/* * This file is part of libgim. * * libgim is free software: you can redistribute it and/or modify it under the * terms of the GNU General Public License as published by the Free Software * Foundation, either version 3 of the License, or (at your option) any later * version. * * libgim is distributed in the hope that it will be useful, but WITHOUT ANY * WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS * FOR A PARTICULAR PURPOSE. See the GNU General Public License for more * details. * * You should have received a copy of the GNU General Public License * along with libgim. If not, see . * * Copyright 2010-2014 Danny Robson */ #include "maths.hpp" #include "debug.hpp" #include "float.hpp" #include #include //----------------------------------------------------------------------------- template bool is_pow2 (T value) { typedef typename std::enable_if::value, bool>::type return_type; return (return_type)(value && !(value & (value - 1))); } template bool is_pow2 (uint8_t); template bool is_pow2 (uint16_t); template bool is_pow2 (uint32_t); template bool is_pow2 (uint64_t); //----------------------------------------------------------------------------- template T log2up (T v) { return log2 ((v << 1) - 1); } template uint32_t log2up (uint32_t); template uint64_t log2up (uint64_t); //----------------------------------------------------------------------------- template T log2 (T v) { static_assert (std::is_integral::value, "log2 is only implemented for integers"); T l = 0; while (v >>= 1) ++l; return l; } template uint8_t log2 (uint8_t); template uint16_t log2 (uint16_t); template uint32_t log2 (uint32_t); template uint64_t log2 (uint64_t); //----------------------------------------------------------------------------- template double rootsquare (T a, T b) { return sqrt (pow2 (a) + pow2 (b)); } template double rootsquare (double, double); template double rootsquare ( int, int); //----------------------------------------------------------------------------- template bool is_integer (const T &value) { T integer; return exactly_equal (std::modf (value, &integer), static_cast (0.0)); } template bool is_integer (const double&); template bool is_integer (const float&); //----------------------------------------------------------------------------- template <> unsigned digits (const uint32_t &v) { return (v >= 1000000000) ? 10 : (v >= 100000000) ? 9 : (v >= 10000000) ? 8 : (v >= 1000000) ? 7 : (v >= 100000) ? 6 : (v >= 10000) ? 5 : (v >= 1000) ? 4 : (v >= 100) ? 3 : (v >= 10) ? 2 : 1; } //----------------------------------------------------------------------------- template <> bool almost_equal (const float &a, const float &b) { return ieee_single::almost_equal (a, b); } template <> bool almost_equal (const double &a, const double &b) { return ieee_double::almost_equal (a, b); } //----------------------------------------------------------------------------- template T round_pow2 (T value) { typedef typename std::enable_if::value, T>::type return_type; --value; for (unsigned i = 1; i < sizeof (T) * 8; i <<= 1) { value |= value >> i; } ++value; return (return_type)value; } template uint8_t round_pow2 (uint8_t); template uint16_t round_pow2 (uint16_t); template uint32_t round_pow2 (uint32_t); template uint64_t round_pow2 (uint64_t); //----------------------------------------------------------------------------- template int sign (T val) { return val >= 0 ? 1 : -1; } template <> int sign (float val) { return static_cast (copysign (1.0f, val)); } template <> int sign (double val) { return static_cast (copysign (1.0, val)); } template int sign (int); //----------------------------------------------------------------------------- // Simple instantiations. Some functions aren't used internally to the library // so it's easier to instantiate early and check for broken code at library // build time. template float limit (float, float, float); template float smoothstep (float, float, float); template double smoothstep (double, double, double);