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BadFish/src/misc.cpp
Disservin a105978bbd remove blank line between function and it's description 
- remove the blank line between the declaration of the function and it's
  comment, leads to better IDE support when hovering over a function to see it's
  description
- remove the unnecessary duplication of the function name in the functions
  description
- slightly refactored code for lsb, msb in bitboard.h There are still a few
  things we can be improved later on, move the description of a function where
  it was declared (instead of implemented) and add descriptions to functions
  which are behind macros ifdefs

closes https://github.com/official-stockfish/Stockfish/pull/4840

No functional change
2023-10-23 20:39:48 +02:00

773 lines
22 KiB
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/*
Stockfish, a UCI chess playing engine derived from Glaurung 2.1
Copyright (C) 2004-2023 The Stockfish developers (see AUTHORS file)
Stockfish is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
Stockfish is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "misc.h"
#ifdef _WIN32
#if _WIN32_WINNT < 0x0601
#undef _WIN32_WINNT
#define _WIN32_WINNT 0x0601 // Force to include needed API prototypes
#endif
#ifndef NOMINMAX
#define NOMINMAX
#endif
#include <windows.h>
// The needed Windows API for processor groups could be missed from old Windows
// versions, so instead of calling them directly (forcing the linker to resolve
// the calls at compile time), try to load them at runtime. To do this we need
// first to define the corresponding function pointers.
extern "C" {
using fun1_t = bool (*)(LOGICAL_PROCESSOR_RELATIONSHIP,
PSYSTEM_LOGICAL_PROCESSOR_INFORMATION_EX,
PDWORD);
using fun2_t = bool (*)(USHORT, PGROUP_AFFINITY);
using fun3_t = bool (*)(HANDLE, CONST GROUP_AFFINITY*, PGROUP_AFFINITY);
using fun4_t = bool (*)(USHORT, PGROUP_AFFINITY, USHORT, PUSHORT);
using fun5_t = WORD (*)();
using fun6_t = bool (*)(HANDLE, DWORD, PHANDLE);
using fun7_t = bool (*)(LPCSTR, LPCSTR, PLUID);
using fun8_t = bool (*)(HANDLE, BOOL, PTOKEN_PRIVILEGES, DWORD, PTOKEN_PRIVILEGES, PDWORD);
}
#endif
#include <atomic>
#include <cmath>
#include <cstdlib>
#include <fstream>
#include <iomanip>
#include <iostream>
#include <mutex>
#include <sstream>
#include <string_view>
#include "types.h"
#if defined(__linux__) && !defined(__ANDROID__)
#include <sys/mman.h>
#endif
#if defined(__APPLE__) || defined(__ANDROID__) || defined(__OpenBSD__) \
|| (defined(__GLIBCXX__) && !defined(_GLIBCXX_HAVE_ALIGNED_ALLOC) && !defined(_WIN32)) \
|| defined(__e2k__)
#define POSIXALIGNEDALLOC
#include <stdlib.h>
#endif
namespace Stockfish {
namespace {
// Version number or dev.
constexpr std::string_view version = "dev";
// Our fancy logging facility. The trick here is to replace cin.rdbuf() and
// cout.rdbuf() with two Tie objects that tie cin and cout to a file stream. We
// can toggle the logging of std::cout and std:cin at runtime whilst preserving
// usual I/O functionality, all without changing a single line of code!
