator*()); }
695 //@}
696
697 /// @brief Change the tile or voxel value to which this iterator is currently pointing
698 /// and mark it as active.
699 void setValue(const ValueT& val) const { mValueIterList.setValue(mLevel, val); }
700 /// @brief Change the active/inactive state of the tile or voxel value to which
701 /// this iterator is currently pointing.
702 void setActiveState(bool on) const { mValueIterList.setValueOn(mLevel, on); }
703 /// Mark the tile or voxel value to which this iterator is currently pointing as inactive.
704 void setValueOff() const { mValueIterList.setValueOff(mLevel); }
705
706 /// @brief Apply a functor to the item to which this iterator is pointing.
707 /// (Not valid for const iterators.)
708 /// @param op a functor of the form <tt>void op(ValueType&) const</tt> that modifies
709 /// its argument in place
710 /// @see Tree::modifyValue()
711 template<typename ModifyOp>
712 void modifyValue(const ModifyOp& op) const { mValueIterList.modifyValue(mLevel, op); }
713
714 /// Return a pointer to the tree over which this iterator is iterating.
715 TreeT* getTree() const { return mTree; }
716
717 /// Return a string (for debugging, mainly) describing this iterator's current state.
718 std::string summary() const;
719
720private:
721 bool advance(bool dontIncrement = false);
722
723 using InvTreeT = typename iter::InvertedTree<NodeT, NodeT::LEVEL>::Type;
724 struct PrevChildItem { using IterT = ChildOnIterT; };
725 struct PrevValueItem { using IterT = ValueIterT; };
726
727 IterListItem<PrevChildItem, InvTreeT, /*VecSize=*/ROOT_LEVEL+1, /*Level=*/0> mChildIterList;
728 IterListItem<PrevValueItem, InvTreeT, /*VecSize=*/ROOT_LEVEL+1, /*Level=*/0> mValueIterList;
729 Index mLevel;
730 int mMinLevel, mMaxLevel;
731 TreeT* mTree;
732}; // class TreeValueIteratorBase
733
734
735template<typename TreeT, typename ValueIterT>
736inline
738 mChildIterList(nullptr),
739 mValueIterList(nullptr),
740 mLevel(ROOT_LEVEL),
741 mMinLevel(int(LEAF_LEVEL)),
742 mMaxLevel(int(ROOT_LEVEL)),
743 mTree(&tree)
744{
745 mChildIterList.setIter(IterTraits<NodeT, ChildOnIterT>::begin(tree.root()));
746 mValueIterList.setIter(IterTraits<NodeT, ValueIterT>::begin(tree.root()));
747 this->advance(/*dontIncrement=*/true);
748}
749
750
751template<typename TreeT, typename ValueIterT>
752inline
754 mChildIterList(other.mChildIterList),
755 mValueIterList(other.mValueIterList),
756 mLevel(other.mLevel),
757 mMinLevel(other.mMinLevel),
758 mMaxLevel(other.mMaxLevel),
759 mTree(other.mTree)
760{
761 mChildIterList.updateBackPointers();
762 mValueIterList.updateBackPointers();
763}
764
765
766template<typename TreeT, typename ValueIterT>
769{
770 if (&other != this) {
771 mChildIterList = other.mChildIterList;
772 mValueIterList = other.mValueIterList;
773 mLevel = other.mLevel;
774 mMinLevel = other.mMinLevel;
775 mMaxLevel = other.mMaxLevel;
776 mTree = other.mTree;
777 mChildIterList.updateBackPointers();
778 mValueIterList.updateBackPointers();
779 }
780 return *this;
781}
782
783
784template<typename TreeT, typename ValueIterT>
785inline void
787{
788 mMaxLevel = int(ROOT_LEVEL - minDepth); // level = ROOT_LEVEL - depth
789 if (int(mLevel) > mMaxLevel) this->next();
790}
791
792
793template<typename TreeT, typename ValueIterT>
794inline void
796{
797 // level = ROOT_LEVEL - depth
798 mMinLevel = int(ROOT_LEVEL - std::min(maxDepth, this->getLeafDepth()));
799 if (int(mLevel) < mMinLevel) this->next();
800}
801
802
803template<typename TreeT, typename ValueIterT>
804inline bool
806{
807 do {
808 if (!this->advance()) return false;
809 } while (int(mLevel) < mMinLevel || int(mLevel) > mMaxLevel);
810 return true;
811}
812
813
814template<typename TreeT, typename ValueIterT>
815inline bool
817{
818 bool recurse = false;
819 do {
820 recurse = false;
821 Index
822 vPos = mValueIterList.pos(mLevel),
823 cPos = mChildIterList.pos(mLevel);
824 if (vPos == cPos && mChildIterList.test(mLevel)) {
825 /// @todo Once ValueOff iterators properly skip child pointers, remove this block.
826 mValueIterList.next(mLevel);
827 vPos = mValueIterList.pos(mLevel);
828 }
829 if (vPos < cPos) {
830 if (dontIncrement) return true;
831 if (mValueIterList.next(mLevel)) {
832 if (mValueIterList.pos(mLevel) == cPos && mChildIterList.test(mLevel)) {
833 /// @todo Once ValueOff iterators properly skip child pointers,
834 /// remove this block.
835 mValueIterList.next(mLevel);
836 }
837 // If there is a next value and it precedes the next child, return.
838 if (mValueIterList.pos(mLevel) < cPos) return true;
839 }
840 } else {
841 // Advance to the next child, which may or may not precede the next value.
842 if (!dontIncrement) mChildIterList.next(mLevel);
843 }
844#ifdef DEBUG_TREE_VALUE_ITERATOR
845 std::cout << "\n" << this->summary() << std::flush;
846#endif
847
848 // Descend to the lowest level at which the next value precedes the next child.
849 while (mChildIterList.pos(mLevel) < mValueIterList.pos(mLevel)) {
850#ifdef ENABLE_TREE_VALUE_DEPTH_BOUND_OPTIMIZATION
851 if (int(mLevel) == mMinLevel) {
852 // If the current node lies at the lowest allowed level, none of its
853 // children can be visited, so just advance its child iterator.
