X-Git-Url: https://git.sesse.net/?p=stockfish;a=blobdiff_plain;f=src%2Ftt.cpp;h=4780e2d3424d110baea5b3dff69b58ec9a9679c2;hp=63c3e995ab30b22f33191faf22a881350fe19cf9;hb=bc3b148d5712ef9ea00e74d3ff5aea10a4d3cabe;hpb=efeb37c33f15a903dbe5706529a7a26511e9ca58

diff --git a/src/tt.cpp b/src/tt.cpp
index 63c3e995..4780e2d3 100644
--- a/src/tt.cpp
+++ b/src/tt.cpp
@@ -1,7 +1,8 @@
 /*
   Stockfish, a UCI chess playing engine derived from Glaurung 2.1
   Copyright (C) 2004-2008 Tord Romstad (Glaurung author)
-  Copyright (C) 2008-2010 Marco Costalba, Joona Kiiski, Tord Romstad
+  Copyright (C) 2008-2015 Marco Costalba, Joona Kiiski, Tord Romstad
+  Copyright (C) 2015-2018 Marco Costalba, Joona Kiiski, Gary Linscott, Tord Romstad
 
   Stockfish is free software: you can redistribute it and/or modify
   it under the terms of the GNU General Public License as published by
@@ -17,142 +18,139 @@
   along with this program.  If not, see <http://www.gnu.org/licenses/>.
 */
 
+#include <cstring>   // For std::memset
+#include <iostream>
+#include <thread>
 
-////
-//// Includes
-////
-
-#include <cassert>
-#include <cstring>
-
+#include "bitboard.h"
+#include "misc.h"
 #include "tt.h"
+#include "uci.h"
 
-// The main transposition table
-TranspositionTable TT;
-
-////
-//// Functions
-////
+TranspositionTable TT; // Our global transposition table
 
-TranspositionTable::TranspositionTable() {
+/// TTEntry::save saves a TTEntry
+void TTEntry::save(Key k, Value v, Bound b, Depth d, Move m, Value ev) {
 
-  size = 0;
-  entries = 0;
-  generation = 0;
-}
+  assert(d / ONE_PLY * ONE_PLY == d);
 
-TranspositionTable::~TranspositionTable() {
+  // Preserve any existing move for the same position
+  if (m || (k >> 48) != key16)
+      move16 = (uint16_t)m;
 
-  delete [] entries;
+  // Overwrite less valuable entries
+  if (  (k >> 48) != key16
+      || d / ONE_PLY > depth8 - 4
+      || b == BOUND_EXACT)
+  {
+      key16     = (uint16_t)(k >> 48);
+      value16   = (int16_t)v;
+      eval16    = (int16_t)ev;
+      genBound8 = (uint8_t)(TT.generation8 | b);
+      depth8    = (int8_t)(d / ONE_PLY);
+  }
 }
 
 
-/// TranspositionTable::set_size sets the size of the transposition table,
-/// measured in megabytes.
+/// TranspositionTable::resize() sets the size of the transposition table,
+/// measured in megabytes. Transposition table consists of a power of 2 number
+/// of clusters and each cluster consists of ClusterSize number of TTEntry.
 
-void TranspositionTable::set_size(size_t mbSize) {
+void TranspositionTable::resize(size_t mbSize) {
 
-  size_t newSize = 1024;
+  clusterCount = mbSize * 1024 * 1024 / sizeof(Cluster);
 
-  // Transposition table consists of clusters and
-  // each cluster consists of ClusterSize number of TTEntries.
-  // Each non-empty entry contains information of exactly one position.
-  // newSize is the number of clusters we are going to allocate.
-  while ((2 * newSize) * sizeof(TTCluster) <= (mbSize << 20))
-      newSize *= 2;
+  free(mem);
+  mem = malloc(clusterCount * sizeof(Cluster) + CacheLineSize - 1);
 
-  if (newSize != size)
+  if (!mem)
   {
-      size = newSize;
-      delete [] entries;
-      entries = new TTCluster[size];
-      if (!entries)
-      {
-          std::cerr << "Failed to allocate " << mbSize
-                    << " MB for transposition table." << std::endl;
-          exit(EXIT_FAILURE);
-      }
-      clear();
+      std::cerr << "Failed to allocate " << mbSize
+                << "MB for transposition table." << std::endl;
+      exit(EXIT_FAILURE);
   }
-}
 
-
-/// TranspositionTable::clear overwrites the entire transposition table
-/// with zeroes. It is called whenever the table is resized, or when the
-/// user asks the program to clear the table (from the UCI interface).
-/// Perhaps we should also clear it when the "ucinewgame" command is received?
-
-void TranspositionTable::clear() {
-
-  memset(entries, 0, size * sizeof(TTCluster));
+  table = (Cluster*)((uintptr_t(mem) + CacheLineSize - 1) & ~(CacheLineSize - 1));
+  clear();
 }
 
 
-/// TranspositionTable::store writes a new entry containing position key and
-/// valuable information of current position.
-/// The Lowest order bits of position key are used to decide on which cluster
-/// the position will be placed.
-/// When a new entry is written and there are no empty entries available in cluster,
-/// it replaces the least valuable of entries.
-/// A TTEntry t1 is considered to be more valuable than a TTEntry t2 if t1 is from the
-/// current search and t2 is from a previous search, or if the depth of t1
-/// is bigger than the depth of t2.
+/// TranspositionTable::clear() initializes the entire transposition table to zero,
+//  in a multi-threaded way.
 