// Idea from http://groups.google.com/group/comp.lang.c++/msg/1d941c0f26ea0d81
struct Tie: public std::streambuf { // MSVC requires split streambuf for cin and cout
Tie(std::streambuf* b, std::streambuf* l) :
buf(b),
logBuf(l) {}
int sync() override { return logBuf->pubsync(), buf->pubsync(); }
int overflow(int c) override { return log(buf->sputc(char(c)), "<< "); }
int underflow() override { return buf->sgetc(); }
int uflow() override { return log(buf->sbumpc(), ">> "); }
std::streambuf *buf, *logBuf;
int log(int c, const char* prefix) {
static int last = '\n'; // Single log file
if (last == '\n')
logBuf->sputn(prefix, 3);
return last = logBuf->sputc(char(c));
}
};
class Logger {
Logger() :
in(std::cin.rdbuf(), file.rdbuf()),
out(std::cout.rdbuf(), file.rdbuf()) {}
~Logger() { start(""); }
std::ofstream file;
Tie in, out;
public:
static void start(const std::string& fname) {
static Logger l;
if (l.file.is_open())
{
std::cout.rdbuf(l.out.buf);
std::cin.rdbuf(l.in.buf);
l.file.close();
}
if (!fname.empty())
{
l.file.open(fname, std::ifstream::out);
if (!l.file.is_open())
{
std::cerr << "Unable to open debug log file " << fname << std::endl;
exit(EXIT_FAILURE);
}
std::cin.rdbuf(&l.in);
std::cout.rdbuf(&l.out);
}
}
};
} // namespace
// Returns the full name of the current Stockfish version.
// For local dev compiles we try to append the commit sha and commit date
// from git if that fails only the local compilation date is set and "nogit" is specified:
// Stockfish dev-YYYYMMDD-SHA
// or
// Stockfish dev-YYYYMMDD-nogit
//
// For releases (non-dev builds) we only include the version number:
// Stockfish version
std::string engine_info(bool to_uci) {
std::stringstream ss;
ss << "Stockfish " << version << std::setfill('0');
if constexpr (version == "dev")
{
ss << "-";
#ifdef GIT_DATE
ss << stringify(GIT_DATE);
#else
constexpr std::string_view months("Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec");
std::string month, day, year;
std::stringstream date(__DATE__); // From compiler, format is "Sep 21 2008"
date >> month >> day >> year;
ss << year << std::setw(2) << std::setfill('0') << (1 + months.find(month) / 4)
<< std::setw(2) << std::setfill('0') << day;
#endif
ss << "-";
#ifdef GIT_SHA
ss << stringify(GIT_SHA);
#else
ss << "nogit";
#endif
}
ss << (to_uci ? "\nid author " : " by ") << "the Stockfish developers (see AUTHORS file)";
return ss.str();
}
// Returns a string trying to describe the compiler we use
std::string compiler_info() {
#define make_version_string(major, minor, patch) \
stringify(major) "." stringify(minor) "." stringify(patch)
// Predefined macros hell:
//
// __GNUC__ Compiler is GCC, Clang or ICX
// __clang__ Compiler is Clang or ICX
// __INTEL_LLVM_COMPILER Compiler is ICX
// _MSC_VER Compiler is MSVC
// _WIN32 Building on Windows (any)
// _WIN64 Building on Windows 64 bit
std::string compiler = "\nCompiled by : ";
#if defined(__INTEL_LLVM_COMPILER)
compiler += "ICX ";
compiler += stringify(__INTEL_LLVM_COMPILER);
#elif defined(__clang__)
compiler += "clang++ ";
compiler += make_version_string(__clang_major__, __clang_minor__, __clang_patchlevel__);
#elif _MSC_VER
compiler += "MSVC ";
compiler += "(version ";
compiler += stringify(_MSC_FULL_VER) "." stringify(_MSC_BUILD);
compiler += ")";
#elif defined(__e2k__) && defined(__LCC__)
#define dot_ver2(n) \
compiler += char('.'); \
compiler += char('0' + (n) / 10); \
compiler += char('0' + (n) % 10);
compiler += "MCST LCC ";
compiler += "(version ";
compiler += std::to_string(__LCC__ / 100);
dot_ver2(__LCC__ % 100) dot_ver2(__LCC_MINOR__) compiler += ")";
#elif __GNUC__
compiler += "g++ (GNUC) ";
