X-Git-Url: https://git.sesse.net/?p=stockfish;a=blobdiff_plain;f=src%2Ftypes.h;h=a85aa7f7292bea9417f8daecf0634f676bab61b1;hp=4931531b54a87f37e70628c035158c91b9642c8e;hb=a5ae7fe26030bdd73a95fde3ebe841abfe84ec5e;hpb=80bee85d5f48cc1e06f16236a73c86a14c1d0756 diff --git a/src/types.h b/src/types.h index 4931531b..a85aa7f7 100644 --- a/src/types.h +++ b/src/types.h @@ -110,28 +110,63 @@ inline void __cpuid(int CPUInfo[4], int) #endif -// Templetized enum operations, we avoid to repeat the same inlines for each -// different enum. +// Templetized operators used by enum types like Depth, Piece, Square and so on. +// We don't want to write the same inline for each different enum. Note that we +// pass by value to silence scaring warnings when using volatiles. +// Because these templates override common operators and are included in all the +// files, there is a possibility that the compiler silently performs some unwanted +// overrides. To avoid possible very nasty bugs the templates are disabled by default +// and must be enabled for each type on a case by case base. The enabling trick +// uses template specialization, namely we just declare following struct. +template struct TempletizedOperator; + +// Then to enable the enum type we use following macro that defines a specialization +// of TempletizedOperator for the given enum T. Here is defined typedef Not_Enabled. +// Name of typedef is chosen to produce somewhat informative compile error messages. +#define ENABLE_OPERATORS_ON(T) \ + template<> struct TempletizedOperator { typedef T Not_Enabled; } + +// Finally we use macro OK(T) to check if type T is enabled. The macro simply +// tries to use Not_Enabled, if was not previously defined a compile error occurs. +// The check is done fully at compile time and there is zero overhead at runtime. +#define OK(T) typedef typename TempletizedOperator::Not_Enabled Type template -inline T operator+ (const T d1, const T d2) { return T(int(d1) + int(d2)); } +inline T operator+ (const T d1, const T d2) { OK(T); return T(int(d1) + int(d2)); } template -inline T operator- (const T d1, const T d2) { return T(int(d1) - int(d2)); } +inline T operator- (const T d1, const T d2) { OK(T); return T(int(d1) - int(d2)); } template -inline T operator* (int i, const T d) { return T(int(d) * i); } +inline T operator* (int i, const T d) { OK(T); return T(i * int(d)); } template -inline T operator/ (const T d, int i) { return T(int(d) / i); } +inline T operator* (const T d, int i) { OK(T); return T(int(d) * i); } template -inline void operator+= (T& d1, const T d2) { d1 = d1 + d2; } +inline T operator/ (const T d, int i) { OK(T); return T(int(d) / i); } template -inline void operator*= (T& d, int i) { d = T(int(d) * i); } +inline T operator- (const T d) { OK(T); return T(-int(d)); } template -inline void operator/= (T &d, int i) { d = T(int(d) / i); } +inline void operator++ (T& d, int) { OK(T); d = T(int(d) + 1); } + +template +inline void operator-- (T& d, int) { OK(T); d = T(int(d) - 1); } + +template +inline void operator+= (T& d1, const T d2) { OK(T); d1 = d1 + d2; } + +template +inline void operator-= (T& d1, const T d2) { OK(T); d1 = d1 - d2; } + +template +inline void operator*= (T& d, int i) { OK(T); d = T(int(d) * i); } + +template +inline void operator/= (T& d, int i) { OK(T); d = T(int(d) / i); } + +#undef OK #endif // !defined(TYPES_H_INCLUDED)