854 mChildIterList.next(mLevel);
855 if (mValueIterList.pos(mLevel) == mChildIterList.pos(mLevel)
856 && mChildIterList.test(mLevel))
857 {
858 /// @todo Once ValueOff iterators properly skip child pointers,
859 /// remove this block.
860 mValueIterList.next(mLevel);
861 }
862 } else
863#endif
864 if (mChildIterList.down(mLevel)) {
865 --mLevel; // descend one level
866 mValueIterList.initLevel(mLevel, mChildIterList);
867 if (mValueIterList.pos(mLevel) == mChildIterList.pos(mLevel)
868 && mChildIterList.test(mLevel))
869 {
870 /// @todo Once ValueOff iterators properly skip child pointers,
871 /// remove this block.
872 mValueIterList.next(mLevel);
873 }
874 } else break;
875#ifdef DEBUG_TREE_VALUE_ITERATOR
876 std::cout << "\n" << this->summary() << std::flush;
877#endif
878 }
879 // Ascend to the nearest level at which one of the iterators is not yet exhausted.
880 while (!mChildIterList.test(mLevel) && !mValueIterList.test(mLevel)) {
881 if (mLevel == ROOT_LEVEL) return false;
882 ++mLevel;
883 mChildIterList.next(mLevel);
884 dontIncrement = true;
885 recurse = true;
886 }
887 } while (recurse);
888 return true;
889}
890
891
892template<typename TreeT, typename ValueIterT>
893inline bool
895{
896 if (!this->test()) {
897 bbox = CoordBBox();
898 return false;
899 }
900 bbox.min() = mValueIterList.getCoord(mLevel);
901 bbox.max() = bbox.min().offsetBy(mValueIterList.getChildDim(mLevel) - 1);
902 return true;
903}
904
905
906template<typename TreeT, typename ValueIterT>
907inline std::string
909{
910 std::ostringstream ostr;
911 for (int lvl = int(ROOT_LEVEL); lvl >= 0 && lvl >= int(mLevel); --lvl) {
912 if (lvl == 0) ostr << "leaf";
913 else if (lvl == int(ROOT_LEVEL)) ostr << "root";
914 else ostr << "int" << (ROOT_LEVEL - lvl);
915 ostr << " v" << mValueIterList.pos(lvl)
916 << " c" << mChildIterList.pos(lvl);
917 if (lvl > int(mLevel)) ostr << " / ";
918 }
919 if (this->test() && mValueIterList.pos(mLevel) < mChildIterList.pos(mLevel)) {
920 if (mLevel == 0) {
921 ostr << " " << this->getCoord();
922 } else {
923 ostr << " " << this->getBoundingBox();
924 }
925 }
926 return ostr.str();
927}
928
929
930////////////////////////////////////////
931
932
933/// @brief Base class for tree-traversal iterators over all nodes
934template<typename _TreeT, typename RootChildOnIterT>
936{
937public:
938 using TreeT = _TreeT;
939 using RootIterT = RootChildOnIterT;
940 using RootNodeT = typename RootIterT::NodeType;
941 using NCRootNodeT = typename RootIterT::NonConstNodeType;
942 static const Index ROOT_LEVEL = RootNodeT::LEVEL;
945
947
950
953
954 /// Specify the depth of the highest level of the tree to which to ascend (depth 0 = root).
955 void setMinDepth(Index minDepth);
956 /// Return the depth of the highest level of the tree to which this iterator ascends.
957 Index getMinDepth() const { return ROOT_LEVEL - Index(mMaxLevel); }
958 /// Specify the depth of the lowest level of the tree to which to descend (depth 0 = root).
959 void setMaxDepth(Index maxDepth);
960 /// Return the depth of the lowest level of the tree to which this iterator ascends.
961 Index getMaxDepth() const { return ROOT_LEVEL - Index(mMinLevel); }
962
963 //@{
964 /// Return @c true if this iterator is not yet exhausted.
965 bool test() const { return !mDone; }
966 operator bool() const { return this->test(); }
967 //@}
968
969 /// @brief Advance to the next tile or voxel value.
970 /// @return @c true if this iterator is not yet exhausted.
971 bool next();
972 /// Advance the iterator to the next leaf node.
973 void increment() { this->next(); }
974 NodeIteratorBase& operator++() { this->increment(); return *this; }
975 /// Increment the iterator n times.
976 void increment(Index n) { for (Index i = 0; i < n && this->next(); ++i) {} }
977
978 /// @brief Return the level in the tree (0 = leaf) of the node to which
979 /// this iterator is currently pointing.
980 Index getLevel() const { return mLevel; }
981 /// @brief Return the depth in the tree (0 = root) of the node to which
982 /// this iterator is currently pointing.
983 Index getDepth() const { return ROOT_LEVEL - mLevel; }
984 static Index getLeafDepth() { return LEAF_DEPTH; }
985
986 /// @brief Return the global coordinates of the voxel or tile to which
987 /// this iterator is currently pointing.
988 Coord getCoord() const;
989 /// @brief Return in @a bbox the axis-aligned bounding box of
990 /// the voxel or tile to which this iterator is currently pointing.
991 /// @return false if the bounding box is empty.
992 bool getBoundingBox(CoordBBox& bbox) const;
993 /// @brief Return the axis-aligned bounding box of the voxel or tile to which
994 /// this iterator is currently pointing.
995 CoordBBox getBoundingBox() const { CoordBBox b; this->getBoundingBox(b); return b; }
996
997 //@{
998 /// @brief Return the node to which the iterator is pointing.
999 /// @note This iterator doesn't have the usual dereference operators (* and ->),
1000 /// because they would have to be overloaded by the returned node type.
