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_detail.hpp
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00001 00002 00003 00004 00005 00006 00007 00008 00009 00010 00011 00012 00013 00014 00015 00016 00017 00018 00019 00020 00021 00022 00023 00024 00025 00026 00027 00028 00029 #ifndef glm_core_detail 00030 #define glm_core_detail 00031 00032 #include "setup.hpp" 00033 #include <cassert> 00034 #if(defined(__STDC_VERSION__) && (__STDC_VERSION__ >= 199901L)) 00035 #include <cstdint> 00036 #endif 00037 00038 namespace glm{ 00039 namespace detail 00040 { 00041 class half; 00042 00043 #if(defined(__STDC_VERSION__) && (__STDC_VERSION__ >= 199901L)) // C99 detected, 64 bit types available 00044 typedef int64_t sint64; 00045 typedef uint64_t uint64; 00046 #elif(GLM_COMPILER & GLM_COMPILER_VC) 00047 typedef signed __int64 sint64; 00048 typedef unsigned __int64 uint64; 00049 #elif(GLM_COMPILER & (GLM_COMPILER_GCC | GLM_COMPILER_LLVM_GCC | GLM_COMPILER_CLANG)) 00050 __extension__ typedef signed long long sint64; 00051 __extension__ typedef unsigned long long uint64; 00052 #elif(GLM_COMPILER & GLM_COMPILER_BC) 00053 typedef Int64 sint64; 00054 typedef Uint64 uint64; 00055 #else//unknown compiler 00056 typedef signed long long sint64; 00057 typedef unsigned long long uint64; 00058 #endif//GLM_COMPILER 00059 00060 template<bool C> 00061 struct If 00062 { 00063 template<typename F, typename T> 00064 static GLM_FUNC_QUALIFIER T apply(F functor, const T& val) 00065 { 00066 return functor(val); 00067 } 00068 }; 00069 00070 template<> 00071 struct If<false> 00072 { 00073 template<typename F, typename T> 00074 static GLM_FUNC_QUALIFIER T apply(F, const T& val) 00075 { 00076 return val; 00077 } 00078 }; 00079 00080 //template <typename T> 00081 //struct traits 00082 //{ 00083 // static const bool is_signed = false; 00084 // static const bool is_float = false; 00085 // static const bool is_vector = false; 00086 // static const bool is_matrix = false; 00087 // static const bool is_genType = false; 00088 // static const bool is_genIType = false; 00089 // static const bool is_genUType = false; 00090 //}; 00091 00092 //template <> 00093 //struct traits<half> 00094 //{ 00095 // static const bool is_float = true; 00096 // static const bool is_genType = true; 00097 //}; 00098 00099 //template <> 00100 //struct traits<float> 00101 //{ 00102 // static const bool is_float = true; 00103 // static const bool is_genType = true; 00104 //}; 00105 00106 //template <> 00107 //struct traits<double> 00108 //{ 00109 // static const bool is_float = true; 00110 // static const bool is_genType = true; 00111 //}; 00112 00113 //template <typename genType> 00114 //struct desc 00115 //{ 00116 // typedef genType type; 00117 // typedef genType * pointer; 00118 // typedef genType const* const_pointer; 00119 // typedef genType const *const const_pointer_const; 00120 // typedef genType *const pointer_const; 00121 // typedef genType & reference; 00122 // typedef genType const& const_reference; 00123 // typedef genType const& param_type; 00124 00125 // typedef typename genType::value_type value_type; 00126 // typedef typename genType::size_type size_type; 00127 // static const typename size_type value_size; 00128 //}; 00129 00130 //template <typename genType> 00131 //const