# Stockfish, a UCI chess playing engine derived from Glaurung 2.1
- # Copyright (C) 2004-2022 The Stockfish developers (see AUTHORS file)
+ # 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
SRCS = benchmark.cpp bitbase.cpp bitboard.cpp endgame.cpp evaluate.cpp main.cpp \
material.cpp misc.cpp movegen.cpp movepick.cpp pawns.cpp position.cpp psqt.cpp \
search.cpp thread.cpp timeman.cpp tt.cpp uci.cpp ucioption.cpp tune.cpp syzygy/tbprobe.cpp \
- nnue/evaluate_nnue.cpp nnue/features/half_ka_v2_hm.cpp
+ nnue/evaluate_nnue.cpp nnue/features/half_ka_v2_hm.cpp \
+ hashprobe.grpc.pb.cc hashprobe.pb.cc
+CLISRCS = client.cpp hashprobe.grpc.pb.cc hashprobe.pb.cc uci.cpp
OBJS = $(notdir $(SRCS:.cpp=.o))
+CLIOBJS = $(notdir $(CLISRCS:.cpp=.o))
VPATH = syzygy:nnue:nnue/features
### Section 2. High-level Configuration
### ==========================================================================
#
- # flag --- Comp switch --- Description
+ # flag --- Comp switch --- Description
# ----------------------------------------------------------------------------
#
- # debug = yes/no --- -DNDEBUG --- Enable/Disable debug mode
+ # debug = yes/no --- -DNDEBUG --- Enable/Disable debug mode
# sanitize = none/<sanitizer> ... (-fsanitize )
- # --- ( undefined ) --- enable undefined behavior checks
- # --- ( thread ) --- enable threading error checks
- # --- ( address ) --- enable memory access checks
- # --- ...etc... --- see compiler documentation for supported sanitizers
- # optimize = yes/no --- (-O3/-fast etc.) --- Enable/Disable optimizations
- # arch = (name) --- (-arch) --- Target architecture
- # bits = 64/32 --- -DIS_64BIT --- 64-/32-bit operating system
- # prefetch = yes/no --- -DUSE_PREFETCH --- Use prefetch asm-instruction
- # popcnt = yes/no --- -DUSE_POPCNT --- Use popcnt asm-instruction
- # pext = yes/no --- -DUSE_PEXT --- Use pext x86_64 asm-instruction
- # sse = yes/no --- -msse --- Use Intel Streaming SIMD Extensions
- # mmx = yes/no --- -mmmx --- Use Intel MMX instructions
- # sse2 = yes/no --- -msse2 --- Use Intel Streaming SIMD Extensions 2
- # ssse3 = yes/no --- -mssse3 --- Use Intel Supplemental Streaming SIMD Extensions 3
- # sse41 = yes/no --- -msse4.1 --- Use Intel Streaming SIMD Extensions 4.1
- # avx2 = yes/no --- -mavx2 --- Use Intel Advanced Vector Extensions 2
- # avxvnni = yes/no --- -mavxvnni --- Use Intel Vector Neural Network Instructions AVX
- # avx512 = yes/no --- -mavx512bw --- Use Intel Advanced Vector Extensions 512
- # vnni256 = yes/no --- -mavx512vnni --- Use Intel Vector Neural Network Instructions 256
- # vnni512 = yes/no --- -mavx512vnni --- Use Intel Vector Neural Network Instructions 512
- # neon = yes/no --- -DUSE_NEON --- Use ARM SIMD architecture
+ # --- ( undefined ) --- enable undefined behavior checks
+ # --- ( thread ) --- enable threading error checks
+ # --- ( address ) --- enable memory access checks
+ # --- ...etc... --- see compiler documentation for supported sanitizers
+ # optimize = yes/no --- (-O3/-fast etc.) --- Enable/Disable optimizations
+ # arch = (name) --- (-arch) --- Target architecture
+ # bits = 64/32 --- -DIS_64BIT --- 64-/32-bit operating system
+ # prefetch = yes/no --- -DUSE_PREFETCH --- Use prefetch asm-instruction
+ # popcnt = yes/no --- -DUSE_POPCNT --- Use popcnt asm-instruction
+ # pext = yes/no --- -DUSE_PEXT --- Use pext x86_64 asm-instruction
+ # sse = yes/no --- -msse --- Use Intel Streaming SIMD Extensions
+ # mmx = yes/no --- -mmmx --- Use Intel MMX instructions
+ # sse2 = yes/no --- -msse2 --- Use Intel Streaming SIMD Extensions 2
+ # ssse3 = yes/no --- -mssse3 --- Use Intel Supplemental Streaming SIMD Extensions 3
+ # sse41 = yes/no --- -msse4.1 --- Use Intel Streaming SIMD Extensions 4.1
+ # avx2 = yes/no --- -mavx2 --- Use Intel Advanced Vector Extensions 2
+ # avxvnni = yes/no --- -mavxvnni --- Use Intel Vector Neural Network Instructions AVX
+ # avx512 = yes/no --- -mavx512bw --- Use Intel Advanced Vector Extensions 512
+ # vnni256 = yes/no --- -mavx256vnni --- Use Intel Vector Neural Network Instructions 512 with 256bit operands
+ # vnni512 = yes/no --- -mavx512vnni --- Use Intel Vector Neural Network Instructions 512
+ # neon = yes/no --- -DUSE_NEON --- Use ARM SIMD architecture
+ # dotprod = yes/no --- -DUSE_NEON_DOTPROD --- Use ARM advanced SIMD Int8 dot product instructions
#
# Note that Makefile is space sensitive, so when adding new architectures
# or modifying existing flags, you have to make sure there are no extra spaces
x86-64-vnni512 x86-64-vnni256 x86-64-avx512 x86-64-avxvnni x86-64-bmi2 \