compiler += make_version_string(__GNUC__, __GNUC_MINOR__, __GNUC_PATCHLEVEL__);
#else
compiler += "Unknown compiler ";
compiler += "(unknown version)";
#endif
#if defined(__APPLE__)
compiler += " on Apple";
#elif defined(__CYGWIN__)
compiler += " on Cygwin";
#elif defined(__MINGW64__)
compiler += " on MinGW64";
#elif defined(__MINGW32__)
compiler += " on MinGW32";
#elif defined(__ANDROID__)
compiler += " on Android";
#elif defined(__linux__)
compiler += " on Linux";
#elif defined(_WIN64)
compiler += " on Microsoft Windows 64-bit";
#elif defined(_WIN32)
compiler += " on Microsoft Windows 32-bit";
#else
compiler += " on unknown system";
#endif
compiler += "\nCompilation architecture : ";
#if defined(ARCH)
compiler += stringify(ARCH);
#else
compiler += "(undefined architecture)";
#endif
compiler += "\nCompilation settings : ";
compiler += (Is64Bit ? "64bit" : "32bit");
#if defined(USE_VNNI)
compiler += " VNNI";
#endif
#if defined(USE_AVX512)
compiler += " AVX512";
#endif
compiler += (HasPext ? " BMI2" : "");
#if defined(USE_AVX2)
compiler += " AVX2";
#endif
#if defined(USE_SSE41)
compiler += " SSE41";
#endif
#if defined(USE_SSSE3)
compiler += " SSSE3";
#endif
#if defined(USE_SSE2)
compiler += " SSE2";
#endif
compiler += (HasPopCnt ? " POPCNT" : "");
#if defined(USE_NEON_DOTPROD)
compiler += " NEON_DOTPROD";
#elif defined(USE_NEON)
compiler += " NEON";
#endif
#if !defined(NDEBUG)
compiler += " DEBUG";
#endif
compiler += "\nCompiler __VERSION__ macro : ";
#ifdef __VERSION__
compiler += __VERSION__;
#else
compiler += "(undefined macro)";
#endif
compiler += "\n";
return compiler;
}
// Debug functions used mainly to collect run-time statistics
constexpr int MaxDebugSlots = 32;
namespace {
template<size_t N>
struct DebugInfo {
std::atomic<int64_t> data[N] = {0};
constexpr inline std::atomic<int64_t>& operator[](int index) { return data[index]; }
};
DebugInfo<2> hit[MaxDebugSlots];
DebugInfo<2> mean[MaxDebugSlots];
DebugInfo<3> stdev[MaxDebugSlots];
DebugInfo<6> correl[MaxDebugSlots];
} // namespace
void dbg_hit_on(bool cond, int slot) {
++hit[slot][0];
if (cond)
++hit[slot][1];
}
void dbg_mean_of(int64_t value, int slot) {
++mean[slot][0];
mean[slot][1] += value;
}
void dbg_stdev_of(int64_t value, int slot) {
++stdev[slot][0];
stdev[slot][1] += value;
stdev[slot][2] += value * value;
}
void dbg_correl_of(int64_t value1, int64_t value2, int slot) {
++correl[slot][0];
correl[slot][1] += value1;
correl[slot][2] += value1 * value1;
correl[slot][3] += value2;
correl[slot][4] += value2 * value2;
correl[slot][5] += value1 * value2;
}
void dbg_print() {
int64_t n;
auto E = [&n](int64_t x) { return double(x) / n; };
auto sqr = [](double x) { return x * x; };
for (int i = 0; i < MaxDebugSlots; ++i)
if ((n = hit[i][0]))
std::cerr << "Hit #" << i << ": Total " << n << " Hits " << hit[i][1]
<< " Hit Rate (%) " << 100.0 * E(hit[i][1]) << std::endl;
for (int i = 0; i < MaxDebugSlots; ++i)
if ((n = mean[i][0]))
{
std::cerr << "Mean #" << i << ": Total " << n << " Mean " << E(mean[i][1]) << std::endl;
}
for (int i = 0; i < MaxDebugSlots; ++i)
if ((n = stdev[i][0]))
{
double r = sqrt(E(stdev[i][2]) - sqr(E(stdev[i][1])));
std::cerr << "Stdev #" << i << ": Total " << n << " Stdev " << r << std::endl;
}
for (int i = 0; i < MaxDebugSlots; ++i)
if ((n = correl[i][0]))
{
double r = (E(correl[i][5]) - E(correl[i][1]) * E(correl[i][3]))
/ (sqrt(E(correl[i][2]) - sqr(E(correl[i][1])))
* sqrt(E(correl[i][4]) - sqr(E(correl[i][3]))));
std::cerr << "Correl. #" << i << ": Total " << n << " Coefficient " << r << std::endl;
}
}
// Used to serialize access to std::cout to avoid multiple threads writing at
// the same time.
