OpenVDB 9.0.0
LeafBuffer.h
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1// Copyright Contributors to the OpenVDB Project
2// SPDX-License-Identifier: MPL-2.0
3
4#ifndef OPENVDB_TREE_LEAFBUFFER_HAS_BEEN_INCLUDED
5#define OPENVDB_TREE_LEAFBUFFER_HAS_BEEN_INCLUDED
6
7#include <openvdb/Types.h>
8#include <openvdb/io/Compression.h> // for io::readCompressedValues(), etc
10#include <tbb/spin_mutex.h>
11#include <algorithm> // for std::swap
12#include <atomic>
13#include <cstddef> // for offsetof()
14#include <iostream>
15#include <memory>
16#include <type_traits>
17
18
19class TestLeaf;
20
21namespace openvdb {
23namespace OPENVDB_VERSION_NAME {
24namespace tree {
25
26
27/// @brief Array of fixed size 2<SUP>3<I>Log2Dim</I></SUP> that stores
28/// the voxel values of a LeafNode
29template<typename T, Index Log2Dim>
31{
32public:
33 using ValueType = T;
36 static const Index SIZE = 1 << 3 * Log2Dim;
37
38 struct FileInfo
39 {
40 FileInfo(): bufpos(0) , maskpos(0) {}
41 std::streamoff bufpos;
42 std::streamoff maskpos;
45 };
46
47 /// Default constructor
48 inline LeafBuffer(): mData(new ValueType[SIZE]) { mOutOfCore = 0; }
49 /// Construct a buffer populated with the specified value.
50 explicit inline LeafBuffer(const ValueType&);
51 /// Copy constructor
52 inline LeafBuffer(const LeafBuffer&);
53 /// Construct a buffer but don't allocate memory for the full array of values.
54 LeafBuffer(PartialCreate, const ValueType&): mData(nullptr) { mOutOfCore = 0; }
55 /// Destructor
56 inline ~LeafBuffer();
57
58 /// Return @c true if this buffer's values have not yet been read from disk.
59 bool isOutOfCore() const { return bool(mOutOfCore); }
60 /// Return @c true if memory for this buffer has not yet been allocated.
61 bool empty() const { return !mData || this->isOutOfCore(); }
62 /// Allocate memory for this buffer if it has not already been allocated.
63 bool allocate() { if (mData == nullptr) mData = new ValueType[SIZE]; return true; }
64
65 /// Populate this buffer with a constant value.
66 inline void fill(const ValueType&);
67
68 /// Return a const reference to the i'th element of this buffer.
69 const ValueType& getValue(Index i) const { return this->at(i); }
70 /// Return a const reference to the i'th element of this buffer.
71 const ValueType& operator[](Index i) const { return this->at(i); }
72 /// Set the i'th value of this buffer to the specified value.
73 inline void setValue(Index i, const ValueType&);
74
75 /// Copy the other buffer's values into this buffer.
77
78 /// @brief Return @c true if the contents of the other buffer
79 /// exactly equal the contents of this buffer.
80 inline bool operator==(const LeafBuffer&) const;
81 /// @brief Return @c true if the contents of the other buffer
82 /// are not exactly equal to the contents of this buffer.
83 inline bool operator!=(const LeafBuffer& other) const { return !(other == *this); }
84
85 /// Exchange this buffer's values with the other buffer's values.
86 inline void swap(LeafBuffer&);
87
88 /// Return the memory footprint of this buffer in bytes.
89 inline Index memUsage() const;
90 /// Return the number of values contained in this buffer.
91 static Index size() { return SIZE; }
92
93 /// @brief Return a const pointer to the array of voxel values.
94 /// @details This method guarantees that the buffer is allocated and loaded.
95 /// @warning This method should only be used by experts seeking low-level optimizations.
96 const ValueType* data() const;
97 /// @brief Return a pointer to the array of voxel values.
98 /// @details This method guarantees that the buffer is allocated and loaded.
99 /// @warning This method should only be used by experts seeking low-level optimizations.
101
102private:
103 /// If this buffer is empty, return zero, otherwise return the value at index @ i.
104 inline const ValueType& at(Index i) const;
105
106 /// @brief Return a non-const reference to the value at index @a i.
107 /// @details This method is private since it makes assumptions about the
108 /// buffer's memory layout. LeafBuffers associated with custom leaf node types
109 /// (e.g., a bool buffer implemented as a bitmask) might not be able to
110 /// return non-const references to their values.
