OpenVDB 9.0.0
GridChecksum.h
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1// Copyright Contributors to the OpenVDB Project
2// SPDX-License-Identifier: MPL-2.0
3
4/*!
5 \file GridChecksum.h
6
7 \author Ken Museth
8
9 \brief Computes a pair of 32bit checksums, og a Grid, by means of Cyclic Redundancy Check (CRC)
10
11 \details A CRC32 is the 32 bit remainder, or residue, of binary division of a message, by a polynomial.
12*/
13
14#ifndef NANOVDB_GRIDCHECKSUM_H_HAS_BEEN_INCLUDED
15#define NANOVDB_GRIDCHECKSUM_H_HAS_BEEN_INCLUDED
16
17#include <algorithm>// for std::generate
18#include <array>
19#include <vector>
20#include <cstdint>
21#include <cstddef>// offsetof macro
22#include <numeric>
23#include <type_traits>
24
25#include "../NanoVDB.h"
26#include "GridHandle.h"
27#include "ForEach.h"
28#include "NodeManager.h"
29
30namespace nanovdb {
31
32/// @brief List of different modes for computing for a checksum
33enum class ChecksumMode : uint32_t { Disable = 0,// no computation
34 Partial = 1,// fast but approximate
35 Full = 2,// slow but accurate
36 Default = 1,// defaults to Partial
37 End = 3 };// marks the end of the enum list
38
39/// @brief Return the (2 x CRC32) checksum of the specified @a grid
40///
41/// @param grid Grid from which the checksum is computed.
42/// @param mode Defines the mode of computation for the checksum.
43template <typename ValueT>
44uint64_t checksum(const NanoGrid<ValueT> &grid, ChecksumMode mode = ChecksumMode::Default);
45
46/// @brief Return true if the checksum of the @a grid matches the expected
47/// value already encoded into the grid's meta data.
48///
49/// @param grid Grid whose checksum is validated.
50/// @param mode Defines the mode of computation for the checksum.
51template <typename ValueT>
52bool validateChecksum(const NanoGrid<ValueT> &grid, ChecksumMode mode = ChecksumMode::Default);
53
54/// @brief Updates the checksum of a grid
55///
56/// @param grid Grid whose checksum will be updated.
57/// @param mode Defines the mode of computation for the checksum.
58template <typename ValueT>
59void updateChecksum(NanoGrid<ValueT> &grid, ChecksumMode mode = ChecksumMode::Default);
60
61/// @brief Return the CRC32 checksum of the raw @a data of @a size
62/// @param data The beginning of the raw data.
63/// @param size Size of the data to bytes!
64inline std::uint_fast32_t crc32(const void *data, size_t size);
65
66/// @brief Return the CRC32 checksum of the content pointed to be the iterator
67/// @param begin Beginning of the iterator range
68/// @param end End of the iterator range (exclusive)
69/// @warning The dereference of the iterator most be convertible to a uint8_t
70template <typename IterT>
71std::uint_fast32_t crc32(IterT begin, IterT end);
72
73/// @brief Class that computes the Cyclic Redundancy Check (CRC)
74class CRC32
75{
76 using ByteT = std::uint_fast8_t;
77 using HashT = std::uint_fast32_t;
78 HashT mChecksum;
79
80 static std::array<HashT, 256> INIT()
81 {
82 HashT n = 0;
83 auto kernel = [&n]()->HashT{
84 HashT checksum = n++;
85 for (int i = 0; i < 8; ++i) checksum = (checksum >> 1) ^ ((checksum & 0x1u) ? HashT{0xEDB88320uL} : 0);
86 return checksum;
87 };
88 std::array<HashT, 256> LUT{};
89 std::generate(LUT.begin(), LUT.end(), kernel);
90 return LUT;// move semantic should prevent a deep copy
91 }
92
93public:
94
95 static const HashT EMPTY = ~HashT{0} & HashT{0xFFFFFFFFuL};// All bits are on
96
97 CRC32() : mChecksum(EMPTY) {}
98
99 void reset() { mChecksum = EMPTY; }
100
101 HashT checksum() const { return HashT{0xFFFFFFFFuL} & ~mChecksum; }
102
103 template <typename IterT>
104 void operator()(IterT begin, IterT end)
105 {
106 static const auto LUT = INIT();// scoped static initialization is thread-safe since C++11
107 auto kernel = [](HashT checksum, ByteT value){return LUT[(checksum ^ value) & 0xFFu] ^ (checksum >> 8);};
108 mChecksum = std::accumulate(begin, end, mChecksum, kernel);
109 }
110
111 void operator()(const void *data, size_t byteSize)
112 {
113 const ByteT *begin = static_cast<const ByteT*>(data);
114 this->operator()<const ByteT*>(begin, begin + byteSize);
115 }
116};// CRC32
117
118inline std::uint_fast32_t crc32(const void *data, size_t byteSize)
119{
120 CRC32 crc;
121 crc(data, byteSize);
122 return crc.checksum();
123}
124
125template <typename IterT>
126inline std::uint_fast32_t crc32(IterT begin, IterT end)
127{
128 CRC32 crc;
129 crc(begin, end);
130 return crc.checksum();
131}
132
133/// @brief Class that encapsulates two CRC32 checksums, one for the Grid, Tree and Root node meta data
134/// and one for the remaining grid nodes.