x86-64-avx2 x86-64-sse41-popcnt x86-64-modern x86-64-ssse3 x86-64-sse3-popcnt \
x86-64 x86-32-sse41-popcnt x86-32-sse2 x86-32 ppc-64 ppc-32 e2k \
- armv7 armv7-neon armv8 apple-silicon general-64 general-32 riscv64))
+ armv7 armv7-neon armv8 armv8-dotprod apple-silicon general-64 general-32 riscv64))
SUPPORTED_ARCH=true
else
SUPPORTED_ARCH=false
vnni256 = no
vnni512 = no
neon = no
+ dotprod = no
arm_version = 0
STRIP = strip
arm_version = 8
endif
+ ifeq ($(ARCH),armv8-dotprod)
+ arch = armv8
+ prefetch = yes
+ popcnt = yes
+ neon = yes
+ dotprod = yes
+ arm_version = 8
+ endif
+
ifeq ($(ARCH),apple-silicon)
arch = arm64
prefetch = yes
popcnt = yes
neon = yes
+ dotprod = yes
arm_version = 8
endif
ifeq ($(COMP),gcc)
comp=gcc
CXX=g++
- CXXFLAGS += -pedantic -Wextra
- CXXFLAGS += -pedantic -Wextra -Wshadow -Wmissing-declarations
++ CXXFLAGS += -pedantic -Wextra -Wmissing-declarations
ifeq ($(arch),$(filter $(arch),armv7 armv8 riscv64))
ifeq ($(OS),Android)
CXX=i686-w64-mingw32-c++-posix
endif
endif
- CXXFLAGS += -pedantic -Wextra -Wshadow
+ CXXFLAGS += -pedantic -Wextra -Wshadow -Wmissing-declarations
endif
- ifeq ($(COMP),icc)
- comp=icc
- CXX=icpc
- CXXFLAGS += -diag-disable 1476,10120 -Wcheck -Wabi -Wdeprecated -strict-ansi
+ ifeq ($(COMP),icx)
+ comp=icx
+ CXX=icpx
+ CXXFLAGS += --intel -pedantic -Wextra -Wshadow -Wmissing-prototypes \
+ -Wconditional-uninitialized -Wabi -Wdeprecated
endif
ifeq ($(COMP),clang)
CXX=x86_64-w64-mingw32-clang++
endif
- CXXFLAGS += -pedantic -Wextra -Wshadow
+ CXXFLAGS += -pedantic -Wextra -Wshadow -Wmissing-prototypes \
+ -Wconditional-uninitialized
ifeq ($(filter $(KERNEL),Darwin OpenBSD FreeBSD),)
ifeq ($(target_windows),)
LDFLAGS += -static-libstdc++ -pie -lm -latomic
endif
- ifeq ($(comp),icc)
- profile_make = icc-profile-make
- profile_use = icc-profile-use
+ ifeq ($(comp),icx)
+ profile_make = icx-profile-make
+ profile_use = icx-profile-use
else ifeq ($(comp),clang)
profile_make = clang-profile-make
profile_use = clang-profile-use
### 3.3 Optimization
ifeq ($(optimize),yes)
- CXXFLAGS += -O3
+ CXXFLAGS += -O3 -g
ifeq ($(comp),gcc)
ifeq ($(OS), Android)
endif
ifeq ($(KERNEL),Darwin)
- ifeq ($(comp),$(filter $(comp),clang icc))
+ ifeq ($(comp),$(filter $(comp),clang icx))
CXXFLAGS += -mdynamic-no-pic
endif
endif
ifeq ($(comp),clang)
- CXXFLAGS += -fexperimental-new-pass-manager
+ clangmajorversion = $(shell $(CXX) -dumpversion 2>/dev/null | cut -f1 -d.)
+ ifeq ($(shell expr $(clangmajorversion) \< 16),1)
+ CXXFLAGS += -fexperimental-new-pass-manager
+ endif
endif
endif
ifeq ($(popcnt),yes)
ifeq ($(arch),$(filter $(arch),ppc64 armv7 armv8 arm64))
CXXFLAGS += -DUSE_POPCNT
- else ifeq ($(comp),icc)
- CXXFLAGS += -msse3 -DUSE_POPCNT
else
CXXFLAGS += -msse3 -mpopcnt -DUSE_POPCNT
endif
### 3.6 SIMD architectures
ifeq ($(avx2),yes)
CXXFLAGS += -DUSE_AVX2
- ifeq ($(comp),$(filter $(comp),gcc clang mingw))
+ ifeq ($(comp),$(filter $(comp),gcc clang mingw icx))
CXXFLAGS += -mavx2 -mbmi
endif
endif
ifeq ($(avxvnni),yes)
CXXFLAGS += -DUSE_VNNI -DUSE_AVXVNNI
- ifeq ($(comp),$(filter $(comp),gcc clang mingw))
+ ifeq ($(comp),$(filter $(comp),gcc clang mingw icx))
CXXFLAGS += -mavxvnni
endif
endif
ifeq ($(avx512),yes)
CXXFLAGS += -DUSE_AVX512
- ifeq ($(comp),$(filter $(comp),gcc clang mingw))
+ ifeq ($(comp),$(filter $(comp),gcc clang mingw icx))
CXXFLAGS += -mavx512f -mavx512bw
endif
endif
ifeq ($(vnni256),yes)
CXXFLAGS += -DUSE_VNNI
- ifeq ($(comp),$(filter $(comp),gcc clang mingw))
+ ifeq ($(comp),$(filter $(comp),gcc clang mingw icx))
CXXFLAGS += -mavx512f -mavx512bw -mavx512vnni -mavx512dq -mavx512vl -mprefer-vector-width=256
endif
endif
ifeq ($(vnni512),yes)
CXXFLAGS += -DUSE_VNNI
- ifeq ($(comp),$(filter $(comp),gcc clang mingw))
- CXXFLAGS += -mavx512vnni -mavx512dq -mavx512vl
+ ifeq ($(comp),$(filter $(comp),gcc clang mingw icx))
+ CXXFLAGS += -mavx512f -mavx512bw -mavx512vnni -mavx512dq -mavx512vl -mprefer-vector-width=512
endif
endif
ifeq ($(sse41),yes)
CXXFLAGS += -DUSE_SSE41
- ifeq ($(comp),$(filter $(comp),gcc clang mingw))
+ ifeq ($(comp),$(filter $(comp),gcc clang mingw icx))
CXXFLAGS += -msse4.1
endif
endif
ifeq ($(ssse3),yes)
CXXFLAGS += -DUSE_SSSE3
- ifeq ($(comp),$(filter $(comp),gcc clang mingw))
+ ifeq ($(comp),$(filter $(comp),gcc clang mingw icx))
CXXFLAGS += -mssse3
endif
endif
ifeq ($(sse2),yes)
CXXFLAGS += -DUSE_SSE2
- ifeq ($(comp),$(filter $(comp),gcc clang mingw))
+ ifeq ($(comp),$(filter $(comp),gcc clang mingw icx))
CXXFLAGS += -msse2
endif
endif
ifeq ($(mmx),yes)
CXXFLAGS += -DUSE_MMX