111 ValueType& operator[](Index i) { return const_cast<ValueType&>(this->at(i)); }
112
113 bool deallocate();
114
115 inline void setOutOfCore(bool b) { mOutOfCore = b; }
116 // To facilitate inlining in the common case in which the buffer is in-core,
117 // the loading logic is split into a separate function, doLoad().
118 inline void loadValues() const { if (this->isOutOfCore()) this->doLoad(); }
119 inline void doLoad() const;
120 inline bool detachFromFile();
121
122 using FlagsType = std::atomic<Index32>;
123
124 union {
127 };
128 FlagsType mOutOfCore; // interpreted as bool; extra bits reserved for future use
129 tbb::spin_mutex mMutex; // 1 byte
130 //int8_t mReserved[3]; // padding for alignment
131
132 static const ValueType sZero;
133
134 friend class ::TestLeaf;
135 // Allow the parent LeafNode to access this buffer's data pointer.
136 template<typename, Index> friend class LeafNode;
137}; // class LeafBuffer
138
139
140////////////////////////////////////////
141
142
143template<typename T, Index Log2Dim>
144const T LeafBuffer<T, Log2Dim>::sZero = zeroVal<T>();
145
146
147template<typename T, Index Log2Dim>
148inline
150 : mData(new ValueType[SIZE])
151{
152 mOutOfCore = 0;
153 this->fill(val);
154}
155
156
157template<typename T, Index Log2Dim>
158inline
160{
161 if (this->isOutOfCore()) {
162 this->detachFromFile();
163 } else {
164 this->deallocate();
165 }
166}
167
168
169template<typename T, Index Log2Dim>
170inline
172 : mData(nullptr)
173 , mOutOfCore(other.mOutOfCore.load())
174{
175 if (other.isOutOfCore()) {
176 mFileInfo = new FileInfo(*other.mFileInfo);
177 } else if (other.mData != nullptr) {
178 this->allocate();
179 ValueType* target = mData;
180 const ValueType* source = other.mData;
181 Index n = SIZE;
182 while (n--) *target++ = *source++;
183 }
184}
185
186
187template<typename T, Index Log2Dim>
188inline void
190{
191 assert(i < SIZE);
192 this->loadValues();
193 if (mData) mData[i] = val;
194}
195
196
197template<typename T, Index Log2Dim>
200{
201 if (&other != this) {
202 if (this->isOutOfCore()) {
203 this->detachFromFile();
204 } else {
205 if (other.isOutOfCore()) this->deallocate();
206 }
207 if (other.isOutOfCore()) {
208 mOutOfCore.store(other.mOutOfCore.load(std::memory_order_acquire),
209 std::memory_order_release);
210 mFileInfo = new FileInfo(*other.mFileInfo);
211 } else if (other.mData != nullptr) {
212 this->allocate();
213 ValueType* target = mData;
214 const ValueType* source = other.mData;
215 Index n = SIZE;
216 while (n--) *target++ = *source++;
217 }
218 }
219 return *this;
220}
221
222
223template<typename T, Index Log2Dim>
224inline void
226{
227 this->detachFromFile();
228 if (mData != nullptr) {
229 ValueType* target = mData;
230 Index n = SIZE;
231 while (n--) *target++ = val;
232 }
233}
234
235
236template<typename T, Index Log2Dim>
237inline bool
239{
240 this->loadValues();
241 other.loadValues();
242 const ValueType *target = mData, *source = other.mData;
243 if (!target && !source) return true;
244 if (!target || !source) return false;
245 Index n = SIZE;
246 while (n && math::isExactlyEqual(*target++, *source++)) --n;
247 return n == 0;
248}
249
250
251template<typename T, Index Log2Dim>
252inline void
254{
255 std::swap(mData, other.mData);
256
257 // Two atomics can't be swapped because it would require hardware support:
258 // https://en.wikipedia.org/wiki/Double_compare-and-swap
259 // Note that there's a window in which other.mOutOfCore could be written
260 // between our load from it and our store to it.
