Do not reset ss->eval in the beginning of the node

[stockfish] / src / evaluate.cpp

diff --git a/src/evaluate.cpp b/src/evaluate.cpp
index 7fd0db57dc668c37b330c77a51d4561957509f36..0249ee3b2a35c24071feb935069ed2e106926e59 100644 (file)
--- a/src/evaluate.cpp
+++ b/src/evaluate.cpp
@@ -29,7 +29,6 @@
 #include "evaluate.h"
 #include "material.h"
 #include "pawns.h"
-#include "scale.h"
 #include "thread.h"
 #include "ucioption.h"
 
@@ -894,7 +893,7 @@ namespace {
             Square s = pop_1st_bit(&b);
             Square queeningSquare = relative_square(c, make_square(square_file(s), RANK_8));
             int d =  square_distance(s, queeningSquare)
-                   - (relative_rank(c, s) == RANK_2) // Double pawn push
+                   - int(relative_rank(c, s) == RANK_2) // Double pawn push
                    - square_distance(pos.king_square(opposite_color(c)), queeningSquare)
                    + int(c != pos.side_to_move());
 
@@ -1065,9 +1064,8 @@ namespace {
   }
 
 
-  // scale_by_game_phase() interpolates between a middle game and an endgame
-  // score, based on game phase.  It also scales the return value by a
-  // ScaleFactor array.
+  // scale_by_game_phase() interpolates between a middle game and an endgame score,
+  // based on game phase. It also scales the return value by a ScaleFactor array.
 
   Value scale_by_game_phase(const Score& v, Phase ph, const ScaleFactor sf[]) {
 
@@ -1075,7 +1073,9 @@ namespace {
     assert(eg_value(v) > -VALUE_INFINITE && eg_value(v) < VALUE_INFINITE);
     assert(ph >= PHASE_ENDGAME && ph <= PHASE_MIDGAME);
 
-    Value ev = apply_scale_factor(eg_value(v), sf[(eg_value(v) > Value(0) ? WHITE : BLACK)]);
+    Value eg = eg_value(v);
+    ScaleFactor f = sf[eg > Value(0) ? WHITE : BLACK];
+    Value ev = Value((eg * f) / SCALE_FACTOR_NORMAL);
 
     int result = (mg_value(v) * ph + ev * (128 - ph)) / 128;
     return Value(result & ~(GrainSize - 1));