1001 template<typename NodeT>
1002 void getNode(NodeT*& node) const { node = nullptr; mIterList.getNode(mLevel, node); }
1003 template<typename NodeT>
1004 void getNode(const NodeT*& node) const { node = nullptr; mIterList.getNode(mLevel, node); }
1005 //@}
1006
1007 TreeT* getTree() const { return mTree; }
1008
1009 std::string summary() const;
1010
1011private:
1012 struct PrevItem { using IterT = RootIterT; };
1013
1014 IterListItem<PrevItem, InvTreeT, /*VecSize=*/ROOT_LEVEL+1, LEAF_LEVEL> mIterList;
1015 Index mLevel;
1016 int mMinLevel, mMaxLevel;
1017 bool mDone;
1018 TreeT* mTree;
1019}; // class NodeIteratorBase
1020
1021
1022template<typename TreeT, typename RootChildOnIterT>
1023inline
1025 mIterList(nullptr),
1026 mLevel(ROOT_LEVEL),
1027 mMinLevel(int(LEAF_LEVEL)),
1028 mMaxLevel(int(ROOT_LEVEL)),
1029 mDone(true),
1030 mTree(nullptr)
1031{
1032}
1033
1034
1035template<typename TreeT, typename RootChildOnIterT>
1036inline
1038 mIterList(nullptr),
1039 mLevel(ROOT_LEVEL),
1040 mMinLevel(int(LEAF_LEVEL)),
1041 mMaxLevel(int(ROOT_LEVEL)),
1042 mDone(false),
1043 mTree(&tree)
1044{
1045 mIterList.setIter(RootIterTraits::begin(tree.root()));
1046}
1047
1048
1049template<typename TreeT, typename RootChildOnIterT>
1050inline
1052 mIterList(other.mIterList),
1053 mLevel(other.mLevel),
1054 mMinLevel(other.mMinLevel),
1055 mMaxLevel(other.mMaxLevel),
1056 mDone(other.mDone),
1057 mTree(other.mTree)
1058{
1059 mIterList.updateBackPointers();
1060}
1061
1062
1063template<typename TreeT, typename RootChildOnIterT>
1066{
1067 if (&other != this) {
1068 mLevel = other.mLevel;
1069 mMinLevel = other.mMinLevel;
1070 mMaxLevel = other.mMaxLevel;
1071 mDone = other.mDone;
1072 mTree = other.mTree;
1073 mIterList = other.mIterList;
1074 mIterList.updateBackPointers();
1075 }
1076 return *this;
1077}
1078
1079
1080template<typename TreeT, typename RootChildOnIterT>
1081inline void
1083{
1084 mMaxLevel = int(ROOT_LEVEL - minDepth); // level = ROOT_LEVEL - depth
1085 if (int(mLevel) > mMaxLevel) this->next();
1086}
1087
1088
1089template<typename TreeT, typename RootChildOnIterT>
1090inline void
1092{
1093 // level = ROOT_LEVEL - depth
1094 mMinLevel = int(ROOT_LEVEL - std::min(maxDepth, this->getLeafDepth()));
1095 if (int(mLevel) < mMinLevel) this->next();
1096}
1097
1098
1099template<typename TreeT, typename RootChildOnIterT>
1100inline bool
1102{
1103 do {
1104 if (mDone) return false;
1105
1106 // If the iterator over the current node points to a child,
1107 // descend to the child (depth-first traversal).
1108 if (int(mLevel) > mMinLevel && mIterList.test(mLevel)) {
1109 if (!mIterList.down(mLevel)) return false;
1110 --mLevel;
1111 } else {
1112 // Ascend to the nearest ancestor that has other children.
1113 while (!mIterList.test(mLevel)) {
1114 if (mLevel == ROOT_LEVEL) {
1115 // Can't ascend higher than the root.
1116 mDone = true;
1117 return false;
1118 }
1119 ++mLevel; // ascend one level
1120 mIterList.next(mLevel); // advance to the next child, if there is one
1121 }
1122 // Descend to the child.
1123 if (!mIterList.down(mLevel)) return false;
1124 --mLevel;
1125 }
1126 } while (int(mLevel) < mMinLevel || int(mLevel) > mMaxLevel);
1127 return true;
1128}
1129
1130
1131template<typename TreeT, typename RootChildOnIterT>
1132inline Coord
1134{
1135 if (mLevel != ROOT_LEVEL) return mIterList.getCoord(mLevel + 1);
1136 RootNodeT* root = nullptr;
1137 this->getNode(root);
1138 return root ? root->getMinIndex() : Coord::min();
1139}
1140
1141
1142template<typename TreeT, typename RootChildOnIterT>
1143inline bool
1145{
1146 if (mLevel == ROOT_LEVEL) {
1147 RootNodeT* root = nullptr;
1148 this->getNode(root);
1149 if (root == nullptr) {
1150 bbox = CoordBBox();
1151 return false;
1152 }
1153 root->getIndexRange(bbox);
1154 return true;
1155 }
1156 bbox.min() = mIterList.getCoord(mLevel + 1);
1157 bbox.max() = bbox.min().offsetBy(mIterList.getChildDim(mLevel + 1) - 1);
1158 return true;
1159}
1160
1161
1162template<typename TreeT, typename RootChildOnIterT>
1163inline std::string
1165{
1166 std::ostringstream ostr;
1167 for (int lvl = int(ROOT_LEVEL); lvl >= 0 && lvl >= int(mLevel); --lvl) {
1168 if (lvl == 0) ostr << "leaf";
1169 else if (lvl == int(ROOT_LEVEL)) ostr << "root";
1170 else ostr << "int" << (ROOT_LEVEL - lvl);
1171 ostr << " c" << mIterList.pos(lvl);
1172 if (lvl > int(mLevel)) ostr << " / ";
1173 }
1174 CoordBBox bbox;
1175 this->getBoundingBox(bbox);
1176 ostr << " " << bbox;
1177 return ostr.str();
1178}
1179
1180
1181////////////////////////////////////////
1182
1183
1184/// @brief Base class for tree-traversal iterators over all leaf nodes (but not leaf voxels)
1185template<typename TreeT, typename RootChildOnIterT>
1187{
1188public:
1189 using RootIterT = RootChildOnIterT;
1190 using RootNodeT = typename RootIterT::NodeType;
1191 using NCRootNodeT = typename RootIterT::NonConstNodeType;
1192 static const Index ROOT_LEVEL = RootNodeT::LEVEL;
1194 using NCLeafNodeT = typename InvTreeT::Front;
1197
1199
1200 LeafIteratorBase(): mIterList(nullptr), mTree(nullptr) {}
1201
1202 LeafIteratorBase(TreeT& tree): mIterList(nullptr), mTree(&tree)
1203 {
1204 // Initialize the iterator list with a root node iterator.