typename desc<genType>::size_type desc<genType>::value_size = genType::value_size(); 00132 00133 union uif32 00134 { 00135 GLM_FUNC_QUALIFIER uif32() : 00136 i(0) 00137 {} 00138 00139 GLM_FUNC_QUALIFIER uif32(float f) : 00140 f(f) 00141 {} 00142 00143 GLM_FUNC_QUALIFIER uif32(unsigned int i) : 00144 i(i) 00145 {} 00146 00147 float f; 00148 unsigned int i; 00149 }; 00150 00151 union uif64 00152 { 00153 GLM_FUNC_QUALIFIER uif64() : 00154 i(0) 00155 {} 00156 00157 GLM_FUNC_QUALIFIER uif64(double f) : 00158 f(f) 00159 {} 00160 00161 GLM_FUNC_QUALIFIER uif64(uint64 i) : 00162 i(i) 00163 {} 00164 00165 double f; 00166 uint64 i; 00167 }; 00168 00169 typedef uif32 uif; 00170 00172 // int 00173 00174 template <typename T> 00175 struct is_int 00176 { 00177 enum is_int_enum 00178 { 00179 _YES = 0, 00180 _NO = 1 00181 }; 00182 }; 00183 00184 #define GLM_DETAIL_IS_INT(T) \ 00185 template <> \ 00186 struct is_int<T> \ 00187 { \ 00188 enum is_int_enum \ 00189 { \ 00190 _YES = 1, \ 00191 _NO = 0 \ 00192 }; \ 00193 } 00194 00196 // uint 00197 00198 template <typename T> 00199 struct is_uint 00200 { 00201 enum is_uint_enum 00202 { 00203 _YES = 0, 00204 _NO = 1 00205 }; 00206 }; 00207 00208 #define GLM_DETAIL_IS_UINT(T) \ 00209 template <> \ 00210 struct is_uint<T> \ 00211 { \ 00212 enum is_uint_enum \ 00213 { \ 00214 _YES = 1, \ 00215 _NO = 0 \ 00216 }; \ 00217 } 00218 00219 //GLM_DETAIL_IS_UINT(unsigned long long) 00220 00222 // float 00223 00224 template <typename T> 00225 struct is_float 00226 { 00227 enum is_float_enum 00228 { 00229 _YES = 0, 00230 _NO = 1 00231 }; 00232 }; 00233 00234 #define GLM_DETAIL_IS_FLOAT(T) \ 00235 template <> \ 00236 struct is_float<T> \ 00237 { \ 00238 enum is_float_enum \ 00239 { \ 00240 _YES = 1, \ 00241 _NO = 0 \ 00242 }; \ 00243 } 00244 00245 GLM_DETAIL_IS_FLOAT(detail::half); 00246 GLM_DETAIL_IS_FLOAT(float); 00247 GLM_DETAIL_IS_FLOAT(double); 00248 GLM_DETAIL_IS_FLOAT(long double); 00249 00251 // bool 00252 00253 template <typename T> 00254 struct is_bool 00255 { 00256 enum is_bool_enum 00257 { 00258 _YES = 0, 00259 _NO = 1 00260 }; 00261 }; 00262 00263 template <> 00264 struct is_bool<bool> 00265 { 00266 enum is_bool_enum 00267 { 00268 _YES = 1, 00269 _NO = 0 00270 }; 00271 }; 00272 00274 // vector 00275 00276 template <typename T> 00277 struct is_vector 00278 { 00279 enum is_vector_enum 00280 { 00281 _YES = 0, 00282 _NO = 1 00283 }; 00284 }; 00285 00286 # define GLM_DETAIL_IS_VECTOR(TYPE) \ 00287 template <typename T> \ 00288 struct is_vector<TYPE<T> > \ 00289 { \ 00290 enum is_vector_enum \ 00291 { \ 00292 _YES = 1, \ 00293 _NO = 0 \ 00294 }; \ 00295 } 00296 00298 // matrix 00299 00300 template <typename T> 00301 struct is_matrix 00302 { 00303 enum is_matrix_enum 00304 { 00305 _YES = 0, 00306 _NO = 1 00307 }; 00308 }; 00309 00310 #define GLM_DETAIL_IS_MATRIX(T) \ 00311 template <> \ 00312 struct is_matrix \ 00313 { \ 00314 enum is_matrix_enum \ 00315 { \ 00316 _YES = 1, \ 00317 _NO = 0 \ 00318 }; \ 00319 } 00320 00322 // type 00323 00324 template <typename T> 00325 struct type 00326 { 00327 enum type_enum 00328 { 00329 is_float = is_float<T>::_YES, 00330 is_int = is_int<T>::_YES, 00331 is_uint = is_uint<T>::_YES, 00332 is_bool = is_bool<T>::_YES 00333 }; 00334 }; 00335 00337 // type 00338 00339 typedef signed char