- ifeq ($(comp),$(filter $(comp),gcc clang mingw))
+ ifeq ($(comp),$(filter $(comp),gcc clang mingw icx))
CXXFLAGS += -mmmx
endif
endif
endif
endif
+ ifeq ($(dotprod),yes)
+ CXXFLAGS += -march=armv8.2-a+dotprod -DUSE_NEON_DOTPROD
+ endif
+
### 3.7 pext
ifeq ($(pext),yes)
CXXFLAGS += -DUSE_PEXT
- ifeq ($(comp),$(filter $(comp),gcc clang mingw))
+ ifeq ($(comp),$(filter $(comp),gcc clang mingw icx))
CXXFLAGS += -mbmi2
endif
endif
### 3.7.1 Try to include git commit sha for versioning
GIT_SHA = $(shell git rev-parse --short HEAD 2>/dev/null)
ifneq ($(GIT_SHA), )
- CXXFLAGS += -DGIT_SHA=\"$(GIT_SHA)\"
+ CXXFLAGS += -DGIT_SHA=$(GIT_SHA)
endif
### 3.7.2 Try to include git commit date for versioning
GIT_DATE = $(shell git show -s --date=format:'%Y%m%d' --format=%cd HEAD 2>/dev/null)
ifneq ($(GIT_DATE), )
- CXXFLAGS += -DGIT_DATE=\"$(GIT_DATE)\"
+ CXXFLAGS += -DGIT_DATE=$(GIT_DATE)
endif
### 3.8 Link Time Optimization
### needs access to the optimization flags.
ifeq ($(optimize),yes)
ifeq ($(debug), no)
- ifeq ($(comp),clang)
+ ifeq ($(comp),$(filter $(comp),clang icx))
CXXFLAGS += -flto=full
+ ifeq ($(comp),icx)
+ CXXFLAGS += -fwhole-program-vtables
+ endif
ifeq ($(target_windows),yes)
CXXFLAGS += -fuse-ld=lld
endif
@echo ""
@echo "Supported archs:"
@echo ""
- @echo "x86-64-vnni512 > x86 64-bit with vnni support 512bit wide"
- @echo "x86-64-vnni256 > x86 64-bit with vnni support 256bit wide"
+ @echo "x86-64-vnni512 > x86 64-bit with vnni 512bit support"
+ @echo "x86-64-vnni256 > x86 64-bit with vnni 512bit support, limit operands to 256bit wide"
@echo "x86-64-avx512 > x86 64-bit with avx512 support"
- @echo "x86-64-avxvnni > x86 64-bit with avxvnni support"
+ @echo "x86-64-avxvnni > x86 64-bit with vnni 256bit support"
@echo "x86-64-bmi2 > x86 64-bit with bmi2 support"
@echo "x86-64-avx2 > x86 64-bit with avx2 support"
@echo "x86-64-sse41-popcnt > x86 64-bit with sse41 and popcnt support"
@echo "armv7 > ARMv7 32-bit"
@echo "armv7-neon > ARMv7 32-bit with popcnt and neon"
@echo "armv8 > ARMv8 64-bit with popcnt and neon"
+ @echo "armv8-dotprod > ARMv8 64-bit with popcnt, neon and dot product support"
@echo "e2k > Elbrus 2000"
@echo "apple-silicon > Apple silicon ARM64"
@echo "general-64 > unspecified 64-bit"
@echo "gcc > Gnu compiler (default)"
@echo "mingw > Gnu compiler with MinGW under Windows"
@echo "clang > LLVM Clang compiler"
- @echo "icc > Intel compiler"
+ @echo "icx > Intel oneAPI DPC++/C++ Compiler"
@echo "ndk > Google NDK to cross-compile for Android"
@echo ""
@echo "Simple examples. If you don't know what to do, you likely want to run one of: "
.PHONY: help build profile-build strip install clean net objclean profileclean \
- config-sanity icc-profile-use icc-profile-make gcc-profile-use gcc-profile-make \
- clang-profile-use clang-profile-make FORCE
+ config-sanity \
+ icx-profile-use icx-profile-make \
+ gcc-profile-use gcc-profile-make \
+ clang-profile-use clang-profile-make FORCE
build: net config-sanity
$(MAKE) ARCH=$(ARCH) COMP=$(COMP) all
### Section 5. Private Targets
### ==========================================================================
-all: $(EXE) .depend
+all: $(EXE) client .depend
config-sanity: net
@echo ""
@echo "vnni256: '$(vnni256)'"
@echo "vnni512: '$(vnni512)'"
@echo "neon: '$(neon)'"
+ @echo "dotprod: '$(dotprod)'"
@echo "arm_version: '$(arm_version)'"
+ @echo "target_windows: '$(target_windows)'"
@echo ""
@echo "Flags:"
@echo "CXX: $(CXX)"
@test "$(vnni256)" = "yes" || test "$(vnni256)" = "no"
@test "$(vnni512)" = "yes" || test "$(vnni512)" = "no"
@test "$(neon)" = "yes" || test "$(neon)" = "no"
- @test "$(comp)" = "gcc" || test "$(comp)" = "icc" || test "$(comp)" = "mingw" || test "$(comp)" = "clang" \
+ @test "$(comp)" = "gcc" || test "$(comp)" = "icx" || test "$(comp)" = "mingw" || test "$(comp)" = "clang" \
|| test "$(comp)" = "armv7a-linux-androideabi16-clang" || test "$(comp)" = "aarch64-linux-android21-clang"
$(EXE): $(OBJS)
EXTRALDFLAGS='-lgcov' \
all
- icc-profile-make:
- @mkdir -p profdir
+ icx-profile-make:
$(MAKE) ARCH=$(ARCH) COMP=$(COMP) \
- EXTRACXXFLAGS='-prof-gen=srcpos -prof_dir ./profdir' \
+ EXTRACXXFLAGS='-fprofile-instr-generate ' \
+ EXTRALDFLAGS=' -fprofile-instr-generate' \
all
- icc-profile-use:
+ icx-profile-use:
+ $(XCRUN) llvm-profdata merge -output=stockfish.profdata *.profraw
$(MAKE) ARCH=$(ARCH) COMP=$(COMP) \
- EXTRACXXFLAGS='-prof_use -prof_dir ./profdir' \
+ EXTRACXXFLAGS='-fprofile-instr-use=stockfish.profdata' \
+ EXTRALDFLAGS='-fprofile-use ' \
all
+### GRPC
+
+PROTOS_PATH = .
