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36 Commits
v0.0.5 ... 639518bed4

Author SHA1 Message Date
Andrew Noyes
639518bed4 Share "scan16" between Node16 and Node48
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Tests / SIMD fallback total: 1130, passed: 1130
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Tests / Release [gcc,aarch64] total: 844, passed: 844
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Tests / Coverage total: 848, passed: 848
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weaselab/conflict-set/pipeline/head There was a failure building this commit
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2024-06-27 13:22:51 -07:00
Andrew Noyes
7de983cc15 Simd bounds checking for scan for Node16 2024-06-27 13:08:12 -07:00
Andrew Noyes
1b4b61ddc6 Write Node16 scan in a "more vectorized" style 2024-06-27 12:07:38 -07:00
Andrew Noyes
bff7b85de2 Remove "Child" struct 2024-06-27 10:03:14 -07:00
Andrew Noyes
9108ee209a SoA instead of AoS for child, maxVersion 2024-06-27 09:57:54 -07:00
Andrew Noyes
f8bf1c6eb4 Remove unreachable code
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Tests / SIMD fallback total: 1130, passed: 1130
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Tests / Release [gcc] total: 1130, passed: 1130
Details
GNU C Compiler (gcc) |Total|New|Outstanding|Fixed|Trend |:-:|:-:|:-:|:-:|:-: |0|0|0|0|:clap:
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Tests / Release [gcc,aarch64] total: 844, passed: 844
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Tests / Coverage total: 848, passed: 848
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weaselab/conflict-set/pipeline/head There was a failure building this commit
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2024-06-26 22:14:27 -07:00
Andrew Noyes
4da2a01614 Use single &, to show branch-free intent 2024-06-26 22:14:05 -07:00
Andrew Noyes
bb0e654040 Fix missed update for Node48::maxOfMax 2024-06-26 22:11:33 -07:00
Andrew Noyes
cce7d29410 Update our benchmarks in README
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Tests / SIMD fallback total: 1130, passed: 1130
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GNU C Compiler (gcc) |Total|New|Outstanding|Fixed|Trend |:-:|:-:|:-:|:-:|:-: |0|0|0|0|:clap:
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Tests / Release [gcc,aarch64] total: 844, passed: 844
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Tests / Coverage total: 848, passed: 848
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weaselab/conflict-set/pipeline/head There was a failure building this commit
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2024-06-26 20:59:33 -07:00
Andrew Noyes
13f8d3fa8a Add benchmarks for individual spans, but commented out 2024-06-26 20:57:51 -07:00
Andrew Noyes
02866a8cae Save some bounds checking for scanning Node256 2024-06-26 20:55:18 -07:00
Andrew Noyes
fa86d3e707 "max of max" for Node48 again, but physical instead of logical 2024-06-26 20:41:27 -07:00
Andrew Noyes
7d1d1d7b2a Maintain childMaxVersion == 0 for unused children in Node48 2024-06-26 20:16:50 -07:00
Andrew Noyes
789ecc29b3 Use unsigned compare trick to check in bounds 2024-06-26 19:41:25 -07:00
Andrew Noyes
08f2998a85 Use 8 byte pages for "max of max" 
This seems to benchmark better
 2024-06-26 19:18:38 -07:00
Andrew Noyes
c882d7663d Maintain "reverseIndex" in Node48 2024-06-26 19:11:34 -07:00
Andrew Noyes
bfea4384ba Branchless inner page check for Node256 2024-06-26 18:28:41 -07:00
Andrew Noyes
6520e3d734 "max of max" for Node48 2024-06-26 17:54:03 -07:00
Andrew Noyes
23ace8aac5 Fill in leftward on right side in worst case for radix tree bench 2024-06-26 17:37:24 -07:00
Andrew Noyes
62e35de320 Update our benchmark in readme 2024-06-26 16:36:02 -07:00
Andrew Noyes
22e4ab01a1 Track "max of max" versions in Node256 2024-06-26 16:28:24 -07:00
Andrew Noyes
b3aeed0caa Warning: interface change! Require versions >= 0 2024-06-26 15:46:36 -07:00
Andrew Noyes
5f3833e965 Change maxVersion to return by value, and add setMaxVersion 2024-06-26 15:33:15 -07:00
Andrew Noyes
8b1cd9c052 Minor improvements to checkMaxBetweenExclusive 2024-06-26 15:06:50 -07:00
Andrew Noyes
bb9bc3d7b5 Measure across different cardinalities for radix worst case bench 2024-06-26 15:06:36 -07:00
Andrew Noyes
89b3354a80 Update README with new benchmark
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Tests / SIMD fallback total: 1130, passed: 1130
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Tests / Release [gcc] total: 1130, passed: 1130
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Tests / Release [gcc,aarch64] total: 844, passed: 844
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Tests / Coverage total: 848, passed: 848
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weaselab/conflict-set/pipeline/head This commit looks good
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2024-06-25 21:47:46 -07:00
Andrew Noyes
488c723726 Improve worst-case radix tree checkRangeRead 2024-06-25 21:22:55 -07:00
Andrew Noyes
76d0785b33 Add worst-case benchmark for radix tree 
Closes #27
 2024-06-25 20:50:22 -07:00
Andrew Noyes
add0af11ad Don't check paper/version.txt into version control
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But also don't remove it in `make -C paper clean`
 2024-06-25 19:21:14 -07:00
Andrew Noyes
2c0adf4a8b Fix test-only bug in script test 
Previously conflict_set.py only worked for checking one read conflict
per call
 2024-06-25 19:20:19 -07:00
Andrew Noyes
e8ac78cce6 Bump version
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weaselab/conflict-set/pipeline/head This commit looks good
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2024-06-12 14:07:34 -07:00
Andrew Noyes
13d447c9fe Use version.txt instead of version.tex
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weaselab/conflict-set/pipeline/head This commit looks good
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latexmk seemed to have some trouble with it being a tex file
 2024-06-12 13:47:16 -07:00
Andrew Noyes
da7523c5cf Add version to paper
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Andrew Noyes
a074bc6f72 include(CTest) before BUILD_TESTING
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2024-06-11 16:21:38 -07:00
Andrew Noyes
1553a44986 Make possible to use from FetchContent
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Andrew Noyes
859ac352e6 Bump version
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Tests / SIMD fallback total: 1130, passed: 1130
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weaselab/conflict-set/pipeline/head This commit looks good
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2024-06-11 13:13:19 -07:00
12 changed files with 518 additions and 190 deletions
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105
Bench.cpp
View File

@@ -258,4 +258,107 @@ void benchConflictSet() {
}
}
int main(void) { benchConflictSet(); }
constexpr int kKeyLenForWorstCase = 50;
ConflictSet worstCaseConflictSetForRadixRangeRead(int cardinality) {
ConflictSet cs{0};
for (int i = 0; i < kKeyLenForWorstCase; ++i) {
for (int j = 0; j < cardinality; ++j) {
auto b = std::vector<uint8_t>(i, 0);
b.push_back(j);
auto e = std::vector<uint8_t>(i, 255);
e.push_back(255 - j);
weaselab::ConflictSet::WriteRange w[] = {{
{b.data(), int(b.size())},
{nullptr, 0},
},
{
{e.data(), int(e.size())},
{nullptr, 0},
}};
std::sort(std::begin(w), std::end(w),
[](const auto &lhs, const auto &rhs) {
int cl = std::min(lhs.begin.len, rhs.begin.len);
if (cl > 0) {
int c = memcmp(lhs.begin.p, rhs.begin.p, cl);
if (c != 0) {
return c < 0;
}
}
return lhs.begin.len < rhs.begin.len;
});
cs.addWrites(w, sizeof(w) / sizeof(w[0]), 0);
}
}
// Defeat short-circuiting on the left
{
auto k = std::vector<uint8_t>(kKeyLenForWorstCase, 0);
weaselab::ConflictSet::WriteRange w[] = {
{
{k.data(), int(k.size())},
{nullptr, 0},
},
};
cs.addWrites(w, sizeof(w) / sizeof(w[0]), 1);
}
// Defeat short-circuiting on the right
{
auto k = std::vector<uint8_t>(kKeyLenForWorstCase, 255);
weaselab::ConflictSet::WriteRange w[] = {
{
{k.data(), int(k.size())},
{nullptr, 0},
},
};
cs.addWrites(w, sizeof(w) / sizeof(w[0]), 1);
}
return cs;
}
void benchWorstCaseForRadixRangeRead() {
ankerl::nanobench::Bench bench;
std::unique_ptr<ConflictSet> cs[256];
for (int i = 0; i < 256; ++i) {
cs[i] =
std::make_unique<ConflictSet>(worstCaseConflictSetForRadixRangeRead(i));
}
auto begin = std::vector<uint8_t>(kKeyLenForWorstCase - 1, 0);
begin.push_back(1);
auto end = std::vector<uint8_t>(kKeyLenForWorstCase - 1, 255);
end.push_back(254);
weaselab::ConflictSet::Result result;
weaselab::ConflictSet::ReadRange r{
{begin.data(), int(begin.size())}, {end.data(), int(end.size())}, 0};
bench.run("worst case for radix tree", [&]() {
for (int i = 0; i < 256; ++i) {
result = weaselab::ConflictSet::TooOld;
cs[i]->check(&r, &result, 1);
if (result != weaselab::ConflictSet::Commit) {
abort();
}
}
});
// for (int i = 0; i < 256; ++i) {
// bench.run("worst case for radix tree, span " + std::to_string(i), [&]() {
// result = weaselab::ConflictSet::TooOld;
// cs[i]->check(&r, &result, 1);
// if (result != weaselab::ConflictSet::Commit) {
// abort();
// }
// });
// }
}
int main(void) {
benchConflictSet();
benchWorstCaseForRadixRangeRead();
}