136{
137 union {uint32_t mCRC[2]; uint64_t mChecksum; };
138
139public:
140
141 static const uint64_t EMPTY = (static_cast<uint64_t>(CRC32::EMPTY) << 32) | static_cast<uint64_t>(CRC32::EMPTY);
142
144
145 GridChecksum(uint32_t head, uint32_t tail) : mCRC{head, tail} {}
146
148 {
150 }
151
152 uint64_t checksum() const { return mChecksum; }
153
154 uint32_t crc32(int i) const {assert(i==0 || i==1); return mCRC[i]; }
155
156 bool isFull() const { return mCRC[0] != CRC32::EMPTY && mCRC[1] != CRC32::EMPTY; }
157
158 bool isEmpty() const { return mChecksum == EMPTY; }
159
161 {
164 }
165
166 template <typename ValueT>
168
169 bool operator==(const GridChecksum &rhs) const {return mChecksum == rhs.mChecksum;}
170 bool operator!=(const GridChecksum &rhs) const {return mChecksum != rhs.mChecksum;}
171};// GridChecksum
172
173// [GridData][TreeData]---[RootData][ROOT TILES...]---[NodeData<5>]---[NodeData<4>]---[LeafData<3>]---[BLINDMETA...]---[BLIND0]---[BLIND1]---etc.
174template <typename ValueT>
176{
177 // Validate the assumed memory layout
178#if 1
181 NANOVDB_ASSERT(NANOVDB_OFFSETOF(GridData, mVersion) == 16);
182#else// the static asserts below generate compiler warnings
183 static_assert(offsetof(GridData, mMagic) == 0, "Unexpected offset to magic number");
184 static_assert(offsetof(GridData, mChecksum) == 8, "Unexpected offset to checksum");
185 static_assert(offsetof(GridData, mVersion) == 16, "Unexpected offset to version number");
186#endif
187 static const size_t offset = 16;
188
190
191 if (mode == ChecksumMode::Disable) return;
192
193 const auto &tree = grid.tree();
194 const auto &root = tree.root();
195 CRC32 crc;
196
197 // process Grid + Tree + Root but exclude mMagic and mChecksum
198 const uint8_t *begin = reinterpret_cast<const uint8_t*>(&grid);
199 const uint8_t *end = begin + grid.memUsage() + tree.memUsage() + root.memUsage();
200 crc(begin + offset, end);
201
202 mCRC[0] = crc.checksum();
203
204 if (mode == ChecksumMode::Partial || tree.isEmpty()) return;
205
206 auto mgr = createNodeMgr(grid);
207 const auto nodeCount = tree.nodeCount(0) + tree.nodeCount(1) + tree.nodeCount(2);
208 std::vector<std::uint_fast32_t> checksums(nodeCount, 0);
209
210 // process upper internal nodes
211 auto kernel2 = [&](const Range1D &r) {
212 CRC32 local;
213 std::uint_fast32_t *p = checksums.data() + r.begin();
214 for (auto i = r.begin(); i != r.end(); ++i) {
215 const auto *node = mgr.upper(i);
216 local(node, sizeof(*node) );
217 *p++ = local.checksum();
218 local.reset();
219 }
220 };
221
222 // process lower internal nodes
223 auto kernel1 = [&](const Range1D &r) {
224 CRC32 local;
225 std::uint_fast32_t *p = checksums.data() + r.begin() + tree.nodeCount(2);
226 for (auto i = r.begin(); i != r.end(); ++i) {
227 const auto *node = mgr.lower(i);
228 local(node, sizeof(*node) );
229 *p++ = local.checksum();
230 local.reset();
231 }
232 };
233
234 // process leaf nodes
235 auto kernel0 = [&](const Range1D &r) {
236 CRC32 local;
237 std::uint_fast32_t *p = checksums.data() + r.begin() + tree.nodeCount(1) + tree.nodeCount(2);
238 for (auto i = r.begin(); i != r.end(); ++i) {
239 const auto *leaf = mgr.leaf(i);
240 local(leaf, sizeof(*leaf) );
241 *p++ = local.checksum();
242 local.reset();
243 }
244 };
245
246 forEach(0, tree.nodeCount(2), 1, kernel2);
247 forEach(0, tree.nodeCount(1), 1, kernel1);
248 forEach(0, tree.nodeCount(0), 8, kernel0);
249
250 crc.reset();
251 crc(checksums.data(), sizeof(std::uint_fast32_t)*checksums.size() );
252 mCRC[1] = crc.checksum();
253}// GridChecksum::operator()
254
255template <typename ValueT>
256uint64_t checksum(const NanoGrid<ValueT> &grid, ChecksumMode mode)
257{
258 GridChecksum cs;
259 cs(grid, mode);
260 return cs.checksum();
261}
262
263template <typename ValueT>
265{
266 GridChecksum cs1(grid.checksum(), mode), cs2;
267 cs2(grid, cs1.mode() );
268 return cs1 == cs2;
269}
270
271template <typename ValueT>
273{
274 GridChecksum cs;
275 cs(grid, mode);
276 grid.data()->mChecksum = cs.checksum();
277}
278
279} // namespace nanovdb
280
281#endif // NANOVDB_GRIDCHECKSUM_H_HAS_BEEN_INCLUDED
A unified wrapper for tbb::parallel_for and a naive std::thread fallback.