+PROTOC = protoc
+GRPC_CPP_PLUGIN = grpc_cpp_plugin
+GRPC_CPP_PLUGIN_PATH ?= `which $(GRPC_CPP_PLUGIN)`
+
+%.grpc.pb.h %.grpc.pb.cc: %.proto
+ $(PROTOC) -I $(PROTOS_PATH) --grpc_out=. --plugin=protoc-gen-grpc=$(GRPC_CPP_PLUGIN_PATH) $<
+
+# oh my
+%.cpp: %.cc
+ cp $< $@
+
+%.pb.h %.pb.cc: %.proto
+ $(PROTOC) -I $(PROTOS_PATH) --cpp_out=. $<
+
+#LDFLAGS += -Wl,-Bstatic -Wl,-\( -lprotobuf -lgrpc++_unsecure -lgrpc_unsecure -lgrpc -lz -Wl,-\) -Wl,-Bdynamic -ldl
+LDFLAGS += /usr/lib/x86_64-linux-gnu/libprotobuf.a /usr/lib/x86_64-linux-gnu/libgrpc++_unsecure.a /usr/lib/x86_64-linux-gnu/libgrpc_unsecure.a /usr/lib/x86_64-linux-gnu/libgrpc.a /usr/lib/x86_64-linux-gnu/libcares.a /usr/lib/x86_64-linux-gnu/libgpr.a /usr/lib/x86_64-linux-gnu/libabsl_str_format_internal.a /usr/lib/x86_64-linux-gnu/libabsl_strings.a /usr/lib/x86_64-linux-gnu/libabsl_flags_marshalling.a /usr/lib/x86_64-linux-gnu/libabsl_throw_delegate.a /usr/lib/x86_64-linux-gnu/libabsl_raw_logging_internal.a /usr/lib/x86_64-linux-gnu/libabsl_base.a /usr/lib/x86_64-linux-gnu/libabsl_int128.a /usr/lib/x86_64-linux-gnu/libabsl_bad_optional_access.a -ldl -lz
+#LDFLAGS += /usr/lib/x86_64-linux-gnu/libprotobuf.a /usr/lib/libgrpc++_unsecure.a /usr/lib/libgrpc_unsecure.a /usr/lib/libgrpc.a /usr/lib/x86_64-linux-gnu/libcares.a -ldl -lz
+
+client: $(CLIOBJS)
+ $(CXX) -o $@ $(CLIOBJS) $(LDFLAGS)
+
+# Other stuff
+
.depend: $(SRCS)
-@$(CXX) $(DEPENDFLAGS) -MM $(SRCS) > $@ 2> /dev/null
/*
Stockfish, a UCI chess playing engine derived from Glaurung 2.1
- Copyright (C) 2004-2022 The Stockfish developers (see AUTHORS file)
+ 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
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
+#include <deque>
#include <iostream>
+#include <stack>
+#include <thread>
#include "bitboard.h"
#include "endgame.h"
#include "tt.h"
#include "uci.h"
+#include <grpc/grpc.h>
+#include <grpc++/server.h>
+#include <grpc++/server_builder.h>
+#include "hashprobe.h"
+#include "hashprobe.grpc.pb.h"
+#include "tt.h"
+
+using grpc::Server;
+using grpc::ServerBuilder;
+using grpc::ServerContext;
+using grpc::Status;
+using grpc::StatusCode;
+using namespace hashprobe;
using namespace Stockfish;
- attackers &= ~SquareBB[s];
+Status HashProbeImpl::Probe(ServerContext* context,
+ const HashProbeRequest* request,
+ HashProbeResponse *response) {
+ Position pos;
+ StateInfo st;
+ pos.set(request->fen(), /*isChess960=*/false, &st, Threads.main());
+ if (!pos.pos_is_ok()) {
+ return Status(StatusCode::INVALID_ARGUMENT, "Invalid FEN");
+ }
+
+ bool invert = (pos.side_to_move() == BLACK);
+ StateListPtr setup_states = StateListPtr(new std::deque<StateInfo>(1));
+
+ ProbeMove(&pos, setup_states.get(), invert, response->mutable_root());
+
+ MoveList<LEGAL> moves(pos);
+ for (const ExtMove* em = moves.begin(); em != moves.end(); ++em) {
+ HashProbeLine *line = response->add_line();
+ FillMove(&pos, em->move, line->mutable_move());
+ setup_states->push_back(StateInfo());
+ pos.do_move(em->move, setup_states->back());
+ ProbeMove(&pos, setup_states.get(), !invert, line);
+ pos.undo_move(em->move);
+ }
+
+ return Status::OK;
+}
+
+void HashProbeImpl::FillMove(Position *pos, Move move, HashProbeMove* decoded) {
+ if (!is_ok(move)) return;
+
+ Square from = from_sq(move);
+ Square to = to_sq(move);
+
+ if (type_of(move) == CASTLING) {
+ to = make_square(to > from ? FILE_G : FILE_C, rank_of(from));
+ }
+
+ Piece moved_piece = pos->moved_piece(move);
+ std::string pretty;
+ if (type_of(move) == CASTLING) {
+ if (to > from) {
+ pretty = "O-O";
+ } else {
+ pretty = "O-O-O";
+ }
+ } else if (type_of(moved_piece) == PAWN) {
+ if (type_of(move) == EN_PASSANT || pos->piece_on(to) != NO_PIECE) {
+ // Capture.