89
CMakeLists.txt
View File

@@ -1,14 +1,16 @@
cmake_minimum_required(VERSION 3.18)
project(
conflict-set
VERSION 0.0.5
VERSION 0.0.7
DESCRIPTION
"A data structure for optimistic concurrency control on ranges of bitwise-lexicographically-ordered keys."
HOMEPAGE_URL "https://git.weaselab.dev/weaselab/conflict-set"
LANGUAGES C CXX)
set(CMAKE_CXX_STANDARD 20)
file(WRITE ${CMAKE_BINARY_DIR}/version.txt ${PROJECT_VERSION})
file(WRITE ${CMAKE_CURRENT_BINARY_DIR}/version.txt ${PROJECT_VERSION})
configure_file(${CMAKE_CURRENT_SOURCE_DIR}/version.txt.in
${CMAKE_CURRENT_SOURCE_DIR}/paper/version.txt)
include(CMakePushCheckState)
include(CheckCXXCompilerFlag)
@@ -47,7 +49,8 @@ if(HAS_FULL_RELRO)
endif()
cmake_pop_check_state()
set(version_script_flags LINKER:--version-script=${CMAKE_SOURCE_DIR}/linker.map)
set(version_script_flags
LINKER:--version-script=${CMAKE_CURRENT_SOURCE_DIR}/linker.map)
cmake_push_check_state()
list(APPEND CMAKE_REQUIRED_LINK_OPTIONS ${version_script_flags})
check_cxx_source_compiles("int main(){}" HAS_VERSION_SCRIPT FAIL_REGEX
@@ -59,7 +62,7 @@ option(USE_SIMD_FALLBACK
# This is encouraged according to
# https://valgrind.org/docs/manual/manual-core-adv.html#manual-core-adv.clientreq
include_directories(SYSTEM ${CMAKE_SOURCE_DIR}/third_party/valgrind)
include_directories(SYSTEM ${CMAKE_CURRENT_SOURCE_DIR}/third_party/valgrind)
add_compile_options($<$<COMPILE_LANGUAGE:CXX>:-Wno-invalid-offsetof>)
@@ -106,19 +109,20 @@ add_library(${PROJECT_NAME}-object OBJECT ConflictSet.cpp)
target_compile_options(${PROJECT_NAME}-object PRIVATE -fno-exceptions
-fvisibility=hidden)
target_include_directories(${PROJECT_NAME}-object
PRIVATE ${CMAKE_SOURCE_DIR}/include)
PRIVATE ${CMAKE_CURRENT_SOURCE_DIR}/include)
add_library(${PROJECT_NAME} SHARED $<TARGET_OBJECTS:${PROJECT_NAME}-object>)
set_target_properties(
${PROJECT_NAME} PROPERTIES LIBRARY_OUTPUT_DIRECTORY
"${CMAKE_BINARY_DIR}/radix_tree")
"${CMAKE_CURRENT_BINARY_DIR}/radix_tree")
if(NOT CMAKE_BUILD_TYPE STREQUAL Debug)
set_target_properties(${PROJECT_NAME} PROPERTIES LINKER_LANGUAGE C)
endif()
if(HAS_VERSION_SCRIPT)
target_link_options(${PROJECT_NAME} PRIVATE
LINKER:--version-script=${CMAKE_SOURCE_DIR}/linker.map)
target_link_options(
${PROJECT_NAME} PRIVATE
LINKER:--version-script=${CMAKE_CURRENT_SOURCE_DIR}/linker.map)
endif()
add_library(${PROJECT_NAME}-static STATIC
@@ -131,7 +135,7 @@ if(APPLE)
add_custom_command(
TARGET ${PROJECT_NAME}-static
PRE_LINK
COMMAND ${CMAKE_SOURCE_DIR}/privatize_symbols_macos.sh
COMMAND ${CMAKE_CURRENT_SOURCE_DIR}/privatize_symbols_macos.sh
$<TARGET_OBJECTS:${PROJECT_NAME}-object>)
else()
add_custom_command(
@@ -139,21 +143,22 @@ else()
POST_BUILD
COMMAND
${CMAKE_OBJCOPY}
--keep-global-symbols=${CMAKE_SOURCE_DIR}/symbol-exports.txt
--keep-global-symbols=${CMAKE_CURRENT_SOURCE_DIR}/symbol-exports.txt
$<TARGET_FILE:${PROJECT_NAME}-static> || echo
"Proceeding with all symbols global in static library")
endif()
set(TEST_FLAGS -Wall -Wextra -Wunreachable-code -Wpedantic -UNDEBUG)
include(CTest)
if(BUILD_TESTING)
# disable tests if this is being used through e.g. FetchContent
if(CMAKE_SOURCE_DIR STREQUAL CMAKE_CURRENT_SOURCE_DIR AND BUILD_TESTING)
set(TEST_FLAGS -Wall -Wextra -Wunreachable-code -Wpedantic -UNDEBUG)
# corpus tests, which are tests curated by libfuzzer. The goal is to get broad
# coverage with a small number of tests.
file(GLOB CORPUS_TESTS ${CMAKE_SOURCE_DIR}/corpus/*)
file(GLOB CORPUS_TESTS ${CMAKE_CURRENT_SOURCE_DIR}/corpus/*)
# extra testing that relies on shared libraries, which aren't available with
# wasm
@@ -162,9 +167,11 @@ if(BUILD_TESTING)
add_library(skip_list SHARED SkipList.cpp)
target_compile_options(skip_list PRIVATE -fno-exceptions
-fvisibility=hidden)
target_include_directories(skip_list PUBLIC ${CMAKE_SOURCE_DIR}/include)
set_target_properties(skip_list PROPERTIES LIBRARY_OUTPUT_DIRECTORY
"${CMAKE_BINARY_DIR}/skip_list")
target_include_directories(skip_list
PUBLIC ${CMAKE_CURRENT_SOURCE_DIR}/include)
set_target_properties(
skip_list PROPERTIES LIBRARY_OUTPUT_DIRECTORY
"${CMAKE_CURRENT_BINARY_DIR}/skip_list")
set_target_properties(skip_list PROPERTIES OUTPUT_NAME ${PROJECT_NAME})
set_target_properties(
skip_list PROPERTIES VERSION ${PROJECT_VERSION} SOVERSION
@@ -175,10 +182,11 @@ if(BUILD_TESTING)
add_library(hash_table SHARED HashTable.cpp)
target_compile_options(hash_table PRIVATE -fno-exceptions
-fvisibility=hidden)
target_include_directories(hash_table PUBLIC ${CMAKE_SOURCE_DIR}/include)
target_include_directories(hash_table
PUBLIC ${CMAKE_CURRENT_SOURCE_DIR}/include)
set_target_properties(
hash_table PROPERTIES LIBRARY_OUTPUT_DIRECTORY
"${CMAKE_BINARY_DIR}/hash_table")
"${CMAKE_CURRENT_BINARY_DIR}/hash_table")
set_target_properties(hash_table PROPERTIES OUTPUT_NAME ${PROJECT_NAME})
set_target_properties(
hash_table PROPERTIES VERSION ${PROJECT_VERSION} SOVERSION
@@ -266,15 +274,19 @@ if(BUILD_TESTING)
set_property(
DIRECTORY
APPEND
PROPERTY CMAKE_CONFIGURE_DEPENDS ${CMAKE_SOURCE_DIR}/test_conflict_set.py)
PROPERTY CMAKE_CONFIGURE_DEPENDS
${CMAKE_CURRENT_SOURCE_DIR}/test_conflict_set.py)
execute_process(
COMMAND ${Python3_EXECUTABLE} ${CMAKE_SOURCE_DIR}/test_conflict_set.py
list OUTPUT_VARIABLE SCRIPT_TESTS)
COMMAND ${Python3_EXECUTABLE}
${CMAKE_CURRENT_SOURCE_DIR}/test_conflict_set.py list
OUTPUT_VARIABLE SCRIPT_TESTS)
foreach(TEST ${SCRIPT_TESTS})
add_test(
NAME script_test_${TEST}
COMMAND ${Python3_EXECUTABLE} ${CMAKE_SOURCE_DIR}/test_conflict_set.py
test ${TEST} --build-dir ${CMAKE_BINARY_DIR})
COMMAND
${Python3_EXECUTABLE}
${CMAKE_CURRENT_SOURCE_DIR}/test_conflict_set.py test ${TEST}
--build-dir ${CMAKE_CURRENT_BINARY_DIR})
endforeach()
endif()
@@ -308,25 +320,26 @@ if(BUILD_TESTING)
# symbol visibility tests
if(NOT WASM AND NOT CMAKE_BUILD_TYPE STREQUAL Debug)
if(APPLE)
set(symbol_exports ${CMAKE_SOURCE_DIR}/apple-symbol-exports.txt)
set(symbol_imports ${CMAKE_SOURCE_DIR}/apple-symbol-imports.txt)
set(symbol_exports ${CMAKE_CURRENT_SOURCE_DIR}/apple-symbol-exports.txt)
set(symbol_imports ${CMAKE_CURRENT_SOURCE_DIR}/apple-symbol-imports.txt)
else()
set(symbol_exports ${CMAKE_SOURCE_DIR}/symbol-exports.txt)
set(symbol_exports ${CMAKE_CURRENT_SOURCE_DIR}/symbol-exports.txt)
if(CMAKE_SYSTEM_PROCESSOR STREQUAL aarch64)
set(symbol_imports ${CMAKE_SOURCE_DIR}/aarch64-symbol-imports.txt)
set(symbol_imports
${CMAKE_CURRENT_SOURCE_DIR}/aarch64-symbol-imports.txt)
else()
set(symbol_imports ${CMAKE_SOURCE_DIR}/symbol-imports.txt)
set(symbol_imports ${CMAKE_CURRENT_SOURCE_DIR}/symbol-imports.txt)
endif()
endif()
add_test(
NAME conflict_set_shared_symbols
COMMAND
${CMAKE_SOURCE_DIR}/test_symbols.sh $<TARGET_FILE:${PROJECT_NAME}>
${symbol_exports} ${symbol_imports})
${CMAKE_CURRENT_SOURCE_DIR}/test_symbols.sh
$<TARGET_FILE:${PROJECT_NAME}> ${symbol_exports} ${symbol_imports})
add_test(
NAME conflict_set_static_symbols
COMMAND
${CMAKE_SOURCE_DIR}/test_symbols.sh
${CMAKE_CURRENT_SOURCE_DIR}/test_symbols.sh
$<TARGET_FILE:${PROJECT_NAME}-static> ${symbol_exports}
${symbol_imports})
endif()
@@ -369,13 +382,13 @@ set(CMAKE_OSX_DEPLOYMENT_TARGET 11.0)
if(APPLE)
find_program(PANDOC_EXE pandoc)
if(PANDOC_EXE)
execute_process(COMMAND ${PANDOC_EXE} ${CMAKE_SOURCE_DIR}/README.md -o
${CMAKE_BINARY_DIR}/README.txt)
set(CPACK_RESOURCE_FILE_README ${CMAKE_BINARY_DIR}/README.txt)
execute_process(COMMAND ${PANDOC_EXE} ${CMAKE_CURRENT_SOURCE_DIR}/README.md
-o ${CMAKE_CURRENT_BINARY_DIR}/README.txt)
set(CPACK_RESOURCE_FILE_README ${CMAKE_CURRENT_BINARY_DIR}/README.txt)
endif()
configure_file(${CMAKE_SOURCE_DIR}/LICENSE ${CMAKE_BINARY_DIR}/LICENSE.txt
COPYONLY)
set(CPACK_RESOURCE_FILE_LICENSE ${CMAKE_BINARY_DIR}/LICENSE.txt)
configure_file(${CMAKE_CURRENT_SOURCE_DIR}/LICENSE
${CMAKE_CURRENT_BINARY_DIR}/LICENSE.txt COPYONLY)
set(CPACK_RESOURCE_FILE_LICENSE ${CMAKE_CURRENT_BINARY_DIR}/LICENSE.txt)
endif()
include(CPack)