1205 mIterList.setIter(RootIterTraits::begin(tree.root()));
1206 // Descend along the first branch, initializing the node iterator at each level.
1207 Index lvl = ROOT_LEVEL;
1208 for ( ; lvl > 0 && mIterList.down(lvl); --lvl) {}
1209 // If the first branch terminated above the leaf level, backtrack to the next branch.
1210 if (lvl > 0) this->next();
1211 }
1212
1213 LeafIteratorBase(const LeafIteratorBase& other): mIterList(other.mIterList), mTree(other.mTree)
1214 {
1215 mIterList.updateBackPointers();
1216 }
1218 {
1219 if (&other != this) {
1220 mTree = other.mTree;
1221 mIterList = other.mIterList;
1222 mIterList.updateBackPointers();
1223 }
1224 return *this;
1225 }
1226
1227 //@{
1228 /// Return the leaf node to which the iterator is pointing.
1230 {
1231 LeafNodeT* n = nullptr;
1232 mIterList.getNode(LEAF_LEVEL, n);
1233 return n;
1234 }
1235 LeafNodeT& operator*() const { return *this->getLeaf(); }
1236 LeafNodeT* operator->() const { return this->getLeaf(); }
1237 //@}
1238
1239 bool test() const { return mIterList.test(LEAF_PARENT_LEVEL); }
1240 operator bool() const { return this->test(); }
1241
1242 //@{
1243 /// Advance the iterator to the next leaf node.
1244 bool next();
1245 void increment() { this->next(); }
1246 LeafIteratorBase& operator++() { this->increment(); return *this; }
1247 //@}
1248 /// Increment the iterator n times.
1249 void increment(Index n) { for (Index i = 0; i < n && this->next(); ++i) {} }
1250
1251 TreeT* getTree() const { return mTree; }
1252
1253private:
1254 struct PrevItem { using IterT = RootIterT; };
1255
1256 /// @note Even though a LeafIterator doesn't iterate over leaf voxels,
1257 /// the first item of this linked list of node iterators is a leaf node iterator,
1258 /// whose purpose is only to provide access to its parent leaf node.
1259 IterListItem<PrevItem, InvTreeT, /*VecSize=*/ROOT_LEVEL+1, LEAF_LEVEL> mIterList;
1260 TreeT* mTree;
1261}; // class LeafIteratorBase
1262
1263
1264template<typename TreeT, typename RootChildOnIterT>
1265inline bool
1267{
1268 // If the iterator is valid for the current node one level above the leaf level,
1269 // advance the iterator to the node's next child.
1270 if (mIterList.test(LEAF_PARENT_LEVEL) && mIterList.next(LEAF_PARENT_LEVEL)) {
1271 mIterList.down(LEAF_PARENT_LEVEL); // initialize the leaf iterator
1272 return true;
1273 }
1274
1275 Index lvl = LEAF_PARENT_LEVEL;
1276 while (!mIterList.test(LEAF_PARENT_LEVEL)) {
1277 if (mIterList.test(lvl)) {
1278 mIterList.next(lvl);
1279 } else {
1280 do {
1281 // Ascend to the nearest level at which
1282 // one of the iterators is not yet exhausted.
1283 if (lvl == ROOT_LEVEL) return false;
1284 ++lvl;
1285 if (mIterList.test(lvl)) mIterList.next(lvl);
1286 } while (!mIterList.test(lvl));
1287 }
1288 // Descend to the lowest child, but not as far as the leaf iterator.
1289 while (lvl > LEAF_PARENT_LEVEL && mIterList.down(lvl)) --lvl;
1290 }
1291 mIterList.down(LEAF_PARENT_LEVEL); // initialize the leaf iterator
1292 return true;
1293}
1294
1295
1296////////////////////////////////////////
1297
1298
1299/// An IteratorRange wraps a tree or node iterator, giving the iterator TBB
1300/// splittable range semantics.
1301template<typename IterT>
1303{
1304public:
1305 IteratorRange(const IterT& iter, size_t grainSize = 8):
1306 mIter(iter),
1307 mGrainSize(grainSize),
1308 mSize(0)
1309 {
1310 mSize = this->size();
1311 }
1312 IteratorRange(IteratorRange& other, tbb::split):
1313 mIter(other.mIter),
1314 mGrainSize(other.mGrainSize),
1315 mSize(other.mSize >> 1)
1316 {
1317 other.increment(mSize);
1318 }
1319
1320 /// @brief Return a reference to this range's iterator.
1321 /// @note The reference is const, because the iterator should not be
1322 /// incremented directly. Use this range object's increment() instead.
1323 const IterT& iterator() const { return mIter; }
1324
1325 bool empty() const { return mSize == 0 || !mIter.test(); }
1326 bool test() const { return !this->empty(); }
1327 operator bool() const { return !this->empty(); }
1328
1329 /// @brief Return @c true if this range is splittable (i.e., if the iterator
1330 /// can be advanced more than mGrainSize times).
1331 bool is_divisible() const { return mSize > mGrainSize; }
1332
1333 /// Advance the iterator @a n times.
1334 void increment(Index n = 1) { for ( ; n > 0 && mSize > 0; --n, --mSize, ++mIter) {} }
1335 /// Advance the iterator to the next item.
1336 IteratorRange& operator++() { this->increment(); return *this; }
1337 /// @brief Advance the iterator to the next item.
1338 /// @return @c true if the iterator is not yet exhausted.
1339 bool next() { this->increment(); return this->test(); }
1340
1341private:
1342 Index size() const { Index n = 0; for (IterT it(mIter); it.test(); ++n, ++it) {} return n; }
1343
1344 IterT mIter;
1345 size_t mGrainSize;
1346 /// @note mSize is only an estimate of the number of times mIter can be incremented
1347 /// before it is exhausted (because the topology of the underlying tree could change
1348 /// during iteration). For the purpose of range splitting, though, that should be
1349 /// sufficient, since the two halves need not be of exactly equal size.