+ pretty = char('a' + file_of(from));
+ pretty += "x";
+ }
+ pretty += UCI::square(to);
+ if (type_of(move) == PROMOTION) {
+ pretty += "=";
+ pretty += " PNBRQK"[promotion_type(move)];
+ }
+ } else {
+ pretty = " PNBRQK"[type_of(moved_piece)];
+ Bitboard attackers = pos->attackers_to(to) & pos->pieces(color_of(moved_piece), type_of(moved_piece));
+ if (more_than_one(attackers)) {
+ // Remove all illegal moves to disambiguate.
+ Bitboard att_copy = attackers;
+ while (att_copy) {
+ Square s = pop_lsb(att_copy);
+ Move m = make_move(s, to);
+ if (!pos->pseudo_legal(m) || !pos->legal(m)) {
++ attackers &= ~square_bb(s);
+ }
+ }
+ }
+ if (more_than_one(attackers)) {
+ // Disambiguate by file if possible.
+ Bitboard attackers_this_file = attackers & file_bb(file_of(from));
+ if (attackers != attackers_this_file) {
+ pretty += char('a' + file_of(from));
+ attackers = attackers_this_file;
+ }
+ if (more_than_one(attackers)) {
+ // Still ambiguous, so need to disambiguate by rank.
+ pretty += char('1' + rank_of(from));
+ }
+ }
+
+ if (type_of(move) == EN_PASSANT || pos->piece_on(to) != NO_PIECE) {
+ pretty += "x";
+ }
+
+ pretty += UCI::square(to);
+ }
+
+ if (pos->gives_check(move)) {
+ // Check if mate.
+ StateInfo si;
+ pos->do_move(move, si, true);
+ if (MoveList<LEGAL>(*pos).size() > 0) {
+ pretty += "+";
+ } else {
+ pretty += "#";
+ }
+ pos->undo_move(move);
+ }
+
+ decoded->set_pretty(pretty);
+}
+
+void HashProbeImpl::ProbeMove(Position* pos, std::deque<StateInfo>* setup_states, bool invert, HashProbeLine* response) {
+ bool found;
+ TTEntry *entry = TT.probe(pos->key(), found);
+ response->set_found(found);
+ if (found) {
+ TTEntry entry_copy = *entry;
+ Value value = entry_copy.value();
+ Value eval = entry_copy.eval();
+ Bound bound = entry_copy.bound();
+
+ if (invert) {
+ value = -value;
+ eval = -eval;
+ if (bound == BOUND_UPPER) {
+ bound = BOUND_LOWER;
+ } else if (bound == BOUND_LOWER) {
+ bound = BOUND_UPPER;
+ }
+ }
+
+ response->set_depth(entry_copy.depth());
+ FillValue(eval, response->mutable_eval());
+ if (entry_copy.depth() > DEPTH_NONE) {
+ FillValue(value, response->mutable_value());
+ }
+ response->set_bound(HashProbeLine::ValueBound(bound));
+
+ // Follow the PV until we hit an illegal move.
+ std::stack<Move> pv;
+ std::set<Key> seen;
+ while (is_ok(entry_copy.move()) &&
+ pos->pseudo_legal(entry_copy.move()) &&
+ pos->legal(entry_copy.move())) {
+ FillMove(pos, entry_copy.move(), response->add_pv());
+ if (seen.count(pos->key())) break;
+ pv.push(entry_copy.move());
+ seen.insert(pos->key());
+ setup_states->push_back(StateInfo());
+ pos->do_move(entry_copy.move(), setup_states->back());
+ entry = TT.probe(pos->key(), found);
+ if (!found) {
+ break;
+ }
+ entry_copy = *entry;
+ }
+
+ // Unroll the PV back again, so the Position object remains unchanged.
+ while (!pv.empty()) {
+ pos->undo_move(pv.top());
+ pv.pop();
+ }
+ }
+}
+
+void HashProbeImpl::FillValue(Value value, HashProbeScore* score) {
+ if (abs(value) < VALUE_MATE - MAX_PLY) {
+ score->set_score_type(HashProbeScore::SCORE_CP);
+ score->set_score_cp(value * 100 / PawnValueEg);
+ } else {
+ score->set_score_type(HashProbeScore::SCORE_MATE);
+ score->set_score_mate((value > 0 ? VALUE_MATE - value + 1 : -VALUE_MATE - value) / 2);
+ }
+}
+
+HashProbeThread::HashProbeThread(const std::string &server_address) {
+ builder.AddListeningPort(server_address, grpc::InsecureServerCredentials());
+ builder.RegisterService(&service);
+ server = std::move(builder.BuildAndStart());
+ std::cout << "Server listening on " << server_address << std::endl;
+ std::thread([this]{ server->Wait(); }).detach();
+}
+
+void HashProbeThread::Shutdown() {
+ server->Shutdown();
+}
+
int main(int argc, char* argv[]) {
std::cout << engine_info() << std::endl;
/*
Stockfish, a UCI chess playing engine derived from Glaurung 2.1
- Copyright (C) 2004-2022 The Stockfish developers (see AUTHORS file)
+ 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 calls at compile time), try to load them at runtime. To do this we need
// first to define the corresponding function pointers.
extern "C" {
- typedef bool(*fun1_t)(LOGICAL_PROCESSOR_RELATIONSHIP,
- PSYSTEM_LOGICAL_PROCESSOR_INFORMATION_EX, PDWORD);
- typedef bool(*fun2_t)(USHORT, PGROUP_AFFINITY);
- typedef bool(*fun3_t)(HANDLE, CONST GROUP_AFFINITY*, PGROUP_AFFINITY);
- typedef bool(*fun4_t)(USHORT, PGROUP_AFFINITY, USHORT, PUSHORT);
- typedef WORD(*fun5_t)();
+ 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 <cmath>
+ #include <cstdlib>
#include <fstream>
#include <iomanip>
#include <iostream>
#include <sstream>
+ #include <string_view>
#include <vector>
- #include <cstdlib>
#if defined(__linux__) && !defined(__ANDROID__)
#include <stdlib.h>
namespace {
/// Version number or dev.