456
ConflictSet.cpp
View File

@@ -236,11 +236,6 @@ constexpr int kNodeCopyBegin = offsetof(Node, entry);
constexpr int kNodeCopySize =
offsetof(Node, parentsIndex) + sizeof(Node::parentsIndex) - kNodeCopyBegin;
struct Child {
int64_t childMaxVersion;
Node *child;
};
// copyChildrenAndKeyFrom is responsible for copying all
// public members of Node, copying the partial key, logically copying the
// children (converting representation if necessary), and updating all the
@@ -262,7 +257,8 @@ struct Node3 : Node {
constexpr static auto kType = Type_Node3;
// Sorted
uint8_t index[kMaxNodes];
Child children[kMaxNodes];
Node *children[kMaxNodes];
int64_t childMaxVersion[kMaxNodes];
uint8_t *partialKey() { return (uint8_t *)(this + 1); }
void copyChildrenAndKeyFrom(const Node0 &other);
@@ -277,7 +273,8 @@ struct Node16 : Node {
constexpr static auto kMaxNodes = 16;
// Sorted
uint8_t index[kMaxNodes];
Child children[kMaxNodes];
Node *children[kMaxNodes];
int64_t childMaxVersion[kMaxNodes];
uint8_t *partialKey() { return (uint8_t *)(this + 1); }
void copyChildrenAndKeyFrom(const Node3 &other);
@@ -293,7 +290,14 @@ struct Node48 : Node {
BitSet bitSet;
int8_t nextFree;
int8_t index[256];
Child children[kMaxNodes];
Node *children[kMaxNodes];
int64_t childMaxVersion[kMaxNodes];
uint8_t reverseIndex[kMaxNodes];
constexpr static int kMaxOfMaxPageSize = 16;
constexpr static int kMaxOfMaxShift =
std::countr_zero(uint32_t(kMaxOfMaxPageSize));
constexpr static int kMaxOfMaxTotalPages = kMaxNodes / kMaxOfMaxPageSize;
int64_t maxOfMax[kMaxOfMaxTotalPages];
uint8_t *partialKey() { return (uint8_t *)(this + 1); }
@@ -307,7 +311,13 @@ struct Node48 : Node {
struct Node256 : Node {
constexpr static auto kType = Type_Node256;
BitSet bitSet;
Child children[256];
Node *children[256];
int64_t childMaxVersion[256];
constexpr static int kMaxOfMaxPageSize = 8;
constexpr static int kMaxOfMaxShift =
std::countr_zero(uint32_t(kMaxOfMaxPageSize));
constexpr static int kMaxOfMaxTotalPages = 256 / kMaxOfMaxPageSize;
int64_t maxOfMax[kMaxOfMaxTotalPages];
uint8_t *partialKey() { return (uint8_t *)(this + 1); }
void copyChildrenAndKeyFrom(const Node48 &other);
void copyChildrenAndKeyFrom(const Node256 &other);
@@ -339,8 +349,8 @@ inline void Node3::copyChildrenAndKeyFrom(const Node3 &other) {
memcpy(index, other.index, sizeof(*this) - sizeof(Node));
memcpy(partialKey(), &other + 1, partialKeyLen);
for (int i = 0; i < numChildren; ++i) {
assert(children[i].child->parent == &other);
children[i].child->parent = this;
assert(children[i]->parent == &other);
children[i]->parent = this;
}
}
@@ -348,11 +358,13 @@ inline void Node3::copyChildrenAndKeyFrom(const Node16 &other) {
memcpy((char *)this + kNodeCopyBegin, (char *)&other + kNodeCopyBegin,
kNodeCopySize);
memcpy(index, other.index, kMaxNodes);
memcpy(children, other.children, kMaxNodes * sizeof(Child));
memcpy(children, other.children, kMaxNodes * sizeof(children[0])); // NOLINT
memcpy(childMaxVersion, other.childMaxVersion,
kMaxNodes * sizeof(childMaxVersion[0]));
memcpy(partialKey(), &other + 1, partialKeyLen);
for (int i = 0; i < numChildren; ++i) {
assert(children[i].child->parent == &other);
children[i].child->parent = this;
assert(children[i]->parent == &other);
children[i]->parent = this;
}
}
@@ -360,12 +372,15 @@ inline void Node16::copyChildrenAndKeyFrom(const Node3 &other) {
memcpy((char *)this + kNodeCopyBegin, (char *)&other + kNodeCopyBegin,
kNodeCopySize);
memcpy(index, other.index, Node3::kMaxNodes);
memcpy(children, other.children, Node3::kMaxNodes * sizeof(Child));
memcpy(children, other.children,
Node3::kMaxNodes * sizeof(children[0])); // NOLINT
memcpy(childMaxVersion, other.childMaxVersion,
Node3::kMaxNodes * sizeof(childMaxVersion[0]));
memcpy(partialKey(), &other + 1, partialKeyLen);
assert(numChildren == Node3::kMaxNodes);
for (int i = 0; i < Node3::kMaxNodes; ++i) {
assert(children[i].child->parent == &other);
children[i].child->parent = this;
assert(children[i]->parent == &other);
children[i]->parent = this;
}
}
@@ -375,8 +390,9 @@ inline void Node16::copyChildrenAndKeyFrom(const Node16 &other) {
memcpy(index, other.index, sizeof(index));
for (int i = 0; i < numChildren; ++i) {
children[i] = other.children[i];
assert(children[i].child->parent == &other);
children[i].child->parent = this;
childMaxVersion[i] = other.childMaxVersion[i];
assert(children[i]->parent == &other);
children[i]->parent = this;
}
memcpy(partialKey(), &other + 1, partialKeyLen);
}
@@ -392,8 +408,9 @@ inline void Node16::copyChildrenAndKeyFrom(const Node48 &other) {
assume(i < Node16::kMaxNodes);
index[i] = c;
children[i] = other.children[other.index[c]];
assert(children[i].child->parent == &other);
children[i].child->parent = this;
childMaxVersion[i] = other.childMaxVersion[other.index[c]];
assert(children[i]->parent == &other);
children[i]->parent = this;
++i;
},
0, 256);
@@ -405,6 +422,8 @@ inline void Node48::copyChildrenAndKeyFrom(const Node16 &other) {
kNodeCopySize);
assert(numChildren == Node16::kMaxNodes);
memset(index, -1, sizeof(index));
memset(children, 0, sizeof(children));
memset(childMaxVersion, 0, sizeof(childMaxVersion));
memcpy(partialKey(), &other + 1, partialKeyLen);
bitSet.init();
nextFree = Node16::kMaxNodes;
@@ -413,8 +432,12 @@ inline void Node48::copyChildrenAndKeyFrom(const Node16 &other) {
bitSet.set(x);
index[x] = i;
children[i] = other.children[i];
assert(children[i].child->parent == &other);
children[i].child->parent = this;
childMaxVersion[i] = other.childMaxVersion[i];
assert(children[i]->parent == &other);
children[i]->parent = this;
reverseIndex[i] = x;
maxOfMax[i >> Node48::kMaxOfMaxShift] =
std::max(maxOfMax[i >> Node48::kMaxOfMaxShift], childMaxVersion[i]);
++i;
}
}
@@ -422,13 +445,19 @@ inline void Node48::copyChildrenAndKeyFrom(const Node16 &other) {
inline void Node48::copyChildrenAndKeyFrom(const Node48 &other) {
memcpy((char *)this + kNodeCopyBegin, (char *)&other + kNodeCopyBegin,
kNodeCopySize);
memcpy(&bitSet, &other.bitSet,
sizeof(*this) - sizeof(Node) - sizeof(children));
bitSet = other.bitSet;
nextFree = other.nextFree;
