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// This file is part of the uSTL library, an STL implementation. // // Copyright (c) 2005-2009 by Mike Sharov <msharov@users.sourceforge.net> // This file is free software, distributed under the MIT License. #ifndef UALGOBASE_H_683A0BE77546133C4CE0E3622CFAA2EB #define UALGOBASE_H_683A0BE77546133C4CE0E3622CFAA2EB #include "uutility.h" #include <string.h> namespace ustl { /// Assigns the contents of a to b and the contents of b to a. /// This is used as a primitive operation by many other algorithms. /// \ingroup SwapAlgorithms /// template <typename Assignable> inline void swap (Assignable& a, Assignable& b) { Assignable tmp = a; a = b; b = tmp; } /// Equivalent to swap (*a, *b) /// \ingroup SwapAlgorithms /// template <typename Iterator> inline void iter_swap (Iterator a, Iterator b) { swap (*a, *b); } /// Copy copies elements from the range [first, last) to the range /// [result, result + (last - first)). That is, it performs the assignments /// *result = *first, *(result + 1) = *(first + 1), and so on. [1] Generally, /// for every integer n from 0 to last - first, copy performs the assignment /// *(result + n) = *(first + n). Assignments are performed in forward order, /// i.e. in order of increasing n. /// \ingroup MutatingAlgorithms /// template <typename InputIterator, typename OutputIterator> inline OutputIterator copy (InputIterator first, InputIterator last, OutputIterator result) { for (; first != last; ++result, ++first) *result = *first; return (result); } /// Copy_n copies elements from the range [first, first + n) to the range /// [result, result + n). That is, it performs the assignments /// *result = *first, *(result + 1) = *(first + 1), and so on. Generally, /// for every integer i from 0 up to (but not including) n, copy_n performs /// the assignment *(result + i) = *(first + i). Assignments are performed /// in forward order, i.e. in order of increasing n. /// \ingroup MutatingAlgorithms /// template <typename InputIterator, typename OutputIterator> inline OutputIterator copy_n (InputIterator first, size_t count, OutputIterator result) { for (; count; --count, ++result, ++first) *result = *first; return (result); } /// \brief Copy copies elements from the range (last, first] to result. /// \ingroup MutatingAlgorithms /// Copies elements starting at last, decrementing both last and result. /// template <typename InputIterator, typename OutputIterator> inline OutputIterator copy_backward (InputIterator first, InputIterator last, OutputIterator result) { while (first != last) *--result = *--last; return (result); } /// For_each applies the function object f to each element in the range /// [first, last); f's return value, if any, is ignored. Applications are /// performed in forward order, i.e. from first to last. For_each returns /// the function object after it has been applied to each element. /// \ingroup MutatingAlgorithms /// template <typename InputIterator, typename UnaryFunction> inline UnaryFunction for_each (InputIterator first, InputIterator last, UnaryFunction f) { for (; first != last; ++first) f (*first); return (f); } /// Fill assigns the value value to every element in the range [first, last). /// That is, for every iterator i in [first, last), /// it performs the assignment *i = value. /// \ingroup GeneratorAlgorithms /// template <typename ForwardIterator, typename T> inline void fill (ForwardIterator first, ForwardIterator last, const T& value) { for (; first != last; ++first) *first = value; } /// Fill_n assigns the value value to every element in the range /// [first, first+count). That is, for every iterator i in [first, first+count), /// it performs the assignment *i = value. The return value is first + count. /// \ingroup GeneratorAlgorithms /// template <typename OutputIterator, typename T> inline OutputIterator fill_n (OutputIterator first, size_t count, const T& value) { for (; count; --count, ++first) *first = value; return (first); } #if CPU_HAS_MMX extern "C" void copy_n_fast (const void* src, size_t count, void* dest) throw(); #else inline void copy_n_fast (const void* src, size_t count, void* dest) throw() { memcpy (dest, src, count); } #endif #if __i386__ || __x86_64__ extern "C" void copy_backward_fast (const void* first, const void* last, void* result) throw(); #else inline void copy_backward_fast (const void* first, const void* last, void* result) throw() { const size_t nBytes (distance (first, last)); memmove (advance (result, -nBytes), first, nBytes); } #endif extern "C" void fill_n8_fast (uint8_t* dest, size_t count, uint8_t v) throw(); extern "C" void fill_n16_fast (uint16_t* dest, size_t count, uint16_t v) throw(); extern "C" void fill_n32_fast (uint32_t* dest, size_t count, uint32_t v) throw(); extern "C" void rotate_fast (void* first, void* middle, void* last) throw(); #if __GNUC__ >= 4 /// \brief Computes the number of 1 bits in a number. /// \ingroup ConditionAlgorithms inline size_t popcount (uint32_t v) { return (__builtin_popcount (v)); } #if HAVE_INT64_T inline size_t popcount (uint64_t v) { return (__builtin_popcountll (v)); } #endif #else size_t popcount (uint32_t v); #if HAVE_INT64_T size_t popcount (uint64_t v); #endif // HAVE_INT64_T #endif // __GNUC__ //---------------------------------------------------------------------- // Optimized versions for standard types //---------------------------------------------------------------------- #if WANT_UNROLLED_COPY template <typename T> inline T* unrolled_copy (const T* first, size_t count, T* result) { copy_n_fast (first, count * sizeof(T), result); return (advance (result, count)); } template <> inline uint8_t* copy_backward (const uint8_t* first, const uint8_t* last, uint8_t* result) { copy_backward_fast (first, last, result); return (result); } template <typename T> inline T* unrolled_fill (T* result, size_t count, T value) { for (; count; --count, ++result) *result = value; return (result); } template <> inline uint8_t* unrolled_fill (uint8_t* result, size_t count, uint8_t value) { fill_n8_fast (result, count, value); return (advance (result, count)); } template <> inline uint16_t* unrolled_fill (uint16_t* result, size_t count, uint16_t value) { fill_n16_fast (result, count, value); return (advance (result, count)); } template <> inline uint32_t* unrolled_fill (uint32_t* result, size_t count, uint32_t value) { fill_n32_fast (result, count, value); return (advance (result, count)); } template <> inline float* unrolled_fill (float* result, size_t count, float value) { fill_n32_fast ((uint32_t*) result, count, *noalias_cast<uint32_t*>(&value)); return (advance (result, count)); } #if CPU_HAS_MMX #define UNROLLED_COPY_SPECIALIZATION(type) \ template <> inline type* copy (const type* first, const type* last, type* result) \ { return (unrolled_copy (first, distance (first, last), result)); } \ template <> inline type* copy_n (const type* first, size_t count, type* result) \ { return (unrolled_copy (first, count, result)); } #define UNROLLED_FILL_SPECIALIZATION(type) \ template <> inline void fill (type* first, type* last, const type& value) \ { unrolled_fill (first, distance (first, last), value); } \ template <> inline type* fill_n (type* first, size_t count, const type& value) \ { return (unrolled_fill (first, count, value)); } UNROLLED_COPY_SPECIALIZATION(uint8_t) UNROLLED_FILL_SPECIALIZATION(uint8_t) UNROLLED_COPY_SPECIALIZATION(uint16_t) UNROLLED_FILL_SPECIALIZATION(uint16_t) UNROLLED_COPY_SPECIALIZATION(uint32_t) UNROLLED_FILL_SPECIALIZATION(uint32_t) UNROLLED_COPY_SPECIALIZATION(float) UNROLLED_FILL_SPECIALIZATION(float) #undef UNROLLED_FILL_SPECIALIZATION #undef UNROLLED_COPY_SPECIALIZATION #endif // WANT_UNROLLED_COPY #endif // CPU_HAS_MMX // Specializations for void* and char*, aliasing the above optimized versions. // // All these need duplication with const and non-const arguments, since // otherwise the compiler will default to the unoptimized version for // pointers not const in the caller's context, such as local variables. // These are all inline, but they sure slow