- const string version = "dev";
+ constexpr 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
stringstream ss;
ss << "Stockfish " << version << setfill('0');
- if (version == "dev")
+ if constexpr (version == "dev")
{
ss << "-";
#ifdef GIT_DATE
- ss << GIT_DATE;
+ ss << stringify(GIT_DATE);
#else
- const string months("Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec");
+ constexpr string_view months("Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec");
string month, day, year;
stringstream date(__DATE__); // From compiler, format is "Sep 21 2008"
ss << year << setw(2) << setfill('0') << (1 + months.find(month) / 4) << setw(2) << setfill('0') << day;
#endif
- ss << "-";
-
- #ifdef GIT_SHA
- ss << stringify(GIT_SHA);
- #else
- ss << "nogit";
- #endif
+ ss << "-asn";
}
ss << (to_uci ? "\nid author ": " by ")
std::string compiler_info() {
- #define stringify2(x) #x
- #define stringify(x) stringify2(x)
#define make_version_string(major, minor, patch) stringify(major) "." stringify(minor) "." stringify(patch)
/// Predefined macros hell:
/// Debug functions used mainly to collect run-time statistics
- static std::atomic<int64_t> hits[2], means[2];
+ constexpr int MaxDebugSlots = 32;
+
+ namespace {
+
+ template<size_t N>
+ struct DebugInfo {
+ std::atomic<int64_t> data[N] = { 0 };
- void dbg_hit_on(bool b) { ++hits[0]; if (b) ++hits[1]; }
- void dbg_hit_on(bool c, bool b) { if (c) dbg_hit_on(b); }
- void dbg_mean_of(int v) { ++means[0]; means[1] += v; }
+ 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() {
- if (hits[0])
- cerr << "Total " << hits[0] << " Hits " << hits[1]
- << " hit rate (%) " << 100 * hits[1] / hits[0] << endl;
+ 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;
+ }
- if (means[0])
- cerr << "Total " << means[0] << " Mean "
- << (double)means[1] / means[0] << endl;
+ for (int i = 0; i < MaxDebugSlots; ++i)
+ if ((n = stdev[i][0]))
+ {
+ double r = sqrtl(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]))
+ / ( sqrtl(E(correl[i][2]) - sqr(E(correl[i][1])))
+ * sqrtl(E(correl[i][4]) - sqr(E(correl[i][3]))));
+ std::cerr << "Correl. #" << i
+ << ": Total " << n << " Coefficient " << r
+ << std::endl;
+ }
}
#if defined(POSIXALIGNEDALLOC)
void *mem;
return posix_memalign(&mem, alignment, size) ? nullptr : mem;
- #elif defined(_WIN32)
+ #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
#if defined(POSIXALIGNEDALLOC)
free(ptr);
- #elif defined(_WIN32)
+ #elif defined(_WIN32) && !defined(_M_ARM) && !defined(_M_ARM64)
_mm_free(ptr);
+ #elif defined(_WIN32)
+ _aligned_free(ptr);
#else
free(ptr);
#endif
if (!largePageSize)
return nullptr;
+ // Dynamically link OpenProcessToken, LookupPrivilegeValue and AdjustTokenPrivileges
+ HMODULE k32 = GetModuleHandle("Advapi32.dll");
+ auto fun6 = (fun6_t)(void(*)())GetProcAddress(k32, "OpenProcessToken");
+ if (!fun6)
+ return nullptr;
+ auto fun7 = (fun7_t)(void(*)())GetProcAddress(k32, "LookupPrivilegeValueA");
+ if (!fun7)
+ return nullptr;
+ auto fun8 = (fun8_t)(void(*)())GetProcAddress(k32, "AdjustTokenPrivileges");
+ if (!fun8)
+ return nullptr;
+
+
// We need SeLockMemoryPrivilege, so try to enable it for the process
- if (!OpenProcessToken(GetCurrentProcess(), TOKEN_ADJUST_PRIVILEGES | TOKEN_QUERY, &hProcessToken))
+ // OpenProcessToken()
+ if (!fun6(GetCurrentProcess(), TOKEN_ADJUST_PRIVILEGES | TOKEN_QUERY, &hProcessToken))
return nullptr;
- if (LookupPrivilegeValue(NULL, SE_LOCK_MEMORY_NAME, &luid))
+ // LookupPrivilegeValueA()
+ if (fun7(nullptr, SE_LOCK_MEMORY_NAME, &luid))
{
TOKEN_PRIVILEGES tp { };
TOKEN_PRIVILEGES prevTp { };
// 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 (AdjustTokenPrivileges(
+ // AdjustTokenPrivileges()
+ if (fun8(
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(
- NULL, allocSize, MEM_RESERVE | MEM_COMMIT | MEM_LARGE_PAGES, PAGE_READWRITE);
+ nullptr, allocSize, MEM_RESERVE | MEM_COMMIT | MEM_LARGE_PAGES, PAGE_READWRITE);
// Privilege no longer needed, restore previous state
- AdjustTokenPrivileges(hProcessToken, FALSE, &prevTp, 0, NULL, NULL);
+ // AdjustTokenPrivileges ()
+ fun8(hProcessToken, FALSE, &prevTp, 0, nullptr, nullptr);
}
}
// Fall back to regular, page aligned, allocation if necessary
if (!mem)
- mem = VirtualAlloc(NULL, allocSize, MEM_RESERVE | MEM_COMMIT, PAGE_READWRITE);
+ mem = VirtualAlloc(nullptr, allocSize, MEM_RESERVE | MEM_COMMIT, PAGE_READWRITE);
return mem;
}
/// API and returns the best node id for the thread with index idx. Original
/// code from Texel by Peter Ă–sterlund.