-void TranspositionTable::store(const Key posKey, Value v, ValueType t, Depth d, Move m, Value statV, Value kingD) {
+void TranspositionTable::clear() {
 
-  int c1, c2, c3;
-  TTEntry *tte, *replace;
-  uint32_t posKey32 = posKey >> 32; // Use the high 32 bits as key
+  std::vector<std::thread> threads;
 
-  tte = replace = first_entry(posKey);
-  for (int i = 0; i < ClusterSize; i++, tte++)
+  for (size_t idx = 0; idx < Options["Threads"]; idx++)
   {
-      if (!tte->key() || tte->key() == posKey32) // empty or overwrite old
-      {
-          // Preserve any existing ttMove
-          if (m == MOVE_NONE)
-              m = tte->move();
+      threads.push_back(std::thread([this, idx]() {
 
-          tte->save(posKey32, v, t, d, m, generation, statV, kingD);
-          return;
-      }
-
-      if (i == 0)  // Replacing first entry is default and already set before entering for-loop
-          continue;
+          // Thread binding gives faster search on systems with a first-touch policy
+          if (Options["Threads"] > 8)
+              WinProcGroup::bindThisThread(idx);
 
-      c1 = (replace->generation() == generation ?  2 : 0);
-      c2 = (tte->generation() == generation ? -2 : 0);
-      c3 = (tte->depth() < replace->depth() ?  1 : 0);
+          // Each thread will zero its part of the hash table
+          const size_t stride = clusterCount / Options["Threads"],
+                       start  = stride * idx,
+                       len    = idx != Options["Threads"] - 1 ?
+                                stride : clusterCount - start;
 
-      if (c1 + c2 + c3 > 0)
-          replace = tte;
+          std::memset(&table[start], 0, len * sizeof(Cluster));
+      }));
   }
-  replace->save(posKey32, v, t, d, m, generation, statV, kingD);
+
+  for (std::thread& th: threads)
+      th.join();
 }
 
+/// TranspositionTable::probe() looks up the current position in the transposition
+/// table. It returns true and a pointer to the TTEntry if the position is found.
+/// Otherwise, it returns false and a pointer to an empty or least valuable TTEntry
+/// to be replaced later. The replace value of an entry is calculated as its depth
+/// minus 8 times its relative age. TTEntry t1 is considered more valuable than
+/// TTEntry t2 if its replace value is greater than that of t2.
 
-/// TranspositionTable::retrieve looks up the current position in the
-/// transposition table. Returns a pointer to the TTEntry or NULL
-/// if position is not found.
+TTEntry* TranspositionTable::probe(const Key key, bool& found) const {
 
-TTEntry* TranspositionTable::retrieve(const Key posKey) const {
+  TTEntry* const tte = first_entry(key);
+  const uint16_t key16 = key >> 48;  // Use the high 16 bits as key inside the cluster
 
-  uint32_t posKey32 = posKey >> 32;
-  TTEntry* tte = first_entry(posKey);
+  for (int i = 0; i < ClusterSize; ++i)
+      if (!tte[i].key16 || tte[i].key16 == key16)
+      {
+          tte[i].genBound8 = uint8_t(generation8 | tte[i].bound()); // Refresh
 
-  for (int i = 0; i < ClusterSize; i++, tte++)
-      if (tte->key() == posKey32)
-          return tte;
+          return found = (bool)tte[i].key16, &tte[i];
+      }
 
-  return NULL;
+  // Find an entry to be replaced according to the replacement strategy
+  TTEntry* replace = tte;
+  for (int i = 1; i < ClusterSize; ++i)
+      // Due to our packed storage format for generation and its cyclic
+      // nature we add 259 (256 is the modulus plus 3 to keep the lowest
+      // two bound bits from affecting the result) to calculate the entry
+      // age correctly even after generation8 overflows into the next cycle.
+      if (  replace->depth8 - ((259 + generation8 - replace->genBound8) & 0xFC) * 2
+          >   tte[i].depth8 - ((259 + generation8 -   tte[i].genBound8) & 0xFC) * 2)
+          replace = &tte[i];
+
+  return found = false, replace;
 }
 
 
-/// TranspositionTable::new_search() is called at the beginning of every new
-/// search. It increments the "generation" variable, which is used to
-/// distinguish transposition table entries from previous searches from
-/// entries from the current search.
+/// TranspositionTable::hashfull() returns an approximation of the hashtable
+/// occupation during a search. The hash is x permill full, as per UCI protocol.
+
+int TranspositionTable::hashfull() const {
 
-void TranspositionTable::new_search() {
-  generation++;
+  int cnt = 0;
+  for (int i = 0; i < 1000 / ClusterSize; i++)
+  {
+      const TTEntry* tte = &table[i].entry[0];
+      for (int j = 0; j < ClusterSize; j++)
+          if ((tte[j].genBound8 & 0xFC) == generation8)
+              cnt++;
+  }
+  return cnt;
 }