memcpy(index, other.index, sizeof(index));
memset(children, 0, sizeof(children));
memset(childMaxVersion, 0, sizeof(childMaxVersion));
for (int i = 0; i < numChildren; ++i) {
children[i] = other.children[i];
assert(children[i].child->parent == &other);
children[i].child->parent = this;
childMaxVersion[i] = other.childMaxVersion[i];
assert(children[i]->parent == &other);
children[i]->parent = this;
}
memcpy(reverseIndex, other.reverseIndex, sizeof(reverseIndex));
memcpy(maxOfMax, other.maxOfMax, sizeof(maxOfMax));
memcpy(partialKey(), &other + 1, partialKeyLen);
}
@@ -436,6 +465,8 @@ inline void Node48::copyChildrenAndKeyFrom(const Node256 &other) {
memcpy((char *)this + kNodeCopyBegin, (char *)&other + kNodeCopyBegin,
kNodeCopySize);
memset(index, -1, sizeof(index));
memset(children, 0, sizeof(children));
memset(childMaxVersion, 0, sizeof(childMaxVersion));
nextFree = other.numChildren;
bitSet = other.bitSet;
int i = 0;
@@ -446,8 +477,12 @@ inline void Node48::copyChildrenAndKeyFrom(const Node256 &other) {
assume(i < Node48::kMaxNodes);
index[c] = i;
children[i] = other.children[c];
assert(children[i].child->parent == &other);
children[i].child->parent = this;
childMaxVersion[i] = other.childMaxVersion[c];
assert(children[i]->parent == &other);
children[i]->parent = this;
reverseIndex[i] = c;
maxOfMax[i >> Node48::kMaxOfMaxShift] =
std::max(maxOfMax[i >> Node48::kMaxOfMaxShift], childMaxVersion[i]);
++i;
},
0, 256);
@@ -457,13 +492,18 @@ inline void Node48::copyChildrenAndKeyFrom(const Node256 &other) {
inline void Node256::copyChildrenAndKeyFrom(const Node48 &other) {
memcpy((char *)this + kNodeCopyBegin, (char *)&other + kNodeCopyBegin,
kNodeCopySize);
memset(children, 0, sizeof(children));
bitSet = other.bitSet;
memset(children, 0, sizeof(children));
memset(childMaxVersion, 0, sizeof(childMaxVersion));
memset(maxOfMax, 0, sizeof(maxOfMax));
bitSet.forEachInRange(
[&](int c) {
children[c] = other.children[other.index[c]];
assert(children[c].child->parent == &other);
children[c].child->parent = this;
childMaxVersion[c] = other.childMaxVersion[other.index[c]];
assert(children[c]->parent == &other);
children[c]->parent = this;
maxOfMax[c >> Node256::kMaxOfMaxShift] = std::max(
maxOfMax[c >> Node256::kMaxOfMaxShift], childMaxVersion[c]);
},
0, 256);
memcpy(partialKey(), &other + 1, partialKeyLen);
@@ -473,14 +513,17 @@ inline void Node256::copyChildrenAndKeyFrom(const Node256 &other) {
memcpy((char *)this + kNodeCopyBegin, (char *)&other + kNodeCopyBegin,
kNodeCopySize);
memset(children, 0, sizeof(children));
memset(childMaxVersion, 0, sizeof(childMaxVersion));
bitSet = other.bitSet;
bitSet.forEachInRange(
[&](int c) {
children[c] = other.children[c];
assert(children[c].child->parent == &other);
children[c].child->parent = this;
childMaxVersion[c] = other.childMaxVersion[c];
assert(children[c]->parent == &other);
children[c]->parent = this;
},
0, 256);
memcpy(maxOfMax, other.maxOfMax, sizeof(maxOfMax));
memcpy(partialKey(), &other + 1, partialKeyLen);
}
@@ -532,7 +575,7 @@ template <class T> struct BoundedFreeListAllocator {
static_assert(std::derived_from<T, Node>);
static_assert(std::is_trivial_v<T>);
T *allocate(int partialKeyCapacity) {
T *allocate_helper(int partialKeyCapacity) {
if (freeList != nullptr) {
T *n = (T *)freeList;
VALGRIND_MAKE_MEM_DEFINED(freeList, sizeof(freeList));
@@ -560,6 +603,18 @@ template <class T> struct BoundedFreeListAllocator {
return result;
}
T *allocate(int partialKeyCapacity) {
T *result = allocate_helper(partialKeyCapacity);
if constexpr (!std::is_same_v<T, Node0>) {
memset(result->children, 0, sizeof(result->children));
memset(result->childMaxVersion, 0, sizeof(result->childMaxVersion));
}
if constexpr (std::is_same_v<T, Node48> || std::is_same_v<T, Node256>) {
memset(result->maxOfMax, 0, sizeof(result->maxOfMax));
}
return result;
}
void release(T *p) {
if (freeListBytes >= kFreeListMaxMemory) {
removeNode(p);
@@ -711,29 +766,30 @@ Node *&getChildExists(Node *self, uint8_t index) {
__builtin_unreachable(); // GCOVR_EXCL_LINE
case Type_Node3: {
auto *self3 = static_cast<Node3 *>(self);
return self3->children[getNodeIndex(self3, index)].child;
return self3->children[getNodeIndex(self3, index)];
}
case Type_Node16: {
auto *self16 = static_cast<Node16 *>(self);
return self16->children[getNodeIndex(self16, index)].child;
return self16->children[getNodeIndex(self16, index)];
}
case Type_Node48: {
auto *self48 = static_cast<Node48 *>(self);
assert(self48->bitSet.test(index));
return self48->children[self48->index[index]].child;
return self48->children[self48->index[index]];
}
case Type_Node256: {
auto *self256 = static_cast<Node256 *>(self);
assert(self256->bitSet.test(index));
return self256->children[index].child;
return self256->children[index];
}
default: // GCOVR_EXCL_LINE
__builtin_unreachable(); // GCOVR_EXCL_LINE
}
}
// Precondition - an entry for index must exist in the node
int64_t &maxVersion(Node *n, ConflictSet::Impl *);
int64_t maxVersion(Node *n, ConflictSet::Impl *);
void setMaxVersion(Node *n, ConflictSet::Impl *, int64_t maxVersion);
Node *&getInTree(Node *n, ConflictSet::Impl *);
@@ -744,21 +800,21 @@ Node *getChild(Node *self, uint8_t index) {
case Type_Node3: {
auto *self3 = static_cast<Node3 *>(self);
int i = getNodeIndex(self3, index);
return i < 0 ? nullptr : self3->children[i].child;
return i < 0 ? nullptr : self3->children[i];
}
case Type_Node16: {
auto *self16 = static_cast<Node16 *>(self);
int i = getNodeIndex(self16, index);
return i < 0 ? nullptr : self16->children[i].child;
return i < 0 ? nullptr : self16->children[i];
}
case Type_Node48: {
auto *self48 = static_cast<Node48 *>(self);
int i = self48->index[index];
return i < 0 ? nullptr : self48->children[i].child;
return i < 0 ? nullptr : self48->children[i];
}
case Type_Node256: {
auto *self256 = static_cast<Node256 *>(self);
return self256->children[index].child;
return self256->children[index];
}
default: // GCOVR_EXCL_LINE
__builtin_unreachable(); // GCOVR_EXCL_LINE
@@ -874,26 +930,26 @@ Node *&getOrCreateChild(Node *&self, uint8_t index,