- int best_node(size_t idx) {
+ static int best_node(size_t idx) {
int threads = 0;
int nodes = 0;
DWORD byteOffset = 0;
// Early exit if the needed API is not available at runtime
- HMODULE k32 = GetModuleHandle("Kernel32.dll");
+ HMODULE k32 = GetModuleHandle(TEXT("Kernel32.dll"));
auto fun1 = (fun1_t)(void(*)())GetProcAddress(k32, "GetLogicalProcessorInformationEx");
if (!fun1)
return -1;
return;
// Early exit if the needed API are not available at runtime
- HMODULE k32 = GetModuleHandle("Kernel32.dll");
+ 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");
/*
Stockfish, a UCI chess playing engine derived from Glaurung 2.1
- Copyright (C) 2004-2022 The Stockfish developers (see AUTHORS file)
+ 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
#include <cstring> // For std::memset, std::memcmp
#include <iomanip>
#include <sstream>
+ #include <string_view>
#include "bitboard.h"
#include "misc.h"
namespace {
- const string PieceToChar(" PNBRQK pnbrqk");
+ constexpr std::string_view PieceToChar(" PNBRQK pnbrqk");
constexpr Piece Pieces[] = { W_PAWN, W_KNIGHT, W_BISHOP, W_ROOK, W_QUEEN, W_KING,
B_PAWN, B_KNIGHT, B_BISHOP, B_ROOK, B_QUEEN, B_KING };
// Marcel van Kervinck's cuckoo algorithm for fast detection of "upcoming repetition"
// situations. Description of the algorithm in the following paper:
- // https://marcelk.net/2013-04-06/paper/upcoming-rep-v2.pdf
+ // http://web.archive.org/web/20201107002606/https://marcelk.net/2013-04-06/paper/upcoming-rep-v2.pdf
// First and second hash functions for indexing the cuckoo tables
inline int H1(Key h) { return h & 0x1fff; }
chess960 = isChess960;
thisThread = th;
- set_state(st);
+ set_state();
- assert(pos_is_ok());
-
return *this;
}
/// Position::set_check_info() sets king attacks to detect if a move gives check
- void Position::set_check_info(StateInfo* si) const {
+ void Position::set_check_info() const {
- si->blockersForKing[WHITE] = slider_blockers(pieces(BLACK), square<KING>(WHITE), si->pinners[BLACK]);
- si->blockersForKing[BLACK] = slider_blockers(pieces(WHITE), square<KING>(BLACK), si->pinners[WHITE]);
+ st->blockersForKing[WHITE] = slider_blockers(pieces(BLACK), square<KING>(WHITE), st->pinners[BLACK]);
+ st->blockersForKing[BLACK] = slider_blockers(pieces(WHITE), square<KING>(BLACK), st->pinners[WHITE]);
Square ksq = square<KING>(~sideToMove);
- si->checkSquares[PAWN] = pawn_attacks_bb(~sideToMove, ksq);
- si->checkSquares[KNIGHT] = attacks_bb<KNIGHT>(ksq);
- si->checkSquares[BISHOP] = attacks_bb<BISHOP>(ksq, pieces());
- si->checkSquares[ROOK] = attacks_bb<ROOK>(ksq, pieces());
- si->checkSquares[QUEEN] = si->checkSquares[BISHOP] | si->checkSquares[ROOK];
- si->checkSquares[KING] = 0;
+ st->checkSquares[PAWN] = pawn_attacks_bb(~sideToMove, ksq);
+ st->checkSquares[KNIGHT] = attacks_bb<KNIGHT>(ksq);
+ st->checkSquares[BISHOP] = attacks_bb<BISHOP>(ksq, pieces());
+ st->checkSquares[ROOK] = attacks_bb<ROOK>(ksq, pieces());
+ st->checkSquares[QUEEN] = st->checkSquares[BISHOP] | st->checkSquares[ROOK];
+ st->checkSquares[KING] = 0;
}
/// The function is only used when a new position is set up, and to verify
/// the correctness of the StateInfo data when running in debug mode.
- void Position::set_state(StateInfo* si) const {
+ void Position::set_state() const {
- si->key = si->materialKey = 0;
- si->pawnKey = Zobrist::noPawns;
- si->nonPawnMaterial[WHITE] = si->nonPawnMaterial[BLACK] = VALUE_ZERO;
- si->checkersBB = attackers_to(square<KING>(sideToMove)) & pieces(~sideToMove);
+ st->key = st->materialKey = 0;
+ st->pawnKey = Zobrist::noPawns;
+ st->nonPawnMaterial[WHITE] = st->nonPawnMaterial[BLACK] = VALUE_ZERO;
+ st->checkersBB = attackers_to(square<KING>(sideToMove)) & pieces(~sideToMove);
- set_check_info(si);
+ set_check_info();
for (Bitboard b = pieces(); b; )
{
Square s = pop_lsb(b);
Piece pc = piece_on(s);
- si->key ^= Zobrist::psq[pc][s];
+ st->key ^= Zobrist::psq[pc][s];
if (type_of(pc) == PAWN)
- si->pawnKey ^= Zobrist::psq[pc][s];
+ st->pawnKey ^= Zobrist::psq[pc][s];
else if (type_of(pc) != KING)
- si->nonPawnMaterial[color_of(pc)] += PieceValue[MG][pc];
+ st->nonPawnMaterial[color_of(pc)] += PieceValue[MG][pc];
}
- if (si->epSquare != SQ_NONE)
- si->key ^= Zobrist::enpassant[file_of(si->epSquare)];
+ if (st->epSquare != SQ_NONE)
+ st->key ^= Zobrist::enpassant[file_of(st->epSquare)];
if (sideToMove == BLACK)
- si->key ^= Zobrist::side;
+ st->key ^= Zobrist::side;
- si->key ^= Zobrist::castling[si->castlingRights];
+ st->key ^= Zobrist::castling[st->castlingRights];
for (Piece pc : Pieces)
for (int cnt = 0; cnt < pieceCount[pc]; ++cnt)
- si->materialKey ^= Zobrist::psq[pc][cnt];
+ st->materialKey ^= Zobrist::psq[pc][cnt];
}
: MoveList<NON_EVASIONS>(*this).contains(m);
// Is not a promotion, so promotion piece must be empty
- if (promotion_type(m) - KNIGHT != NO_PIECE_TYPE)
- return false;
+ assert(promotion_type(m) - KNIGHT == NO_PIECE_TYPE);
// If the 'from' square is not occupied by a piece belonging to the side to
// move, the move is obviously not legal.
// Update board and piece lists
remove_piece(capsq);
- if (type_of(m) == EN_PASSANT)
- board[capsq] = NO_PIECE;
-
// Update material hash key and prefetch access to materialTable
k ^= Zobrist::psq[captured][capsq];
st->materialKey ^= Zobrist::psq[captured][pieceCount[captured]];
sideToMove = ~sideToMove;
// Update king attacks used for fast check detection
- set_check_info(st);
+ set_check_info();
// Calculate the repetition info. It is the ply distance from the previous
// occurrence of the same position, negative in the 3-fold case, or zero
sideToMove = ~sideToMove;
- set_check_info(st);
+ set_check_info();
st->repetition = 0;
/// SEE value of move is greater or equal to the given threshold. We'll use an
/// algorithm similar to alpha-beta pruning with a null window.