1350 Index mSize;
1351};
1352
1353
1354////////////////////////////////////////
1355
1356
1357/// @brief Base class for tree-traversal iterators over real and virtual voxel values
1358/// @todo class TreeVoxelIteratorBase;
1359
1360} // namespace tree
1361} // namespace OPENVDB_VERSION_NAME
1362} // namespace openvdb
1363
1364#endif // OPENVDB_TREE_TREEITERATOR_HAS_BEEN_INCLUDED
#define ROOT_LEVEL
Definition: CNanoVDB.h:53
ChildT * child
Definition: GridBuilder.h:1289
Axis-aligned bounding box of signed integer coordinates.
Definition: Coord.h:249
const Coord & min() const
Definition: Coord.h:321
const Coord & max() const
Definition: Coord.h:322
Signed (x, y, z) 32-bit integer coordinates.
Definition: Coord.h:25
Coord offsetBy(Int32 dx, Int32 dy, Int32 dz) const
Definition: Coord.h:91
static Coord min()
Return the smallest possible coordinate.
Definition: Coord.h:43
void setValueOff(Index lvl) const
Definition: TreeIterator.h:595
typename IterTraits< typename PrevIterT::NonConstNodeType, PrevIterT >::template NodeConverter< _NodeT >::Type IterT
The type of iterator stored in this list item (e.g., RootNode::ValueOnCIter)
Definition: TreeIterator.h:513
IterListItem(PrevItemT *prev)
Definition: TreeIterator.h:529
Index pos(Index lvl) const
Definition: TreeIterator.h:563
typename IterT::NonConstNodeType NCNodeT
The type of the node with const qualifiers removed ("Non-Const")
Definition: TreeIterator.h:518
bool down(Index lvl)
Definition: TreeIterator.h:569
bool isValueOn(Index lvl) const
Definition: TreeIterator.h:584
typename CopyConstness< NodeT, typename NodeT::ChildNodeType >::Type ChildT
NodeT's child node type, with the same constness (e.g., const InternalNode<...>)
Definition: TreeIterator.h:522
typename NodeVecT::Front _NodeT
Definition: TreeIterator.h:508
typename IterT::NonConstValueType NCValueT
The type of value (with const qualifiers removed) to which the iterator points.
Definition: TreeIterator.h:520
bool next(Index lvl)
Definition: TreeIterator.h:567
bool test(Index lvl) const
Definition: TreeIterator.h:565
void initLevel(Index lvl, OtherIterListItemT &otherListItem)
Definition: TreeIterator.h:554
typename IterT::NodeType NodeT
The type of node over which IterT iterates (e.g., const RootNode<...>)
Definition: TreeIterator.h:516
void modifyValue(Index lvl, const ModifyOp &op) const
Definition: TreeIterator.h:598
void updateBackPointers(PrevItemT *prev)
Definition: TreeIterator.h:541
typename CopyConstness< NCNodeT, typename NCNodeT::ChildNodeType >::Type NCChildT
NodeT's child node type with const qualifiers removed.
Definition: TreeIterator.h:524
Coord getCoord(Index lvl) const
Definition: TreeIterator.h:580
void getNode(Index lvl, NodeT *&node) const
Definition: TreeIterator.h:548
IterListItem & operator=(const IterListItem &other)
Definition: TreeIterator.h:532
void setIter(const IterT &iter)
Definition: TreeIterator.h:546
Index64 getVoxelCount(Index lvl) const
Definition: TreeIterator.h:582
const NCValueT & getValue(Index lvl) const
Definition: TreeIterator.h:586
void setValueOn(Index lvl, bool on=true) const
Definition: TreeIterator.h:594
void setValue(Index lvl, const NCValueT &val) const
Definition: TreeIterator.h:593
typename PrevItemT::IterT PrevIterT
The type of iterator stored in the previous list item.
Definition: TreeIterator.h:510
Index getChildDim(Index lvl) const
Definition: TreeIterator.h:581
IterListItem(const IterListItem &other)
Definition: TreeIterator.h:531
void setValueOff(Index lvl) const
Definition: TreeIterator.h:482
typename IterTraits< typename PrevIterT::NonConstNodeType, PrevIterT >::template NodeConverter< _NodeT >::Type IterT
The type of iterator stored in this list item (e.g., InternalNode::ValueOnCIter)
Definition: TreeIterator.h:387
Index pos(Index lvl) const
Definition: TreeIterator.h:441
typename IterT::NonConstNodeType NCNodeT
The type of the node with const qualifiers removed ("Non-Const")
Definition: TreeIterator.h:392
bool isValueOn(Index lvl) const
Definition: TreeIterator.h:463
void setIter(const OtherIterT &iter)
Definition: TreeIterator.h:420
typename NodeVecT::Front _NodeT
The type of node (non-const) whose iterator is stored in this list item.
Definition: TreeIterator.h:384
typename IterT::NonConstValueType NCValueT
The type of value (with const qualifiers removed) to which the iterator points.
Definition: TreeIterator.h:394
bool test(Index lvl) const
Definition: TreeIterator.h:443
void initLevel(Index lvl, OtherIterListItemT &otherListItem)
Definition: TreeIterator.h:430
typename IterT::NodeType NodeT
The type of node (const or non-const) over which IterT iterates (e.g., const RootNode<....
Definition: TreeIterator.h:390
void updateBackPointers(PrevItemT *=nullptr)
Definition: TreeIterator.h:413
void modifyValue(Index lvl, const ModifyOp &op) const
Definition: TreeIterator.h:488
Coord getCoord(Index lvl) const
Definition: TreeIterator.h:449
void getNode(Index lvl, NodeT *&node) const
Definition: TreeIterator.h:422
IterListItem & operator=(const IterListItem &other)
Definition: TreeIterator.h:403
void setIter(const IterT &iter)
Definition: TreeIterator.h:418
void getNode(Index lvl, OtherNodeT *&node) const
Definition: TreeIterator.h:427
Index64 getVoxelCount(Index lvl) const
Definition: TreeIterator.h:458
const NCValueT & getValue(Index lvl) const
Definition: TreeIterator.h:468
void setValueOn(Index lvl, bool on=true) const
Definition: TreeIterator.h:478
void setValue(Index lvl, const NCValueT &val) const
Definition: TreeIterator.h:474
typename PrevItemT::IterT PrevIterT
The type of iterator stored in the previous list item.