down compilation... :( // #define COPY_ALIAS_FUNC(ctype, type, alias_type) \ template <> inline type* copy (ctype* first, ctype* last, type* result) \ { return ((type*) copy ((const alias_type*) first, (const alias_type*) last, (alias_type*) result)); } #if WANT_UNROLLED_COPY #if HAVE_THREE_CHAR_TYPES COPY_ALIAS_FUNC(const char, char, uint8_t) COPY_ALIAS_FUNC(char, char, uint8_t) #endif COPY_ALIAS_FUNC(const int8_t, int8_t, uint8_t) COPY_ALIAS_FUNC(int8_t, int8_t, uint8_t) COPY_ALIAS_FUNC(uint8_t, uint8_t, uint8_t) COPY_ALIAS_FUNC(const int16_t, int16_t, uint16_t) COPY_ALIAS_FUNC(int16_t, int16_t, uint16_t) COPY_ALIAS_FUNC(uint16_t, uint16_t, uint16_t) #if CPU_HAS_MMX || (SIZE_OF_LONG > 4) COPY_ALIAS_FUNC(const int32_t, int32_t, uint32_t) COPY_ALIAS_FUNC(int32_t, int32_t, uint32_t) COPY_ALIAS_FUNC(uint32_t, uint32_t, uint32_t) #endif #endif COPY_ALIAS_FUNC(const void, void, uint8_t) COPY_ALIAS_FUNC(void, void, uint8_t) #undef COPY_ALIAS_FUNC #define COPY_BACKWARD_ALIAS_FUNC(ctype, type, alias_type) \ template <> inline type* copy_backward (ctype* first, ctype* last, type* result) \ { return ((type*) copy_backward ((const alias_type*) first, (const alias_type*) last, (alias_type*) result)); } #if WANT_UNROLLED_COPY #if HAVE_THREE_CHAR_TYPES COPY_BACKWARD_ALIAS_FUNC(char, char, uint8_t) #endif COPY_BACKWARD_ALIAS_FUNC(uint8_t, uint8_t, uint8_t) COPY_BACKWARD_ALIAS_FUNC(int8_t, int8_t, uint8_t) COPY_BACKWARD_ALIAS_FUNC(uint16_t, uint16_t, uint8_t) COPY_BACKWARD_ALIAS_FUNC(const uint16_t, uint16_t, uint8_t) COPY_BACKWARD_ALIAS_FUNC(int16_t, int16_t, uint8_t) COPY_BACKWARD_ALIAS_FUNC(const int16_t, int16_t, uint8_t) #endif COPY_BACKWARD_ALIAS_FUNC(void, void, uint8_t) COPY_BACKWARD_ALIAS_FUNC(const void, void, uint8_t) #undef COPY_BACKWARD_ALIAS_FUNC #define FILL_ALIAS_FUNC(type, alias_type, v_type) \ template <> inline void fill (type* first, type* last, const v_type& value) \ { fill ((alias_type*) first, (alias_type*) last, (const alias_type&) value); } FILL_ALIAS_FUNC(void, uint8_t, char) FILL_ALIAS_FUNC(void, uint8_t, uint8_t) #if WANT_UNROLLED_COPY #if HAVE_THREE_CHAR_TYPES FILL_ALIAS_FUNC(char, uint8_t, char) FILL_ALIAS_FUNC(char, uint8_t, uint8_t) #endif FILL_ALIAS_FUNC(int8_t, uint8_t, int8_t) FILL_ALIAS_FUNC(int16_t, uint16_t, int16_t) #if CPU_HAS_MMX || (SIZE_OF_LONG > 4) FILL_ALIAS_FUNC(int32_t, uint32_t, int32_t) #endif #endif #undef FILL_ALIAS_FUNC #define COPY_N_ALIAS_FUNC(ctype, type, alias_type) \ template <> inline type* copy_n (ctype* first, size_t count, type* result) \ { return ((type*) copy_n ((const alias_type*) first, count, (alias_type*) result)); } COPY_N_ALIAS_FUNC(const void, void, uint8_t) COPY_N_ALIAS_FUNC(void, void, uint8_t) #if WANT_UNROLLED_COPY #if HAVE_THREE_CHAR_TYPES COPY_N_ALIAS_FUNC(const char, char, uint8_t) COPY_N_ALIAS_FUNC(char, char, uint8_t) #endif COPY_N_ALIAS_FUNC(int8_t, int8_t, uint8_t) COPY_N_ALIAS_FUNC(uint8_t, uint8_t, uint8_t) COPY_N_ALIAS_FUNC(const int8_t, int8_t, uint8_t) COPY_N_ALIAS_FUNC(int16_t, int16_t, uint16_t) COPY_N_ALIAS_FUNC(uint16_t, uint16_t, uint16_t) COPY_N_ALIAS_FUNC(const int16_t, int16_t, uint16_t) #if CPU_HAS_MMX || (SIZE_OF_LONG > 4) COPY_N_ALIAS_FUNC(int32_t, int32_t, uint32_t) COPY_N_ALIAS_FUNC(uint32_t, uint32_t, uint32_t) COPY_N_ALIAS_FUNC(const int32_t, int32_t, uint32_t) #endif #endif #undef COPY_N_ALIAS_FUNC #define FILL_N_ALIAS_FUNC(type, alias_type, v_type) \ template <> inline type* fill_n (type* first, size_t n, const v_type& value) \ { return ((type*) fill_n ((alias_type*) first, n, (const alias_type&) value)); } FILL_N_ALIAS_FUNC(void, uint8_t, char) FILL_N_ALIAS_FUNC(void, uint8_t, uint8_t) #if WANT_UNROLLED_COPY #if HAVE_THREE_CHAR_TYPES FILL_N_ALIAS_FUNC(char, uint8_t, char) FILL_N_ALIAS_FUNC(char, uint8_t, uint8_t) #endif FILL_N_ALIAS_FUNC(int8_t, uint8_t, int8_t) FILL_N_ALIAS_FUNC(int16_t, uint16_t, int16_t) #if CPU_HAS_MMX || (SIZE_OF_LONG > 4) FILL_N_ALIAS_FUNC(int32_t, uint32_t, int32_t) #endif #endif #undef FILL_N_ALIAS_FUNC extern const char _FmtPrtChr[2][8]; } // namespace ustl #endif