std::ostream& operator<<(std::ostream& os, SyncCout sc) {
static std::mutex m;
if (sc == IO_LOCK)
m.lock();
if (sc == IO_UNLOCK)
m.unlock();
return os;
}
// Trampoline helper to avoid moving Logger to misc.h
void start_logger(const std::string& fname) { Logger::start(fname); }
#ifdef NO_PREFETCH
void prefetch(void*) {}
#else
void prefetch(void* addr) {
#if defined(_MSC_VER)
_mm_prefetch((char*) addr, _MM_HINT_T0);
#else
__builtin_prefetch(addr);
#endif
}
#endif
// Wrapper for systems where the c++17 implementation
// does not guarantee the availability of aligned_alloc(). Memory allocated with
// std_aligned_alloc() must be freed with std_aligned_free().
void* std_aligned_alloc(size_t alignment, size_t size) {
#if defined(POSIXALIGNEDALLOC)
void* mem;
return posix_memalign(&mem, alignment, size) ? nullptr : mem;
#elif defined(_WIN32) && !defined(_M_ARM) && !defined(_M_ARM64)
return _mm_malloc(size, alignment);
#elif defined(_WIN32)
return _aligned_malloc(size, alignment);
#else
return std::aligned_alloc(alignment, size);
#endif
}
void std_aligned_free(void* ptr) {
#if defined(POSIXALIGNEDALLOC)
free(ptr);
#elif defined(_WIN32) && !defined(_M_ARM) && !defined(_M_ARM64)
_mm_free(ptr);
#elif defined(_WIN32)
_aligned_free(ptr);
#else
free(ptr);
#endif
}
// aligned_large_pages_alloc() will return suitably aligned memory, if possible using large pages.
#if defined(_WIN32)
static void* aligned_large_pages_alloc_windows([[maybe_unused]] size_t allocSize) {
#if !defined(_WIN64)
return nullptr;
#else
HANDLE hProcessToken{};
LUID luid{};
void* mem = nullptr;
const size_t largePageSize = GetLargePageMinimum();
if (!largePageSize)
return nullptr;
// Dynamically link OpenProcessToken, LookupPrivilegeValue and AdjustTokenPrivileges
HMODULE hAdvapi32 = GetModuleHandle(TEXT("advapi32.dll"));
if (!hAdvapi32)
hAdvapi32 = LoadLibrary(TEXT("advapi32.dll"));
auto fun6 = fun6_t((void (*)()) GetProcAddress(hAdvapi32, "OpenProcessToken"));
if (!fun6)
return nullptr;
auto fun7 = fun7_t((void (*)()) GetProcAddress(hAdvapi32, "LookupPrivilegeValueA"));
if (!fun7)
return nullptr;
auto fun8 = fun8_t((void (*)()) GetProcAddress(hAdvapi32, "AdjustTokenPrivileges"));
if (!fun8)
return nullptr;
// We need SeLockMemoryPrivilege, so try to enable it for the process
if (!fun6( // OpenProcessToken()
GetCurrentProcess(), TOKEN_ADJUST_PRIVILEGES | TOKEN_QUERY, &hProcessToken))
return nullptr;
if (fun7( // LookupPrivilegeValue(nullptr, SE_LOCK_MEMORY_NAME, &luid)
nullptr, "SeLockMemoryPrivilege", &luid))
{
TOKEN_PRIVILEGES tp{};
TOKEN_PRIVILEGES prevTp{};
DWORD prevTpLen = 0;
tp.PrivilegeCount = 1;
tp.Privileges[0].Luid = luid;
tp.Privileges[0].Attributes = SE_PRIVILEGE_ENABLED;
// Try to enable SeLockMemoryPrivilege. Note that even if AdjustTokenPrivileges() succeeds,
// we still need to query GetLastError() to ensure that the privileges were actually obtained.