Definition: TreeIterator.h:382
Index getChildDim(Index lvl) const
Definition: TreeIterator.h:453
IterListItem(const IterListItem &other)
Definition: TreeIterator.h:401
An IterListItem is an element of a compile-time linked list of iterators to nodes of different types.
Definition: TreeIterator.h:214
void setValueOff(Index lvl) const
Mark the value to which the iterator at level lvl of the tree points as inactive.
Definition: TreeIterator.h:353
typename IterTraits< typename PrevIterT::NonConstNodeType, PrevIterT >::template NodeConverter< _NodeT >::Type IterT
The type of iterator stored in this list item (e.g., InternalNode::ValueOnCIter)
Definition: TreeIterator.h:222
IterListItem(PrevItemT *prev)
Definition: TreeIterator.h:238
Index pos(Index lvl) const
Return The table offset of the iterator at level lvl of the tree.
Definition: TreeIterator.h:286
typename IterT::NonConstNodeType NCNodeT
The type of the node with const qualifiers removed ("Non-Const")
Definition: TreeIterator.h:227
bool down(Index lvl)
If the iterator at level lvl of the tree points to a child node, initialize the next iterator in this...
Definition: TreeIterator.h:296
bool isValueOn(Index lvl) const
Return true if the iterator at level lvl of the tree points to an active value.
Definition: TreeIterator.h:324
typename CopyConstness< NodeT, typename NodeT::ChildNodeType >::Type ChildT
NodeT's child node type, with the same constness (e.g., const InternalNode<...>)
Definition: TreeIterator.h:231
void setIter(const OtherIterT &iter)
Definition: TreeIterator.h:256
typename NodeVecT::Front _NodeT
The type of node (non-const) whose iterator is stored in this list item.
Definition: TreeIterator.h:219
typename IterT::NonConstValueType NCValueT
The type of value (with const qualifiers removed) to which the iterator points.
Definition: TreeIterator.h:229
bool next(Index lvl)
Increment the iterator at level lvl of the tree.
Definition: TreeIterator.h:292
bool test(Index lvl) const
Return true if the iterator at level lvl of the tree has not yet reached its end.
Definition: TreeIterator.h:289
void initLevel(Index lvl, OtherIterListItemT &otherListItem)
Initialize the iterator for level lvl of the tree with the node over which the corresponding iterator...
Definition: TreeIterator.h:273
typename IterT::NodeType NodeT
The type of node (const or non-const) over which IterT iterates (e.g., const RootNode<....
Definition: TreeIterator.h:225
void modifyValue(Index lvl, const ModifyOp &op) const
Apply a functor to the item to which this iterator is pointing.
Definition: TreeIterator.h:361
void updateBackPointers(PrevItemT *prev)
Definition: TreeIterator.h:252
typename CopyConstness< NCNodeT, typename NCNodeT::ChildNodeType >::Type NCChildT
NodeT's child node type with const qualifiers removed.
Definition: TreeIterator.h:233
Coord getCoord(Index lvl) const
Return the global coordinates of the voxel or tile to which the iterator at level lvl of the tree is ...
Definition: TreeIterator.h:309
void getNode(Index lvl, NodeT *&node) const
Return the node over which this list element's iterator iterates.
Definition: TreeIterator.h:259
IterListItem & operator=(const IterListItem &other)
Definition: TreeIterator.h:242
void setIter(const IterT &iter)
Definition: TreeIterator.h:254
void getNode(Index lvl, OtherNodeT *&node) const
Return the node over which one of the following list elements' iterator iterates.
Definition: TreeIterator.h:265
Index64 getVoxelCount(Index lvl) const
Return the number of (virtual) voxels spanned by a tile value or child node.
Definition: TreeIterator.h:318
const NCValueT & getValue(Index lvl) const
Return the value to which the iterator at level lvl of the tree points.
Definition: TreeIterator.h:330
void setValueOn(Index lvl, bool on=true) const
Set the value (to val) to which the iterator at level lvl of the tree points and mark the value as ac...
Definition: TreeIterator.h:346
void setValue(Index lvl, const NCValueT &val) const
Set the value (to val) to which the iterator at level lvl of the tree points and mark the value as ac...
Definition: TreeIterator.h:339
typename PrevItemT::IterT PrevIterT
The type of iterator stored in the previous list item.
Definition: TreeIterator.h:217
Index getChildDim(Index lvl) const
Definition: TreeIterator.h:313
IterListItem(const IterListItem &other)
Definition: TreeIterator.h:240
Definition: TreeIterator.h:1303
IteratorRange & operator++()
Advance the iterator to the next item.
Definition: TreeIterator.h:1336
bool is_divisible() const
Return true if this range is splittable (i.e., if the iterator can be advanced more than mGrainSize t...
Definition: TreeIterator.h:1331
IteratorRange(const IterT &iter, size_t grainSize=8)
Definition: TreeIterator.h:1305
bool test() const
Definition: TreeIterator.h:1326
bool empty() const
Definition: TreeIterator.h:1325
bool next()
Advance the iterator to the next item.
Definition: TreeIterator.h:1339
const IterT & iterator() const
Return a reference to this range's iterator.
Definition: TreeIterator.h:1323
IteratorRange(IteratorRange &other, tbb::split)
Definition: TreeIterator.h:1312
void increment(Index n=1)
Advance the iterator n times.
Definition: TreeIterator.h:1334
Base class for tree-traversal iterators over all leaf nodes (but not leaf voxels)
Definition: TreeIterator.h:1187
static const Index LEAF_PARENT_LEVEL
Definition: TreeIterator.h:1196
static const Index LEAF_LEVEL
Definition: TreeIterator.h:1196
bool test() const
Definition: TreeIterator.h:1239
LeafIteratorBase()
Definition: TreeIterator.h:1200
typename RootIterT::NonConstNodeType NCRootNodeT
Definition: TreeIterator.h:1191
LeafIteratorBase(const LeafIteratorBase &other)
Definition: TreeIterator.h:1213
typename InvTreeT::Front NCLeafNodeT
Definition: TreeIterator.h:1194
LeafNodeT & operator*() const
Definition: TreeIterator.h:1235
LeafIteratorBase & operator=(const LeafIteratorBase &other)
Definition: TreeIterator.h:1217
bool next()
Advance the iterator to the next leaf node.