auto *self3 = static_cast<Node3 *>(self);
int i = getNodeIndex(self3, index);
if (i >= 0) {
return self3->children[i].child;
return self3->children[i];
}
} break;
case Type_Node16: {
auto *self16 = static_cast<Node16 *>(self);
int i = getNodeIndex(self16, index);
if (i >= 0) {
return self16->children[i].child;
return self16->children[i];
}
} break;
case Type_Node48: {
auto *self48 = static_cast<Node48 *>(self);
int secondIndex = self48->index[index];
if (secondIndex >= 0) {
return self48->children[secondIndex].child;
return self48->children[secondIndex];
}
} break;
case Type_Node256: {
auto *self256 = static_cast<Node256 *>(self);
if (auto &result = self256->children[index].child; result != nullptr) {
if (auto &result = self256->children[index]; result != nullptr) {
return result;
}
} break;
@@ -931,12 +987,16 @@ Node *&getOrCreateChild(Node *&self, uint8_t index,
memmove(self3->index + i + 1, self3->index + i,
self->numChildren - (i + 1));
memmove(self3->children + i + 1, self3->children + i,
(self->numChildren - (i + 1)) * sizeof(Child));
(self->numChildren - (i + 1)) *
sizeof(self3->children[0])); // NOLINT
memmove(self3->childMaxVersion + i + 1, self3->childMaxVersion + i,
(self->numChildren - (i + 1)) *
sizeof(self3->childMaxVersion[0]));
break;
}
}
self3->index[i] = index;
auto &result = self3->children[i].child;
auto &result = self3->children[i];
result = nullptr;
return result;
}
@@ -968,7 +1028,10 @@ Node *&getOrCreateChild(Node *&self, uint8_t index,
memmove(self16->index + i + 1, self16->index + i,
self->numChildren - (i + 1));
memmove(self16->children + i + 1, self16->children + i,
(self->numChildren - (i + 1)) * sizeof(Child));
(self->numChildren - (i + 1)) * sizeof(self16->children[0]));
memmove(self16->childMaxVersion + i + 1, self16->childMaxVersion + i,
(self->numChildren - (i + 1)) *
sizeof(self16->childMaxVersion[0]));
}
#elif defined(HAS_ARM_NEON)
uint8x16_t indices;
@@ -988,7 +1051,11 @@ Node *&getOrCreateChild(Node *&self, uint8_t index,
memmove(self16->index + i + 1, self16->index + i,
self->numChildren - (i + 1));
memmove(self16->children + i + 1, self16->children + i,
(self->numChildren - (i + 1)) * sizeof(Child));
(self->numChildren - (i + 1)) *
sizeof(self16->children[0])); // NOLINT
memmove(self16->childMaxVersion + i + 1, self16->childMaxVersion + i,
(self->numChildren - (i + 1)) *
sizeof(self16->childMaxVersion[0]));
}
#else
int i = 0;
@@ -997,13 +1064,16 @@ Node *&getOrCreateChild(Node *&self, uint8_t index,
memmove(self16->index + i + 1, self16->index + i,
self->numChildren - (i + 1));
memmove(self16->children + i + 1, self16->children + i,
(self->numChildren - (i + 1)) * sizeof(Child));
(self->numChildren - (i + 1)) * sizeof(self16->children[0]));
memmove(self16->childMaxVersion + i + 1, self16->childMaxVersion + i,
(self->numChildren - (i + 1)) *
sizeof(self16->childMaxVersion[0]));
break;
}
}
#endif
self16->index[i] = index;
auto &result = self16->children[i].child;
auto &result = self16->children[i];
result = nullptr;
return result;
}
@@ -1025,7 +1095,8 @@ Node *&getOrCreateChild(Node *&self, uint8_t index,
assert(self48->nextFree < 48);
int nextFree = self48->nextFree++;
self48->index[index] = nextFree;
auto &result = self48->children[nextFree].child;
self48->reverseIndex[nextFree] = index;
auto &result = self48->children[nextFree];
result = nullptr;
return result;
}
@@ -1035,7 +1106,7 @@ Node *&getOrCreateChild(Node *&self, uint8_t index,
auto *self256 = static_cast<Node256 *>(self);
++self->numChildren;
self256->bitSet.set(index);
return self256->children[index].child;
return self256->children[index];
}
default: // GCOVR_EXCL_LINE
__builtin_unreachable(); // GCOVR_EXCL_LINE
@@ -1178,7 +1249,7 @@ void maybeDownsize(Node *self, NodeAllocators *allocators,
getInTree(self, impl) = newSelf;
allocators->node3.release(self3);
} else if (self->numChildren == 1 && !self->entryPresent) {
auto *child = self3->children[0].child;
auto *child = self3->children[0];
int minCapacity = self3->partialKeyLen + 1 + child->partialKeyLen;
if (minCapacity > child->getCapacity()) {
@@ -1210,7 +1281,7 @@ void maybeDownsize(Node *self, NodeAllocators *allocators,
// Max versions are stored in the parent, so we need to update it now
// that we have a new parent.
maxVersion(child, impl) = childMaxVersion;
setMaxVersion(child, impl, childMaxVersion);
getInTree(self, impl) = child;
allocators->node3.release(self3);
@@ -1291,7 +1362,11 @@ Node *erase(Node *self, NodeAllocators *allocators, ConflictSet::Impl *impl,
sizeof(parent3->index[0]) *
(parent->numChildren - (nodeIndex + 1)));
memmove(parent3->children + nodeIndex, parent3->children + nodeIndex + 1,
sizeof(parent3->children[0]) *
sizeof(parent3->children[0]) * // NOLINT
(parent->numChildren - (nodeIndex + 1)));
memmove(parent3->childMaxVersion + nodeIndex,
parent3->childMaxVersion + nodeIndex + 1,
sizeof(parent3->childMaxVersion[0]) *
(parent->numChildren - (nodeIndex + 1)));
--parent->numChildren;
@@ -1305,7 +1380,11 @@ Node *erase(Node *self, NodeAllocators *allocators, ConflictSet::Impl *impl,
sizeof(parent16->index[0]) *
(parent->numChildren - (nodeIndex + 1)));
memmove(parent16->children + nodeIndex, parent16->children + nodeIndex + 1,
sizeof(parent16->children[0]) *
sizeof(parent16->children[0]) * // NOLINT
(parent->numChildren - (nodeIndex + 1)));
memmove(parent16->childMaxVersion + nodeIndex,
parent16->childMaxVersion + nodeIndex + 1,
sizeof(parent16->childMaxVersion[0]) *
(parent->numChildren - (nodeIndex + 1)));
--parent->numChildren;
@@ -1324,9 +1403,18 @@ Node *erase(Node *self, NodeAllocators *allocators, ConflictSet::Impl *impl,
if (toRemoveChildrenIndex != lastChildrenIndex) {
parent48->children[toRemoveChildrenIndex] =
parent48->children[lastChildrenIndex];
parent48->index[parent48->children[toRemoveChildrenIndex]
.child->parentsIndex] = toRemoveChildrenIndex;
parent48->childMaxVersion[toRemoveChildrenIndex] =
parent48->childMaxVersion[lastChildrenIndex];
parent48->maxOfMax[toRemoveChildrenIndex >> Node48::kMaxOfMaxShift] =
std::max(parent48->maxOfMax[toRemoveChildrenIndex >>
Node48::kMaxOfMaxShift],