if (fun8( // AdjustTokenPrivileges()
hProcessToken, FALSE, &tp, sizeof(TOKEN_PRIVILEGES), &prevTp, &prevTpLen)
&& GetLastError() == ERROR_SUCCESS)
{
// Round up size to full pages and allocate
allocSize = (allocSize + largePageSize - 1) & ~size_t(largePageSize - 1);
mem = VirtualAlloc(nullptr, allocSize, MEM_RESERVE | MEM_COMMIT | MEM_LARGE_PAGES,
PAGE_READWRITE);
// Privilege no longer needed, restore previous state
fun8( // AdjustTokenPrivileges ()
hProcessToken, FALSE, &prevTp, 0, nullptr, nullptr);
}
}
CloseHandle(hProcessToken);
return mem;
#endif
}
void* aligned_large_pages_alloc(size_t allocSize) {
// Try to allocate large pages
void* mem = aligned_large_pages_alloc_windows(allocSize);
// Fall back to regular, page-aligned, allocation if necessary
if (!mem)
mem = VirtualAlloc(nullptr, allocSize, MEM_RESERVE | MEM_COMMIT, PAGE_READWRITE);
return mem;
}
#else
void* aligned_large_pages_alloc(size_t allocSize) {
#if defined(__linux__)
constexpr size_t alignment = 2 * 1024 * 1024; // assumed 2MB page size
#else
constexpr size_t alignment = 4096; // assumed small page size
#endif
// round up to multiples of alignment
size_t size = ((allocSize + alignment - 1) / alignment) * alignment;
void* mem = std_aligned_alloc(alignment, size);
#if defined(MADV_HUGEPAGE)
madvise(mem, size, MADV_HUGEPAGE);
#endif
return mem;
}
#endif
// aligned_large_pages_free() will free the previously allocated ttmem
#if defined(_WIN32)
void aligned_large_pages_free(void* mem) {
if (mem && !VirtualFree(mem, 0, MEM_RELEASE))
{
DWORD err = GetLastError();
std::cerr << "Failed to free large page memory. Error code: 0x" << std::hex << err
<< std::dec << std::endl;
exit(EXIT_FAILURE);
}
}
#else
void aligned_large_pages_free(void* mem) { std_aligned_free(mem); }
#endif
namespace WinProcGroup {
#ifndef _WIN32
void bindThisThread(size_t) {}
#else
// Retrieves logical processor information using Windows specific
// API and returns the best node id for the thread with index idx. Original
// code from Texel by Peter Österlund.
static int best_node(size_t idx) {
int threads = 0;
int nodes = 0;
int cores = 0;
DWORD returnLength = 0;
DWORD byteOffset = 0;
// Early exit if the needed API is not available at runtime
HMODULE k32 = GetModuleHandle(TEXT("Kernel32.dll"));
auto fun1 = (fun1_t) (void (*)()) GetProcAddress(k32, "GetLogicalProcessorInformationEx");
if (!fun1)
return -1;
// First call to GetLogicalProcessorInformationEx() to get returnLength.
// We expect the call to fail due to null buffer.
if (fun1(RelationAll, nullptr, &returnLength))
return -1;
// Once we know returnLength, allocate the buffer
SYSTEM_LOGICAL_PROCESSOR_INFORMATION_EX *buffer, *ptr;
ptr = buffer = (SYSTEM_LOGICAL_PROCESSOR_INFORMATION_EX*) malloc(returnLength);
// Second call to GetLogicalProcessorInformationEx(), now we expect to succeed
if (!fun1(RelationAll, buffer, &returnLength))
{
free(buffer);
return -1;
}
while (byteOffset < returnLength)
{
if (ptr->Relationship == RelationNumaNode)
nodes++;
else if (ptr->Relationship == RelationProcessorCore)
{
cores++;
threads += (ptr->Processor.Flags == LTP_PC_SMT) ? 2 : 1;
}
assert(ptr->Size);
byteOffset += ptr->Size;
ptr = (SYSTEM_LOGICAL_PROCESSOR_INFORMATION_EX*) (((char*) ptr) + ptr->Size);
}
free(buffer);
std::vector<int> groups;
// Run as many threads as possible on the same node until the core limit is
// reached, then move on to filling the next node.