Definition: TreeIterator.h:1266
LeafIteratorBase & operator++()
Definition: TreeIterator.h:1246
typename iter::InvertedTree< NCRootNodeT, ROOT_LEVEL >::Type InvTreeT
Definition: TreeIterator.h:1193
LeafIteratorBase(TreeT &tree)
Definition: TreeIterator.h:1202
static const Index ROOT_LEVEL
Definition: TreeIterator.h:1192
typename CopyConstness< RootNodeT, NCLeafNodeT >::Type LeafNodeT
Definition: TreeIterator.h:1195
RootChildOnIterT RootIterT
Definition: TreeIterator.h:1189
LeafNodeT * getLeaf() const
Return the leaf node to which the iterator is pointing.
Definition: TreeIterator.h:1229
typename RootIterT::NodeType RootNodeT
Definition: TreeIterator.h:1190
void increment(Index n)
Increment the iterator n times.
Definition: TreeIterator.h:1249
void increment()
Definition: TreeIterator.h:1245
TreeT * getTree() const
Definition: TreeIterator.h:1251
LeafNodeT * operator->() const
Definition: TreeIterator.h:1236
Base class for tree-traversal iterators over all nodes.
Definition: TreeIterator.h:936
Index getMaxDepth() const
Return the depth of the lowest level of the tree to which this iterator ascends.
Definition: TreeIterator.h:961
Index getDepth() const
Return the depth in the tree (0 = root) of the node to which this iterator is currently pointing.
Definition: TreeIterator.h:983
Index getLevel() const
Return the level in the tree (0 = leaf) of the node to which this iterator is currently pointing.
Definition: TreeIterator.h:980
static const Index ROOT_DEPTH
Definition: TreeIterator.h:944
Index getMinDepth() const
Return the depth of the highest level of the tree to which this iterator ascends.
Definition: TreeIterator.h:957
Coord getCoord() const
Return the global coordinates of the voxel or tile to which this iterator is currently pointing.
Definition: TreeIterator.h:1133
static const Index LEAF_LEVEL
Definition: TreeIterator.h:944
bool test() const
Return true if this iterator is not yet exhausted.
Definition: TreeIterator.h:965
NodeIteratorBase & operator=(const NodeIteratorBase &other)
Definition: TreeIterator.h:1065
typename RootIterT::NonConstNodeType NCRootNodeT
Definition: TreeIterator.h:941
NodeIteratorBase()
Definition: TreeIterator.h:1024
static Index getLeafDepth()
Definition: TreeIterator.h:984
bool next()
Advance to the next tile or voxel value.
Definition: TreeIterator.h:1101
void setMinDepth(Index minDepth)
Specify the depth of the highest level of the tree to which to ascend (depth 0 = root).
Definition: TreeIterator.h:1082
void getNode(const NodeT *&node) const
Definition: TreeIterator.h:1004
typename iter::InvertedTree< NCRootNodeT, ROOT_LEVEL >::Type InvTreeT
Definition: TreeIterator.h:943
NodeIteratorBase & operator++()
Definition: TreeIterator.h:974
void getNode(NodeT *&node) const
Return the node to which the iterator is pointing.
Definition: TreeIterator.h:1002
_TreeT TreeT
Definition: TreeIterator.h:938
void setMaxDepth(Index maxDepth)
Specify the depth of the lowest level of the tree to which to descend (depth 0 = root).
Definition: TreeIterator.h:1091
std::string summary() const
Definition: TreeIterator.h:1164
static const Index ROOT_LEVEL
Definition: TreeIterator.h:942
RootChildOnIterT RootIterT
Definition: TreeIterator.h:939
CoordBBox getBoundingBox() const
Return the axis-aligned bounding box of the voxel or tile to which this iterator is currently pointin...
Definition: TreeIterator.h:995
static const Index LEAF_DEPTH
Definition: TreeIterator.h:944
typename RootIterT::NodeType RootNodeT
Definition: TreeIterator.h:940
void increment(Index n)
Increment the iterator n times.
Definition: TreeIterator.h:976
void increment()
Advance the iterator to the next leaf node.
Definition: TreeIterator.h:973
TreeT * getTree() const
Definition: TreeIterator.h:1007
Base class for tree-traversal iterators over tile and voxel values.
Definition: TreeIterator.h:617
bool isVoxelValue() const
Return true if this iterator is currently pointing to a (leaf) voxel value.
Definition: TreeIterator.h:686
void setValue(const ValueT &val) const
Change the tile or voxel value to which this iterator is currently pointing and mark it as active.
Definition: TreeIterator.h:699
Index getMaxDepth() const
Return the depth of the lowest level of the tree to which this iterator ascends.
Definition: TreeIterator.h:640
Index getDepth() const
Return the depth in the tree (0 = root) of the node to which this iterator is currently pointing.
Definition: TreeIterator.h:659
Index getLevel() const
Return the level in the tree (0 = leaf) of the node to which this iterator is currently pointing.
Definition: TreeIterator.h:656
typename ValueIterT::NonConstValueType ValueT
Definition: TreeIterator.h:622
bool isValueOn() const
Return true if the value to which this iterator is currently pointing is active.
Definition: TreeIterator.h:688
Index getMinDepth() const
Return the depth of the highest level of the tree to which this iterator ascends.
Definition: TreeIterator.h:636
const ValueT & getValue() const
Return the tile or voxel value to which this iterator is currently pointing.
Definition: TreeIterator.h:692
void modifyValue(const ModifyOp &op) const
Apply a functor to the item to which this iterator is pointing. (Not valid for const iterators....
Definition: TreeIterator.h:712
Coord getCoord() const
Return the global coordinates of the voxel or tile to which this iterator is currently pointing.
Definition: TreeIterator.h:671
bool test() const
Return true if this iterator is not yet exhausted.
Definition: TreeIterator.h:644
_ValueIterT ValueIterT
Definition: TreeIterator.h:620
void getNode(NodeType *&node) const
Return in node a pointer to the node over which this iterator is currently iterating or one of that n...
Definition: TreeIterator.h:667
bool isTileValue() const
Return true if this iterator is currently pointing to a (non-leaf) tile value.