int8; 00340 typedef signed short int16; 00341 typedef signed int int32; 00342 typedef detail::sint64 int64; 00343 00344 typedef unsigned char uint8; 00345 typedef unsigned short uint16; 00346 typedef unsigned int uint32; 00347 typedef detail::uint64 uint64; 00348 00349 typedef detail::half float16; 00350 typedef float float32; 00351 typedef double float64; 00352 00354 // float_or_int_trait 00355 00356 struct float_or_int_value 00357 { 00358 enum 00359 { 00360 GLM_ERROR, 00361 GLM_FLOAT, 00362 GLM_INT 00363 }; 00364 }; 00365 00366 template <typename T> 00367 struct float_or_int_trait 00368 { 00369 enum{ID = float_or_int_value::GLM_ERROR}; 00370 }; 00371 00372 template <> 00373 struct float_or_int_trait<int8> 00374 { 00375 enum{ID = float_or_int_value::GLM_INT}; 00376 }; 00377 00378 template <> 00379 struct float_or_int_trait<int16> 00380 { 00381 enum{ID = float_or_int_value::GLM_INT}; 00382 }; 00383 00384 template <> 00385 struct float_or_int_trait<int32> 00386 { 00387 enum{ID = float_or_int_value::GLM_INT}; 00388 }; 00389 00390 template <> 00391 struct float_or_int_trait<int64> 00392 { 00393 enum{ID = float_or_int_value::GLM_INT}; 00394 }; 00395 00396 template <> 00397 struct float_or_int_trait<uint8> 00398 { 00399 enum{ID = float_or_int_value::GLM_INT}; 00400 }; 00401 00402 template <> 00403 struct float_or_int_trait<uint16> 00404 { 00405 enum{ID = float_or_int_value::GLM_INT}; 00406 }; 00407 00408 template <> 00409 struct float_or_int_trait<uint32> 00410 { 00411 enum{ID = float_or_int_value::GLM_INT}; 00412 }; 00413 00414 template <> 00415 struct float_or_int_trait<uint64> 00416 { 00417 enum{ID = float_or_int_value::GLM_INT}; 00418 }; 00419 00420 template <> 00421 struct float_or_int_trait<float16> 00422 { 00423 enum{ID = float_or_int_value::GLM_FLOAT}; 00424 }; 00425 00426 template <> 00427 struct float_or_int_trait<float32> 00428 { 00429 enum{ID = float_or_int_value::GLM_FLOAT}; 00430 }; 00431 00432 template <> 00433 struct float_or_int_trait<float64> 00434 { 00435 enum{ID = float_or_int_value::GLM_FLOAT}; 00436 }; 00437 00438 }//namespace detail 00439 }//namespace glm 00440 00441 #if((GLM_COMPILER & GLM_COMPILER_VC) && (GLM_COMPILER >= GLM_COMPILER_VC2005)) 00442 # define GLM_DEPRECATED __declspec(deprecated) 00443 # define GLM_ALIGN(x) __declspec(align(x)) 00444 # define GLM_ALIGNED_STRUCT(x) __declspec(align(x)) struct 00445 # define GLM_RESTRICT __declspec(restrict) 00446 # define GLM_RESTRICT_VAR __restrict 00447 #elif((GLM_COMPILER & (GLM_COMPILER_GCC | GLM_COMPILER_LLVM_GCC)) && (GLM_COMPILER >= GLM_COMPILER_GCC31)) 00448 # define GLM_DEPRECATED __attribute__((__deprecated__)) 00449 # define GLM_ALIGN(x) __attribute__((aligned(x))) 00450 # define GLM_ALIGNED_STRUCT(x) struct __attribute__((aligned(x))) 00451 # if(GLM_COMPILER >= GLM_COMPILER_GCC33) 00452 # define GLM_RESTRICT __restrict__ 00453 # define GLM_RESTRICT_VAR __restrict__ 00454 # else 00455 # define GLM_RESTRICT 00456 # define GLM_RESTRICT_VAR 00457 # endif 00458 # define GLM_RESTRICT __restrict__ 00459 # define GLM_RESTRICT_VAR __restrict__ 00460 #else 00461 # define GLM_DEPRECATED 00462 # define GLM_ALIGN 00463 # define GLM_ALIGNED_STRUCT(x) 00464 # define GLM_RESTRICT 00465 # define GLM_RESTRICT_VAR 00466 #endif//GLM_COMPILER 00467 00468 #endif//glm_core_detail