for (int n = 0; n < nodes; n++)
for (int i = 0; i < cores / nodes; i++)
groups.push_back(n);
// In case a core has more than one logical processor (we assume 2) and we
// have still threads to allocate, then spread them evenly across available
// nodes.
for (int t = 0; t < threads - cores; t++)
groups.push_back(t % nodes);
// If we still have more threads than the total number of logical processors
// then return -1 and let the OS to decide what to do.
return idx < groups.size() ? groups[idx] : -1;
}
// Sets the group affinity of the current thread
void bindThisThread(size_t idx) {
// Use only local variables to be thread-safe
int node = best_node(idx);
if (node == -1)
return;
// Early exit if the needed API are not available at runtime
HMODULE k32 = GetModuleHandle(TEXT("Kernel32.dll"));
auto fun2 = fun2_t((void (*)()) GetProcAddress(k32, "GetNumaNodeProcessorMaskEx"));
auto fun3 = fun3_t((void (*)()) GetProcAddress(k32, "SetThreadGroupAffinity"));
auto fun4 = fun4_t((void (*)()) GetProcAddress(k32, "GetNumaNodeProcessorMask2"));
auto fun5 = fun5_t((void (*)()) GetProcAddress(k32, "GetMaximumProcessorGroupCount"));
if (!fun2 || !fun3)
return;
if (!fun4 || !fun5)
{
GROUP_AFFINITY affinity;
if (fun2(node, &affinity)) // GetNumaNodeProcessorMaskEx
fun3(GetCurrentThread(), &affinity, nullptr); // SetThreadGroupAffinity
}
else
{
// If a numa node has more than one processor group, we assume they are
// sized equal and we spread threads evenly across the groups.
USHORT elements, returnedElements;
elements = fun5(); // GetMaximumProcessorGroupCount
GROUP_AFFINITY* affinity = (GROUP_AFFINITY*) malloc(elements * sizeof(GROUP_AFFINITY));
if (fun4(node, affinity, elements, &returnedElements)) // GetNumaNodeProcessorMask2
fun3(GetCurrentThread(), &affinity[idx % returnedElements],
nullptr); // SetThreadGroupAffinity
free(affinity);
}
}
#endif
} // namespace WinProcGroup
#ifdef _WIN32
#include <direct.h>
#define GETCWD _getcwd
#else
#include <unistd.h>
#define GETCWD getcwd
#endif
namespace CommandLine {
std::string argv0; // path+name of the executable binary, as given by argv[0]
std::string binaryDirectory; // path of the executable directory
std::string workingDirectory; // path of the working directory
void init([[maybe_unused]] int argc, char* argv[]) {
std::string pathSeparator;
// extract the path+name of the executable binary
argv0 = argv[0];
#ifdef _WIN32
pathSeparator = "\\";
#ifdef _MSC_VER
// Under windows argv[0] may not have the extension. Also _get_pgmptr() had
// issues in some Windows 10 versions, so check returned values carefully.
char* pgmptr = nullptr;
if (!_get_pgmptr(&pgmptr) && pgmptr != nullptr && *pgmptr)
argv0 = pgmptr;
#endif
#else
pathSeparator = "/";
#endif
// extract the working directory
workingDirectory = "";
char buff[40000];
char* cwd = GETCWD(buff, 40000);
if (cwd)
workingDirectory = cwd;
// extract the binary directory path from argv0
binaryDirectory = argv0;
size_t pos = binaryDirectory.find_last_of("\\/");
if (pos == std::string::npos)
binaryDirectory = "." + pathSeparator;
else
binaryDirectory.resize(pos + 1);
// pattern replacement: "./" at the start of path is replaced by the working directory
if (binaryDirectory.find("." + pathSeparator) == 0)
binaryDirectory.replace(0, 1, workingDirectory);
}
} // namespace CommandLine
} // namespace Stockfish
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