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Prevents potential issue caused by publicly inheriting from STL container types

closes https://github.com/official-stockfish/Stockfish/pull/5746

No functional change
This commit is contained in:
Shawn Xu
2024-12-30 23:00:03 -08:00
committed by Disservin
parent 5cf6f99177
commit 00da3ff463
2 changed files with 43 additions and 16 deletions
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src/history.h
+43 -15
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@@ -76,9 +76,12 @@ class StatsEntry {
T entry; T entry;
public: public:
void operator=(const T& v) { entry = v; } StatsEntry& operator=(const T& v) {
T* operator&() { return &entry; } entry = v;
T* operator->() { return &entry; } return *this;
}
T* operator&() { return &entry; }
T* operator->() { return &entry; }
operator const T&() const { return entry; } operator const T&() const { return entry; }
void operator<<(int bonus) { void operator<<(int bonus) {
@@ -92,28 +95,53 @@ class StatsEntry {
} }
}; };
template<typename T, int D, std::size_t Size, std::size_t... Sizes>
struct StatsHelper;
// Stats is a generic N-dimensional array used to store various statistics. // Stats is a generic N-dimensional array used to store various statistics.
// The first template parameter T is the base type of the array, and the second // The first template parameter T is the base type of the array, and the second
// template parameter D limits the range of updates in [-D, D] when we update // template parameter D limits the range of updates in [-D, D] when we update
// values with the << operator, while the last parameters (Size and Sizes) // values with the << operator, while the last parameters (Size and Sizes)
// encode the dimensions of the array. // encode the dimensions of the array.
template<typename T, int D, int Size, int... Sizes> template<typename T, int D, std::size_t Size, std::size_t... Sizes>
struct Stats: public std::array<Stats<T, D, Sizes...>, Size> { class Stats {
using stats = Stats<T, D, Size, Sizes...>; using child_type = typename StatsHelper<T, D, Size, Sizes...>::child_type;
using array_type = std::array<child_type, Size>;
array_type data;
public:
using size_type = typename array_type::size_type;
auto& operator[](size_type index) { return data[index]; }
const auto& operator[](size_type index) const { return data[index]; }
auto begin() { return data.begin(); }
auto end() { return data.end(); }
auto begin() const { return data.cbegin(); }
auto end() const { return data.cend(); }
auto cbegin() const { return data.cbegin(); }
auto cend() const { return data.cend(); }
void fill(const T& v) { void fill(const T& v) {
for (auto& ele : data)
// For standard-layout 'this' points to the first struct member {
assert(std::is_standard_layout_v<stats>); if constexpr (sizeof...(Sizes) == 0)
ele = v;
using entry = StatsEntry<T, D>; else
entry* p = reinterpret_cast<entry*>(this); ele.fill(v);
std::fill(p, p + sizeof(*this) / sizeof(entry), v); }
} }
}; };
template<typename T, int D, int Size> template<typename T, int D, std::size_t Size, std::size_t... Sizes>
struct Stats<T, D, Size>: public std::array<StatsEntry<T, D>, Size> {}; struct StatsHelper {
using child_type = Stats<T, D, Sizes...>;
};
template<typename T, int D, std::size_t Size>
struct StatsHelper<T, D, Size> {
using child_type = StatsEntry<T, D>;
};
// In stats table, D=0 means that the template parameter is not used // In stats table, D=0 means that the template parameter is not used
enum StatsParams { enum StatsParams {
src/movepick.cpp
-1
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@@ -18,7 +18,6 @@
#include "movepick.h" #include "movepick.h"
#include <array>
#include <cassert> #include <cassert>
#include <limits> #include <limits>