ValueT value
Definition: GridBuilder.h:1287
Defines two classes, a GridRegister the defines the value type (e.g. Double, Float etc) of a NanoVDB ...
#define NANOVDB_ASSERT(x)
Definition: NanoVDB.h:149
#define NANOVDB_OFFSETOF(CLASS, MEMBER)
Definition: NanoVDB.h:182
Class that computes the Cyclic Redundancy Check (CRC)
Definition: GridChecksum.h:75
static const HashT EMPTY
Definition: GridChecksum.h:95
void operator()(const void *data, size_t byteSize)
Definition: GridChecksum.h:111
void operator()(IterT begin, IterT end)
Definition: GridChecksum.h:104
HashT checksum() const
Definition: GridChecksum.h:101
void reset()
Definition: GridChecksum.h:99
CRC32()
Definition: GridChecksum.h:97
Class that encapsulates two CRC32 checksums, one for the Grid, Tree and Root node meta data and one f...
Definition: GridChecksum.h:136
ChecksumMode mode() const
Definition: GridChecksum.h:160
uint32_t mCRC[2]
Definition: GridChecksum.h:137
GridChecksum(uint64_t checksum, ChecksumMode mode=ChecksumMode::Full)
Definition: GridChecksum.h:147
GridChecksum(uint32_t head, uint32_t tail)
Definition: GridChecksum.h:145
GridChecksum()
Definition: GridChecksum.h:143
uint32_t crc32(int i) const
Definition: GridChecksum.h:154
uint64_t checksum() const
Definition: GridChecksum.h:152
void operator()(const NanoGrid< ValueT > &grid, ChecksumMode mode=ChecksumMode::Full)
Definition: GridChecksum.h:175
uint64_t mChecksum
Definition: GridChecksum.h:137
bool operator==(const GridChecksum &rhs) const
Definition: GridChecksum.h:169
static const uint64_t EMPTY
Definition: GridChecksum.h:141
bool isEmpty() const
Definition: GridChecksum.h:158
bool operator!=(const GridChecksum &rhs) const
Definition: GridChecksum.h:170
bool isFull() const
Definition: GridChecksum.h:156
Highest level of the data structure. Contains a tree and a world->index transform (that currently onl...
Definition: NanoVDB.h:2308
DataType * data()
Definition: NanoVDB.h:2327
uint64_t checksum() const
Return checksum of the grid buffer.
Definition: NanoVDB.h:2459
const TreeT & tree() const
Return a const reference to the tree.
Definition: NanoVDB.h:2344
static uint64_t memUsage()
Return memory usage in bytes for this class only.
Definition: NanoVDB.h:2332
Definition: Range.h:28
Definition: Camera.h:16
uint64_t checksum(const NanoGrid< ValueT > &grid, ChecksumMode mode=ChecksumMode::Default)
Return the (2 x CRC32) checksum of the specified grid.
Definition: GridChecksum.h:256
bool validateChecksum(const NanoGrid< ValueT > &grid, ChecksumMode mode=ChecksumMode::Default)
Return true if the checksum of the grid matches the expected value already encoded into the grid's me...
Definition: GridChecksum.h:264
std::uint_fast32_t crc32(const void *data, size_t size)
Return the CRC32 checksum of the raw data of size.
Definition: GridChecksum.h:118
NodeManager< GridT > createNodeMgr(GridT &grid)
creates a NodeManager from a grid. Move semantics is used.
Definition: NodeManager.h:252
void updateChecksum(NanoGrid< ValueT > &grid, ChecksumMode mode=ChecksumMode::Default)
Updates the checksum of a grid.
Definition: GridChecksum.h:272
void forEach(RangeT range, const FuncT &func)
simple wrapper for tbb::parallel_for with a naive std fallback
Definition: ForEach.h:40
ChecksumMode
List of different modes for computing for a checksum.
Definition: GridChecksum.h:33
void accumulate(const IterT &iter, XformOp &op, bool threaded=true)
Definition: ValueTransformer.h:683
NodeManager produces linear arrays of all tree nodes allowing for efficient threading and bottom-up p...
Struct with all the member data of the Grid (useful during serialization of an openvdb grid)
Definition: NanoVDB.h:2185
uint64_t mChecksum
Definition: NanoVDB.h:2188