Definition: TreeIterator.h:684
typename NodeT::ChildOnCIter ChildOnIterT
Definition: TreeIterator.h:623
void setValueOff() const
Mark the tile or voxel value to which this iterator is currently pointing as inactive.
Definition: TreeIterator.h:704
static Index getLeafDepth()
Definition: TreeIterator.h:660
bool next()
Advance to the next tile or voxel value. Return true if this iterator is not yet exhausted.
Definition: TreeIterator.h:805
TreeValueIteratorBase & operator=(const TreeValueIteratorBase &other)
Definition: TreeIterator.h:768
void setMinDepth(Index minDepth)
Specify the depth of the highest level of the tree to which to ascend (depth 0 = root).
Definition: TreeIterator.h:786
Index64 getVoxelCount() const
Return the number of (virtual) voxels corresponding to the value.
Definition: TreeIterator.h:681
typename ValueIterT::NodeType NodeT
Definition: TreeIterator.h:621
_TreeT TreeT
Definition: TreeIterator.h:619
void setMaxDepth(Index maxDepth)
Specify the depth of the lowest level of the tree to which to descend (depth 0 = root).
Definition: TreeIterator.h:795
const ValueT & operator*() const
Definition: TreeIterator.h:693
std::string summary() const
Return a string (for debugging, mainly) describing this iterator's current state.
Definition: TreeIterator.h:908
TreeValueIteratorBase(TreeT &)
Definition: TreeIterator.h:737
CoordBBox getBoundingBox() const
Return the axis-aligned bounding box of the voxel or tile to which this iterator is currently pointin...
Definition: TreeIterator.h:678
const ValueT * operator->() const
Definition: TreeIterator.h:694
TreeValueIteratorBase & operator++()
Advance to the next tile or voxel value.
Definition: TreeIterator.h:652
void setActiveState(bool on) const
Change the active/inactive state of the tile or voxel value to which this iterator is currently point...
Definition: TreeIterator.h:702
TreeT * getTree() const
Return a pointer to the tree over which this iterator is iterating.
Definition: TreeIterator.h:715
Index32 Index
Definition: Types.h:54
uint64_t Index64
Definition: Types.h:53
Definition: Exceptions.h:13
typename std::remove_const< ToType >::type Type
Definition: Types.h:400
A list of types (not necessarily unique)
Definition: TypeList.h:484
typename OtherNodeT::ChildAllCIter Type
Definition: TreeIterator.h:134
static IterT begin(const NodeT &node)
Definition: TreeIterator.h:128
typename NodeT::ChildAllCIter IterT
Definition: TreeIterator.h:127
static ChildT * getChild(const IterT &iter)
Definition: TreeIterator.h:129
typename OtherNodeT::ChildAllIter Type
Definition: TreeIterator.h:120
typename NodeT::ChildAllIter IterT
Definition: TreeIterator.h:113
static IterT begin(NodeT &node)
Definition: TreeIterator.h:114
static ChildT * getChild(const IterT &iter)
Definition: TreeIterator.h:115
typename OtherNodeT::ChildOffCIter Type
Definition: TreeIterator.h:106
static IterT begin(const NodeT &node)
Definition: TreeIterator.h:104
typename NodeT::ChildOffCIter IterT
Definition: TreeIterator.h:103
typename OtherNodeT::ChildOffIter Type
Definition: TreeIterator.h:96
static IterT begin(NodeT &node)
Definition: TreeIterator.h:94
typename NodeT::ChildOffIter IterT
Definition: TreeIterator.h:93
typename OtherNodeT::ChildOnCIter Type
Definition: TreeIterator.h:86
static IterT begin(const NodeT &node)
Definition: TreeIterator.h:81
static const ChildT * getChild(const IterT &iter)
Definition: TreeIterator.h:82
typename NodeT::ChildOnCIter IterT
Definition: TreeIterator.h:80
typename OtherNodeT::ChildOnIter Type
Definition: TreeIterator.h:73
static IterT begin(NodeT &node)
Definition: TreeIterator.h:68
typename NodeT::ChildOnIter IterT
Definition: TreeIterator.h:67
static ChildT * getChild(const IterT &iter)
Definition: TreeIterator.h:69
typename OtherNodeT::ValueAllCIter Type
Definition: TreeIterator.h:194
static IterT begin(const NodeT &node)
Definition: TreeIterator.h:192
typename NodeT::ValueAllCIter IterT
Definition: TreeIterator.h:191
typename OtherNodeT::ValueAllIter Type
Definition: TreeIterator.h:184
static IterT begin(NodeT &node)
Definition: TreeIterator.h:182
typename NodeT::ValueAllIter IterT
Definition: TreeIterator.h:181
typename OtherNodeT::ValueOffCIter Type
Definition: TreeIterator.h:174
static IterT begin(const NodeT &node)
Definition: TreeIterator.h:172
typename NodeT::ValueOffCIter IterT
Definition: TreeIterator.h:171
typename OtherNodeT::ValueOffIter Type
Definition: TreeIterator.h:164
static IterT begin(NodeT &node)
Definition: TreeIterator.h:162
typename NodeT::ValueOffIter IterT
Definition: TreeIterator.h:161
typename OtherNodeT::ValueOnCIter Type
Definition: TreeIterator.h:154
static IterT begin(const NodeT &node)
Definition: TreeIterator.h:152
typename NodeT::ValueOnCIter IterT
Definition: TreeIterator.h:151
typename OtherNodeT::ValueOnIter Type
Definition: TreeIterator.h:144
typename NodeT::ValueOnIter IterT
Definition: TreeIterator.h:141
static IterT begin(NodeT &node)
Definition: TreeIterator.h:142
Definition: TreeIterator.h:60
static ChildT * getChild(const IterT &)
Definition: TreeIterator.h:61
Definition: TreeIterator.h:32
typename SubtreeT::template Append< HeadT > Type
Definition: TreeIterator.h:34
typename InvertedTree< typename HeadT::ChildNodeType, HeadLevel-1 >::Type SubtreeT
Definition: TreeIterator.h:33
#define OPENVDB_VERSION_NAME
The version namespace name for this library version.
Definition: version.h.in:121
#define OPENVDB_USE_VERSION_NAMESPACE
Definition: version.h.in:212