261 auto tmp = other.mOutOfCore.load(std::memory_order_acquire);
262 tmp = mOutOfCore.exchange(std::move(tmp));
263 other.mOutOfCore.store(std::move(tmp), std::memory_order_release);
264}
265
266
267template<typename T, Index Log2Dim>
268inline Index
270{
271 size_t n = sizeof(*this);
272 if (this->isOutOfCore()) n += sizeof(FileInfo);
273 else if (mData) n += SIZE * sizeof(ValueType);
274 return static_cast<Index>(n);
275}
276
277
278template<typename T, Index Log2Dim>
279inline const typename LeafBuffer<T, Log2Dim>::ValueType*
281{
282 this->loadValues();
283 if (mData == nullptr) {
284 LeafBuffer* self = const_cast<LeafBuffer*>(this);
285 // This lock will be contended at most once.
286 tbb::spin_mutex::scoped_lock lock(self->mMutex);
287 if (mData == nullptr) self->mData = new ValueType[SIZE];
288 }
289 return mData;
290}
291
292template<typename T, Index Log2Dim>
295{
296 this->loadValues();
297 if (mData == nullptr) {
298 // This lock will be contended at most once.
299 tbb::spin_mutex::scoped_lock lock(mMutex);
300 if (mData == nullptr) mData = new ValueType[SIZE];
301 }
302 return mData;
303}
304
305
306template<typename T, Index Log2Dim>
307inline const typename LeafBuffer<T, Log2Dim>::ValueType&
309{
310 assert(i < SIZE);
311 this->loadValues();
312 // We can't use the ternary operator here, otherwise Visual C++ returns
313 // a reference to a temporary.
314 if (mData) return mData[i]; else return sZero;
315}
316
317
318template<typename T, Index Log2Dim>
319inline bool
320LeafBuffer<T, Log2Dim>::deallocate()
321{
322 if (mData != nullptr && !this->isOutOfCore()) {
323 delete[] mData;
324 mData = nullptr;
325 return true;
326 }
327 return false;
328}
329
330
331template<typename T, Index Log2Dim>
332inline void
333LeafBuffer<T, Log2Dim>::doLoad() const
334{
335 if (!this->isOutOfCore()) return;
336
337 LeafBuffer<T, Log2Dim>* self = const_cast<LeafBuffer<T, Log2Dim>*>(this);
338
339 // This lock will be contended at most once, after which this buffer
340 // will no longer be out-of-core.
341 tbb::spin_mutex::scoped_lock lock(self->mMutex);
342 if (!this->isOutOfCore()) return;
343
344 std::unique_ptr<FileInfo> info(self->mFileInfo);
345 assert(info.get() != nullptr);
346 assert(info->mapping.get() != nullptr);
347 assert(info->meta.get() != nullptr);
348
349 /// @todo For now, we have to clear the mData pointer in order for allocate() to take effect.
350 self->mData = nullptr;
351 self->allocate();
352
353 SharedPtr<std::streambuf> buf = info->mapping->createBuffer();
354 std::istream is(buf.get());
355
356 io::setStreamMetadataPtr(is, info->meta, /*transfer=*/true);
357
358 NodeMaskType mask;
359 is.seekg(info->maskpos);
360 mask.load(is);
361
362 is.seekg(info->bufpos);
363 io::readCompressedValues(is, self->mData, SIZE, mask, io::getHalfFloat(is));
364
365 self->setOutOfCore(false);
366}
367
368
369template<typename T, Index Log2Dim>
370inline bool
371LeafBuffer<T, Log2Dim>::detachFromFile()
372{
373 if (this->isOutOfCore()) {
374 delete mFileInfo;
375 mFileInfo = nullptr;
376 this->setOutOfCore(false);
377 return true;
378 }
379 return false;
380}
381
382
383////////////////////////////////////////
384
385
386// Partial specialization for bool ValueType
387template<Index Log2Dim>
388class LeafBuffer<bool, Log2Dim>
389{
390public:
392 using WordType = typename NodeMaskType::Word;
393 using ValueType = bool;
395
396 static const Index WORD_COUNT = NodeMaskType::WORD_COUNT;
397 static const Index SIZE = 1 << 3 * Log2Dim;
398
399 // These static declarations must be on separate lines to avoid VC9 compiler errors.
400 static const bool sOn;
401 static const bool sOff;
402
404 LeafBuffer(bool on): mData(on) {}
405 LeafBuffer(const NodeMaskType& other): mData(other) {}
406 LeafBuffer(const LeafBuffer& other): mData(other.mData) {}
408 void fill(bool val) { mData.set(val); }
409 LeafBuffer& operator=(const LeafBuffer& b) { if (&b != this) { mData=b.mData; } return *this; }
410
411 const bool& getValue(Index i) const
412 {
413 assert(i < SIZE);
414 // We can't use the ternary operator here, otherwise Visual C++ returns
415 // a reference to a temporary.