parent48->childMaxVersion[toRemoveChildrenIndex]);
auto parentIndex =
parent48->children[toRemoveChildrenIndex]->parentsIndex;
parent48->index[parentIndex] = toRemoveChildrenIndex;
parent48->reverseIndex[toRemoveChildrenIndex] = parentIndex;
}
parent48->childMaxVersion[lastChildrenIndex] = 0;
--parent->numChildren;
@@ -1336,7 +1424,7 @@ Node *erase(Node *self, NodeAllocators *allocators, ConflictSet::Impl *impl,
case Type_Node256: {
auto *parent256 = static_cast<Node256 *>(parent);
parent256->bitSet.reset(parentsIndex);
parent256->children[parentsIndex].child = nullptr;
parent256->children[parentsIndex] = nullptr;
--parent->numChildren;
@@ -1621,75 +1709,151 @@ downLeftSpine:
}
}
// Return the max version among all keys starting with the search path of n +
// [child], where child in (begin, end). Does not account for the range version
// of firstGt(searchpath(n) + [end - 1])
int64_t maxBetweenExclusive(Node *n, int begin, int end) {
// Returns true if all in-bounds vs are <= readVersion
bool scan16(const int64_t *vs, const uint8_t *is, int begin, int end,
int64_t readVersion) {
#ifdef HAS_ARM_NEON
assert(end - begin < 256);
uint8x16_t indices;
memcpy(&indices, is, 16);
// 0xff for each in bounds
auto results =
vcltq_u8(vsubq_u8(indices, vdupq_n_u8(begin)), vdupq_n_u8(end - begin));
// 0xf for each 0xff
uint64_t mask = vget_lane_u64(
vreinterpret_u64_u8(vshrn_n_u16(vreinterpretq_u16_u8(results), 4)), 0);
uint64_t compared = 0;
for (int i = 0; i < 16; ++i) {
compared |= (uint64_t(vs[i] > readVersion) << (i << 2));
}
return !(compared & mask);
#else
const unsigned shiftUpperBound = end - begin;
const unsigned shiftAmount = begin;
auto inBounds = [&](unsigned c) { return c - shiftAmount < shiftUpperBound; };
uint32_t compared = 0;
for (int i = 0; i < 16; ++i) {
compared |= ((vs[i] > readVersion) << i);
}
uint32_t mask = 0;
for (int i = 0; i < 16; ++i) {
mask |= inBounds(is[i]) << i;
}
return !(compared & mask);
#endif
}
// Return whether or not the max version among all keys starting with the search
// path of n + [child], where child in (begin, end) is <= readVersion. Does not
// account for the range version of firstGt(searchpath(n) + [end - 1])
bool checkMaxBetweenExclusive(Node *n, int begin, int end,
int64_t readVersion) {
assume(-1 <= begin);
assume(begin <= 256);
assume(-1 <= end);
assume(end <= 256);
assume(begin < end);
int64_t result = std::numeric_limits<int64_t>::lowest();
assert(!(begin == -1 && end == 256));
{
int c = getChildGeq(n, begin + 1);
if (c >= 0 && c < end) {
auto *child = getChildExists(n, c);
if (child->entryPresent) {
result = std::max(result, child->entry.rangeVersion);
if (!(child->entry.rangeVersion <= readVersion)) {
return false;
};
}
begin = c;
} else {
return result;
return true;
}
}
// [begin, end) is now the half-open interval of children we're interested in.
const unsigned shiftUpperBound = end - begin;
const unsigned shiftAmount = begin;
auto inBounds = [&](unsigned c) { return c - shiftAmount < shiftUpperBound; };
switch (n->getType()) {
case Type_Node0: // GCOVR_EXCL_LINE
// We would have returned above, after not finding a child
__builtin_unreachable(); // GCOVR_EXCL_LINE
case Type_Node3: {
auto *self = static_cast<Node3 *>(n);
for (int i = 0; i < self->numChildren && self->index[i] < end; ++i) {
if (begin <= self->index[i]) {
result = std::max(result, self->children[i].childMaxVersion);
}
bool result = true;
for (int i = 0; i < 3; ++i) {
result &= !((self->childMaxVersion[i] > readVersion) &
inBounds(self->index[i]));
}
return result;
} break;
case Type_Node16: {
auto *self = static_cast<Node16 *>(n);
for (int i = 0; i < self->numChildren && self->index[i] < end; ++i) {
if (begin <= self->index[i]) {
result = std::max(result, self->children[i].childMaxVersion);
}
}
return scan16(self->childMaxVersion, self->index, begin, end, readVersion);
} break;
case Type_Node48: {
auto *self = static_cast<Node48 *>(n);
self->bitSet.forEachInRange(
[&](int i) {
result =
std::max(result, self->children[self->index[i]].childMaxVersion);
},
begin, end);
break;
// Check all pages
static_assert(Node48::kMaxOfMaxPageSize == 16);
for (int i = 0; i < Node48::kMaxOfMaxTotalPages; ++i) {
if (self->maxOfMax[i] > readVersion) {
if (!scan16(self->childMaxVersion + (i << Node48::kMaxOfMaxShift),
self->reverseIndex + (i << Node48::kMaxOfMaxShift), begin,
end, readVersion)) {
return false;
}
}
}
return true;
}
case Type_Node256: {
auto *self = static_cast<Node256 *>(n);
self->bitSet.forEachInRange(
[&](int i) {
result = std::max(result, self->children[i].childMaxVersion);
},
begin, end);
break;
// Check the first page
if (self->maxOfMax[begin >> Node256::kMaxOfMaxShift] > readVersion) {
bool result = true;
for (int i = 0; i < Node256::kMaxOfMaxPageSize; ++i) {
int j = (begin & ~(Node256::kMaxOfMaxPageSize - 1)) + i;
result &= !((self->childMaxVersion[j] > readVersion) & inBounds(j));
}
if (!result) {
return result;
}
}
// Check the last page
if (end >= 1 &&
self->maxOfMax[(end - 1) >> Node256::kMaxOfMaxShift] > readVersion) {
bool result = true;
for (int i = 0; i < Node256::kMaxOfMaxPageSize; ++i) {
int j = ((end - 1) & ~(Node256::kMaxOfMaxPageSize - 1)) + i;
result &= !((self->childMaxVersion[j] > readVersion) & inBounds(j));
}
if (!result) {
return result;
}
}
// Check inner pages
bool result = true;
for (int i = (begin >> Node256::kMaxOfMaxShift) + 1;
i < ((end - 1) >> Node256::kMaxOfMaxShift); ++i) {
result &= self->maxOfMax[i] <= readVersion;
}
return result;
}
default: // GCOVR_EXCL_LINE
__builtin_unreachable(); // GCOVR_EXCL_LINE
}
#if DEBUG_VERBOSE && !defined(NDEBUG)
fprintf(stderr, "At `%s', max version in (%02x, %02x) is %" PRId64 "\n",
getSearchPathPrintable(n).c_str(), begin, end, result);
#endif
return result;
}
Vector<uint8_t> getSearchPath(Arena &arena, Node *n) {
@@ -1722,7 +1886,7 @@ bool checkRangeStartsWith(Node *n, std::span<const uint8_t> key, int begin,
#endif
auto remaining = key;
if (remaining.size() == 0) {
return maxBetweenExclusive(n, begin, end) <= readVersion;
return checkMaxBetweenExclusive(n, begin, end, readVersion);
}