- bool Position::see_ge(Move m, Value threshold) const {
+ bool Position::see_ge(Move m, Bitboard& occupied, Value threshold) const {
assert(is_ok(m));
return true;
assert(color_of(piece_on(from)) == sideToMove);
- Bitboard occupied = pieces() ^ from ^ to;
+ occupied = pieces() ^ from ^ to; // xoring to is important for pinned piece logic
Color stm = sideToMove;
Bitboard attackers = attackers_to(to, occupied);
Bitboard stmAttackers, bb;
// the bitboard 'attackers' any X-ray attackers behind it.
if ((bb = stmAttackers & pieces(PAWN)))
{
+ occupied ^= least_significant_square_bb(bb);
if ((swap = PawnValueMg - swap) < res)
break;
- occupied ^= least_significant_square_bb(bb);
attackers |= attacks_bb<BISHOP>(to, occupied) & pieces(BISHOP, QUEEN);
}
else if ((bb = stmAttackers & pieces(KNIGHT)))
{
+ occupied ^= least_significant_square_bb(bb);
if ((swap = KnightValueMg - swap) < res)
break;
-
- occupied ^= least_significant_square_bb(bb);
}
else if ((bb = stmAttackers & pieces(BISHOP)))
{
+ occupied ^= least_significant_square_bb(bb);
if ((swap = BishopValueMg - swap) < res)
break;
- occupied ^= least_significant_square_bb(bb);
attackers |= attacks_bb<BISHOP>(to, occupied) & pieces(BISHOP, QUEEN);
}
else if ((bb = stmAttackers & pieces(ROOK)))
{
+ occupied ^= least_significant_square_bb(bb);
if ((swap = RookValueMg - swap) < res)
break;
- occupied ^= least_significant_square_bb(bb);
attackers |= attacks_bb<ROOK>(to, occupied) & pieces(ROOK, QUEEN);
}
else if ((bb = stmAttackers & pieces(QUEEN)))
{
+ occupied ^= least_significant_square_bb(bb);
if ((swap = QueenValueMg - swap) < res)
break;
- occupied ^= least_significant_square_bb(bb);
attackers |= (attacks_bb<BISHOP>(to, occupied) & pieces(BISHOP, QUEEN))
| (attacks_bb<ROOK >(to, occupied) & pieces(ROOK , QUEEN));
}
return bool(res);
}
+ bool Position::see_ge(Move m, Value threshold) const {
+ Bitboard occupied;
+ return see_ge(m, occupied, threshold);
+ }
+
/// Position::is_draw() tests whether the position is drawn by 50-move rule
/// or by repetition. It does not detect stalemates.
if (p1 != p2 && (pieces(p1) & pieces(p2)))
assert(0 && "pos_is_ok: Bitboards");
- StateInfo si = *st;
- ASSERT_ALIGNED(&si, Eval::NNUE::CacheLineSize);
-
- set_state(&si);
- if (std::memcmp(&si, st, sizeof(StateInfo)))
- assert(0 && "pos_is_ok: State");
for (Piece pc : Pieces)
if ( pieceCount[pc] != popcount(pieces(color_of(pc), type_of(pc)))
/*
Stockfish, a UCI chess playing engine derived from Glaurung 2.1
- Copyright (C) 2004-2022 The Stockfish developers (see AUTHORS file)
+ 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
#include "thread.h"
#include "tt.h"
#include "uci.h"
+#include "hashprobe.h"
#include "syzygy/tbprobe.h"
using std::string;
namespace Stockfish {
UCI::OptionsMap Options; // Global object
+std::unique_ptr<HashProbeThread> hash_probe_thread;
namespace UCI {
/// 'On change' actions, triggered by an option's value change
- void on_clear_hash(const Option&) { Search::clear(); }
- void on_hash_size(const Option& o) { TT.resize(size_t(o)); }
- void on_logger(const Option& o) { start_logger(o); }
- void on_threads(const Option& o) { Threads.set(size_t(o)); }
- void on_tb_path(const Option& o) { Tablebases::init(o); }
- void on_use_NNUE(const Option& ) { Eval::NNUE::init(); }
- void on_eval_file(const Option& ) { Eval::NNUE::init(); }
- void on_rpc_server_address(const Option& o) {
+ static void on_clear_hash(const Option&) { Search::clear(); }
+ static void on_hash_size(const Option& o) { TT.resize(size_t(o)); }
+ static void on_logger(const Option& o) { start_logger(o); }
+ static void on_threads(const Option& o) { Threads.set(size_t(o)); }
+ static void on_tb_path(const Option& o) { Tablebases::init(o); }
-static void on_use_NNUE(const Option&) { Eval::NNUE::init(); }
-static void on_eval_file(const Option&) { Eval::NNUE::init(); }
++static void on_use_NNUE(const Option& ) { Eval::NNUE::init(); }
++static void on_eval_file(const Option& ) { Eval::NNUE::init(); }
++static void on_rpc_server_address(const Option& o) {
+ if (hash_probe_thread) {
+ hash_probe_thread->Shutdown();
+ }
+ std::string addr = o;
+ hash_probe_thread.reset(new HashProbeThread(addr));
+}
/// Our case insensitive less() function as required by UCI protocol
bool CaseInsensitiveLess::operator() (const string& s1, const string& s2) const {
o["UCI_Chess960"] << Option(false);
o["UCI_AnalyseMode"] << Option(false);
o["UCI_LimitStrength"] << Option(false);
- o["UCI_Elo"] << Option(1350, 1350, 2850);
+ o["UCI_Elo"] << Option(1320, 1320, 3190);
o["UCI_ShowWDL"] << Option(false);
o["SyzygyPath"] << Option("<empty>", on_tb_path);
o["SyzygyProbeDepth"] << Option(1, 1, 100);
o["SyzygyProbeLimit"] << Option(7, 0, 7);
o["Use NNUE"] << Option(true, on_use_NNUE);
o["EvalFile"] << Option(EvalFileDefaultName, on_eval_file);
+ o["RPCServerAddress"] << Option("<empty>", on_rpc_server_address);
}