416 if (mData.isOn(i)) return sOn; else return sOff;
417 }
418 const bool& operator[](Index i) const { return this->getValue(i); }
419
420 bool operator==(const LeafBuffer& other) const { return mData == other.mData; }
421 bool operator!=(const LeafBuffer& other) const { return mData != other.mData; }
422
423 void setValue(Index i, bool val) { assert(i < SIZE); mData.set(i, val); }
424
425 void swap(LeafBuffer& other) { if (&other != this) std::swap(mData, other.mData); }
426
427 Index memUsage() const { return sizeof(*this); }
428 static Index size() { return SIZE; }
429
430 /// @brief Return a pointer to the C-style array of words encoding the bits.
431 /// @warning This method should only be used by experts seeking low-level optimizations.
432 WordType* data() { return &(mData.template getWord<WordType>(0)); }
433 /// @brief Return a const pointer to the C-style array of words encoding the bits.
434 /// @warning This method should only be used by experts seeking low-level optimizations.
435 const WordType* data() const { return const_cast<LeafBuffer*>(this)->data(); }
436
437private:
438 // Allow the parent LeafNode to access this buffer's data.
439 template<typename, Index> friend class LeafNode;
440
442}; // class LeafBuffer
443
444
445/// @internal For consistency with other nodes and with iterators, methods like
446/// LeafNode::getValue() return a reference to a value. Since it's not possible
447/// to return a reference to a bit in a node mask, we return a reference to one
448/// of the following static values instead.
449template<Index Log2Dim> const bool LeafBuffer<bool, Log2Dim>::sOn = true;
450template<Index Log2Dim> const bool LeafBuffer<bool, Log2Dim>::sOff = false;
451
452} // namespace tree
453} // namespace OPENVDB_VERSION_NAME
454} // namespace openvdb
455
456#endif // OPENVDB_TREE_LEAFBUFFER_HAS_BEEN_INCLUDED
Tag dispatch class that distinguishes constructors during file input.
Definition: Types.h:570
SharedPtr< MappedFile > Ptr
Definition: io.h:136
LeafBuffer(const NodeMaskType &other)
Definition: LeafBuffer.h:405
~LeafBuffer()
Definition: LeafBuffer.h:407
WordType StorageType
Definition: LeafBuffer.h:394
bool operator!=(const LeafBuffer &other) const
Definition: LeafBuffer.h:421
static const bool sOff
Definition: LeafBuffer.h:401
typename NodeMaskType::Word WordType
Definition: LeafBuffer.h:392
Index memUsage() const
Definition: LeafBuffer.h:427
void swap(LeafBuffer &other)
Definition: LeafBuffer.h:425
const WordType * data() const
Return a const pointer to the C-style array of words encoding the bits.
Definition: LeafBuffer.h:435
LeafBuffer & operator=(const LeafBuffer &b)
Definition: LeafBuffer.h:409
bool operator==(const LeafBuffer &other) const
Definition: LeafBuffer.h:420
bool ValueType
Definition: LeafBuffer.h:393
LeafBuffer(const LeafBuffer &other)
Definition: LeafBuffer.h:406
LeafBuffer(bool on)
Definition: LeafBuffer.h:404
const bool & operator[](Index i) const
Definition: LeafBuffer.h:418
void fill(bool val)
Definition: LeafBuffer.h:408
const bool & getValue(Index i) const
Definition: LeafBuffer.h:411
static Index size()
Definition: LeafBuffer.h:428
static const bool sOn
Definition: LeafBuffer.h:400
WordType * data()
Return a pointer to the C-style array of words encoding the bits.
Definition: LeafBuffer.h:432
LeafBuffer()
Definition: LeafBuffer.h:403
void setValue(Index i, bool val)
Definition: LeafBuffer.h:423
Array of fixed size 23Log2Dim that stores the voxel values of a LeafNode.
Definition: LeafBuffer.h:31
LeafBuffer & operator=(const LeafBuffer &)
Copy the other buffer's values into this buffer.
Definition: LeafBuffer.h:199
~LeafBuffer()
Destructor.
Definition: LeafBuffer.h:159
LeafBuffer(PartialCreate, const ValueType &)
Construct a buffer but don't allocate memory for the full array of values.