auto *child = getChild(n, remaining[0]);
@@ -1821,7 +1985,7 @@ struct CheckRangeLeftSide {
}
if (searchPathLen >= prefixLen) {
if (maxBetweenExclusive(n, remaining[0], 256) > readVersion) {
if (!checkMaxBetweenExclusive(n, remaining[0], 256, readVersion)) {
ok = false;
return true;
}
@@ -1963,7 +2127,7 @@ struct CheckRangeRightSide {
return true;
}
if (maxBetweenExclusive(n, -1, remaining[0]) > readVersion) {
if (!checkMaxBetweenExclusive(n, -1, remaining[0], readVersion)) {
ok = false;
return true;
}
@@ -2174,7 +2338,7 @@ template <bool kBegin>
allocators) = old;
old->parent = *self;
old->parentsIndex = old->partialKey()[partialKeyIndex];
maxVersion(old, impl) = oldMaxVersion;
setMaxVersion(old, impl, oldMaxVersion);
memmove(old->partialKey(), old->partialKey() + partialKeyIndex + 1,
old->partialKeyLen - (partialKeyIndex + 1));
@@ -2198,9 +2362,8 @@ template <bool kBegin>
}
if constexpr (kBegin) {
auto &m = maxVersion(*self, impl);
assert(writeVersion >= m);
m = writeVersion;
assert(maxVersion(*self, impl) <= writeVersion);
setMaxVersion(*self, impl, writeVersion);
}
if (key.size() == 0) {
@@ -2208,9 +2371,8 @@ template <bool kBegin>
}
if constexpr (!kBegin) {
auto &m = maxVersion(*self, impl);
assert(writeVersion >= m);
m = writeVersion;
assert(maxVersion(*self, impl) <= writeVersion);
setMaxVersion(*self, impl, writeVersion);
}
auto &child = getOrCreateChild(*self, key.front(), allocators);
@@ -2221,8 +2383,7 @@ template <bool kBegin>
child->partialKeyLen = 0;
child->parent = *self;
child->parentsIndex = key.front();
maxVersion(child, impl) =
kBegin ? writeVersion : std::numeric_limits<int64_t>::lowest();
setMaxVersion(child, impl, kBegin ? writeVersion : 0);
}
self = &child;
@@ -2267,7 +2428,7 @@ void addPointWrite(Node *&root, int64_t oldestVersion,
n->entryPresent = true;
n->entry.pointVersion = writeVersion;
maxVersion(n, impl) = writeVersion;
setMaxVersion(n, impl, writeVersion);
n->entry.rangeVersion =
p != nullptr ? p->entry.rangeVersion : oldestVersion;
} else {
@@ -2308,9 +2469,8 @@ void addWriteRange(Node *&root, int64_t oldestVersion,
break;
}
auto &m = maxVersion(n, impl);
assert(writeVersion >= m);
m = writeVersion;
assert(maxVersion(n, impl) <= writeVersion);
setMaxVersion(n, impl, writeVersion);
remaining = remaining.subspan(n->partialKeyLen + 1,
remaining.size() - (n->partialKeyLen + 1));
@@ -2337,11 +2497,10 @@ void addWriteRange(Node *&root, int64_t oldestVersion,
beginNode->entry.rangeVersion =
p != nullptr ? p->entry.rangeVersion : oldestVersion;
beginNode->entry.pointVersion = writeVersion;
maxVersion(beginNode, impl) = writeVersion;
assert(maxVersion(beginNode, impl) <= writeVersion);
setMaxVersion(beginNode, impl, writeVersion);
}
auto &m = maxVersion(beginNode, impl);
assert(writeVersion >= m);
m = writeVersion;
setMaxVersion(beginNode, impl, writeVersion);
assert(writeVersion >= beginNode->entry.pointVersion);
beginNode->entry.pointVersion = writeVersion;
@@ -2356,8 +2515,8 @@ void addWriteRange(Node *&root, int64_t oldestVersion,
auto *p = nextLogical(endNode);
endNode->entry.pointVersion =
p != nullptr ? p->entry.rangeVersion : oldestVersion;
auto &m = maxVersion(endNode, impl);
m = std::max(m, endNode->entry.pointVersion);
auto m = maxVersion(endNode, impl);
setMaxVersion(endNode, impl, std::max(m, endNode->entry.pointVersion));
}
endNode->entry.rangeVersion = writeVersion;
@@ -2557,8 +2716,7 @@ struct __attribute__((visibility("hidden"))) ConflictSet::Impl {
int64_t totalBytes = 0;
};
// Precondition - an entry for index must exist in the node
int64_t &maxVersion(Node *n, ConflictSet::Impl *impl) {
int64_t maxVersion(Node *n, ConflictSet::Impl *impl) {
int index = n->parentsIndex;
n = n->parent;
if (n == nullptr) {
@@ -2570,22 +2728,66 @@ int64_t &maxVersion(Node *n, ConflictSet::Impl *impl) {
case Type_Node3: {
auto *n3 = static_cast<Node3 *>(n);
int i = getNodeIndex(n3, index);
return n3->children[i].childMaxVersion;
return n3->childMaxVersion[i];
}
case Type_Node16: {
auto *n16 = static_cast<Node16 *>(n);
int i = getNodeIndex(n16, index);
return n16->children[i].childMaxVersion;
return n16->childMaxVersion[i];
}
case Type_Node48: {
auto *n48 = static_cast<Node48 *>(n);
assert(n48->bitSet.test(index));
return n48->children[n48->index[index]].childMaxVersion;
return n48->childMaxVersion[n48->index[index]];
}
case Type_Node256: {
auto *n256 = static_cast<Node256 *>(n);
assert(n256->bitSet.test(index));
return n256->children[index].childMaxVersion;
return n256->childMaxVersion[index];
}
default: // GCOVR_EXCL_LINE
__builtin_unreachable(); // GCOVR_EXCL_LINE
}
}
void setMaxVersion(Node *n, ConflictSet::Impl *impl, int64_t newMax) {
int index = n->parentsIndex;
n = n->parent;
if (n == nullptr) {
impl->rootMaxVersion = newMax;
return;
}
switch (n->getType()) {
case Type_Node0: // GCOVR_EXCL_LINE
__builtin_unreachable(); // GCOVR_EXCL_LINE
case Type_Node3: {
auto *n3 = static_cast<Node3 *>(n);
int i = getNodeIndex(n3, index);
n3->childMaxVersion[i] = newMax;
return;
}
case Type_Node16: {
auto *n16 = static_cast<Node16 *>(n);
int i = getNodeIndex(n16, index);
n16->childMaxVersion[i] = newMax;
return;
}
case Type_Node48: {
auto *n48 = static_cast<Node48 *>(n);
assert(n48->bitSet.test(index));
int i = n48->index[index];
n48->childMaxVersion[i] = newMax;
n48->maxOfMax[i >> Node48::kMaxOfMaxShift] =
std::max(n48->maxOfMax[i >> Node48::kMaxOfMaxShift], newMax);
return;
}
case Type_Node256: {
auto *n256 = static_cast<Node256 *>(n);
assert(n256->bitSet.test(index));
n256->childMaxVersion[index] = newMax;
n256->maxOfMax[index >> Node256::kMaxOfMaxShift] =
std::max(n256->maxOfMax[index >> Node256::kMaxOfMaxShift], newMax);
return;
}
default: // GCOVR_EXCL_LINE
__builtin_unreachable(); // GCOVR_EXCL_LINE
@@ -2847,7 +3049,7 @@ Iterator firstGeq(Node *n, std::string_view key) {
[[maybe_unused]] int64_t checkMaxVersion(Node *root, Node *node,
int64_t oldestVersion, bool &success,
ConflictSet::Impl *impl) {
int64_t expected = std::numeric_limits<int64_t>::lowest();
int64_t expected = 0;
if (node->entryPresent) {
expected = std::max(expected, node->entry.pointVersion);
}