Definition: LeafBuffer.h:54
ValueType StorageType
Definition: LeafBuffer.h:34
LeafBuffer(const ValueType &)
Construct a buffer populated with the specified value.
Definition: LeafBuffer.h:149
LeafBuffer(const LeafBuffer &)
Copy constructor.
Definition: LeafBuffer.h:171
void fill(const ValueType &)
Populate this buffer with a constant value.
Definition: LeafBuffer.h:225
bool operator!=(const LeafBuffer &other) const
Return true if the contents of the other buffer are not exactly equal to the contents of this buffer.
Definition: LeafBuffer.h:83
void swap(LeafBuffer &)
Exchange this buffer's values with the other buffer's values.
Definition: LeafBuffer.h:253
bool isOutOfCore() const
Return true if this buffer's values have not yet been read from disk.
Definition: LeafBuffer.h:59
Index memUsage() const
Return the memory footprint of this buffer in bytes.
Definition: LeafBuffer.h:269
ValueType * mData
Definition: LeafBuffer.h:125
FileInfo * mFileInfo
Definition: LeafBuffer.h:126
bool empty() const
Return true if memory for this buffer has not yet been allocated.
Definition: LeafBuffer.h:61
void setValue(Index i, const ValueType &)
Set the i'th value of this buffer to the specified value.
Definition: LeafBuffer.h:189
static Index size()
Return the number of values contained in this buffer.
Definition: LeafBuffer.h:91
const ValueType * data() const
Return a const pointer to the array of voxel values.
Definition: LeafBuffer.h:280
static const Index SIZE
Definition: LeafBuffer.h:36
ValueType * data()
Return a pointer to the array of voxel values.
Definition: LeafBuffer.h:294
const ValueType & getValue(Index i) const
Return a const reference to the i'th element of this buffer.
Definition: LeafBuffer.h:69
bool allocate()
Allocate memory for this buffer if it has not already been allocated.
Definition: LeafBuffer.h:63
LeafBuffer()
Default constructor.
Definition: LeafBuffer.h:48
T ValueType
Definition: LeafBuffer.h:33
const ValueType & operator[](Index i) const
Return a const reference to the i'th element of this buffer.
Definition: LeafBuffer.h:71
bool operator==(const LeafBuffer &) const
Return true if the contents of the other buffer exactly equal the contents of this buffer.
Definition: LeafBuffer.h:238
Templated block class to hold specific data types and a fixed number of values determined by Log2Dim....
Definition: LeafNode.h:38
Bit mask for the internal and leaf nodes of VDB. This is a 64-bit implementation.
Definition: NodeMasks.h:308
Index64 Word
Definition: NodeMasks.h:316
static const Index32 WORD_COUNT
Definition: NodeMasks.h:315
OPENVDB_API bool getHalfFloat(std::ios_base &)
Return true if floating-point values should be quantized to 16 bits when writing to the given stream ...
OPENVDB_API void setStreamMetadataPtr(std::ios_base &, SharedPtr< StreamMetadata > &, bool transfer=true)
Associate the given stream with (a shared pointer to) an object that stores metadata (file format,...
void readCompressedValues(std::istream &is, ValueT *destBuf, Index destCount, const MaskT &valueMask, bool fromHalf)
Definition: Compression.h:465
bool isExactlyEqual(const T0 &a, const T1 &b)
Return true if a is exactly equal to b.
Definition: Math.h:444
Index32 Index
Definition: Types.h:54
std::shared_ptr< T > SharedPtr
Definition: Types.h:114
Definition: Exceptions.h:13
static pnanovdb_uint32_t allocate(pnanovdb_uint32_t *poffset, pnanovdb_uint32_t size, pnanovdb_uint32_t alignment)
Definition: pnanovdb_validate_strides.h:20
FileInfo()
Definition: LeafBuffer.h:40
SharedPtr< io::StreamMetadata > meta
Definition: LeafBuffer.h:44
std::streamoff bufpos
Definition: LeafBuffer.h:41
io::MappedFile::Ptr mapping
Definition: LeafBuffer.h:43
std::streamoff maskpos
Definition: LeafBuffer.h:42
#define OPENVDB_VERSION_NAME
The version namespace name for this library version.
Definition: version.h.in:116
#define OPENVDB_USE_VERSION_NAMESPACE
Definition: version.h.in:202