38
README.md
View File

@@ -58,27 +58,29 @@ Performance counters:
## Skip list
| ns/op | op/s | err% | total | benchmark |
| -----: | -----------: | ---: | ----: | :---------------------------------- |
| 246.99 | 4,048,700.59 | 0.2% | 0.01 | `point reads` |
| 260.16 | 3,843,784.65 | 0.1% | 0.01 | `prefix reads` |
| 493.35 | 2,026,953.19 | 0.1% | 0.01 | `range reads` |
| 462.05 | 2,164,289.23 | 0.6% | 0.01 | `point writes` |
| 448.19 | 2,231,205.25 | 0.9% | 0.01 | `prefix writes` |
| 255.83 | 3,908,845.72 | 1.5% | 0.02 | `range writes` |
| 582.63 | 1,716,349.02 | 1.3% | 0.01 | `monotonic increasing point writes` |
| ns/op | op/s | err% | total | benchmark
|--------------------:|--------------------:|--------:|----------:|:----------
| 256.89 | 3,892,784.92 | 0.3% | 0.01 | `point reads`
| 272.90 | 3,664,395.04 | 0.2% | 0.01 | `prefix reads`
| 507.22 | 1,971,549.50 | 0.7% | 0.01 | `range reads`
| 452.66 | 2,209,181.91 | 0.5% | 0.01 | `point writes`
| 438.09 | 2,282,619.96 | 0.4% | 0.01 | `prefix writes`
| 253.33 | 3,947,420.36 | 2.5% | 0.02 | `range writes`
| 574.07 | 1,741,936.71 | 0.3% | 0.01 | `monotonic increasing point writes`
| 151,562.50 | 6,597.94 | 1.5% | 0.01 | `worst case for radix tree`
## Radix tree (this implementation)
| ns/op | op/s | err% | total | benchmark |
| -----: | ------------: | ---: | ----: | :---------------------------------- |
| 19.42 | 51,483,206.67 | 0.3% | 0.01 | `point reads` |
| 58.43 | 17,115,612.57 | 0.1% | 0.01 | `prefix reads` |
| 216.09 | 4,627,766.60 | 0.2% | 0.01 | `range reads` |
| 28.35 | 35,267,567.72 | 0.2% | 0.01 | `point writes` |
| 43.43 | 23,026,226.17 | 0.2% | 0.01 | `prefix writes` |
| 50.00 | 20,000,000.00 | 0.0% | 0.01 | `range writes` |
| 92.38 | 10,824,863.69 | 4.1% | 0.01 | `monotonic increasing point writes` |
| ns/op | op/s | err% | total | benchmark
|--------------------:|--------------------:|--------:|----------:|:----------
| 19.83 | 50,420,955.28 | 0.1% | 0.01 | `point reads`
| 55.95 | 17,872,542.40 | 0.5% | 0.01 | `prefix reads`
| 88.28 | 11,327,709.50 | 0.4% | 0.01 | `range reads`
| 29.15 | 34,309,531.64 | 0.5% | 0.01 | `point writes`
| 42.36 | 23,607,424.27 | 1.1% | 0.01 | `prefix writes`
| 50.00 | 20,000,000.00 | 0.0% | 0.01 | `range writes`
| 93.52 | 10,692,413.79 | 3.3% | 0.01 | `monotonic increasing point writes`
| 2,388,417.00 | 418.69 | 0.4% | 0.03 | `worst case for radix tree`
# "Real data" test

2
apple-symbol-imports.txt
View File

@@ -1,3 +1,5 @@
___stack_chk_fail
___stack_chk_guard
__tlv_bootstrap
_abort
_bzero

4
conflict_set.py
View File

@@ -115,7 +115,9 @@ class ConflictSet:
def check(self, *reads: ReadRange) -> list[Result]:
r = (ctypes.c_int * len(reads))()
self._lib.ConflictSet_check(self.p, *reads, r, 1)
self._lib.ConflictSet_check(
self.p, (ReadRange * len(reads))(*reads), r, len(reads)
)
return [Result(x) for x in r]
def setOldestVersion(self, version: int) -> None:

4
include/ConflictSet.h
View File

@@ -21,7 +21,7 @@ limitations under the License.
#ifdef __cplusplus
namespace weaselab {
/** A data structure for optimistic concurrency control on ranges of
* bitwise-lexicographically-ordered keys.
* bitwise-lexicographically-ordered keys. All versions must be >= 0.
*
* Thread safety:
* - It's safe to operate on two different ConflictSets in two different
@@ -106,7 +106,7 @@ private:
#else
/** A data structure for optimistic concurrency control on ranges of
* bitwise-lexicographically-ordered keys.
* bitwise-lexicographically-ordered keys. All versions must be >= 0.
*
* Thread safety:
* - It's safe to operate on two different ConflictSets in two different

1
paper/.gitignore vendored
View File

@@ -10,3 +10,4 @@
*.pdf
*.run.xml
*.synctex.gz
version.txt

2
paper/Makefile
View File

@@ -6,4 +6,4 @@ paper.pdf: paper.tex $(wildcard *.tikz)
latexmk -pdf
clean:
xargs -I '{}' bash -c "rm -f {}" < .gitignore
grep -v version.txt .gitignore |xargs -I '{}' bash -c "rm -f {}"

4
paper/paper.tex
View File

@@ -8,9 +8,11 @@
\usepackage[edges]{forest}
\usepackage{amsmath}
\input{version.txt}
\title{ARTful Concurrency Control à la FoundationDB}
\author{Andrew Noyes \thanks{\href{mailto:andrew@weaselab.dev}{andrew@weaselab.dev}}}
\date{}
\date{Version \versionnumber}
\usepackage{biblatex}
\bibliography{bibliography}

2
test_conflict_set.py
View File

@@ -53,7 +53,7 @@ def test_conflict_set():
assert cs.getBytes() - before > 0
assert cs.check(read(0, key)) == [Result.CONFLICT]
cs.setOldestVersion(1)
assert cs.check(read(0, key)) == [Result.TOO_OLD]
assert cs.check(read(0, key), read(1, key)) == [Result.TOO_OLD, Result.COMMIT]
def test_inner_full_words():

1
version.txt.in Normal file
View File

@@ -0,0 +1 @@
\providecommand{\versionnumber}{@PROJECT_VERSION@}