/* * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * * Copyright 2012-2015 Danny Robson */ #ifdef __UTIL_NOISE_BASIS_VALUE_IPP #error #endif #define __UTIL_NOISE_BASIS_VALIE_IPP #include "../rand.hpp" namespace util { namespace noise { namespace basis { /////////////////////////////////////////////////////////////////////////// template L> value::value (seed_t _seed): m_seed (_seed) { ; } //------------------------------------------------------------------------- template L> util::range value::bounds (void) const { return { -1, 1 }; } //------------------------------------------------------------------------- template L> seed_t value::seed (void) const { return m_seed; } //------------------------------------------------------------------------- template L> seed_t value::seed (seed_t _seed) { return m_seed = _seed; } //------------------------------------------------------------------------- template L> T value::operator() (util::point<2,T> p) const { // extract integer and fractional parts. be careful to always round down // (particularly with negatives) and avoid rounding errors. auto p_int = p.template cast (); if (p.x < 0) p_int.x -= 1; if (p.y < 0) p_int.y -= 1; auto p_rem = p - p_int; // generate the corner points auto p0 = p_int + util::vector<2,intmax_t> { 0, 0 }; auto p1 = p_int + util::vector<2,intmax_t> { 1, 0 }; auto p2 = p_int + util::vector<2,intmax_t> { 0, 1 }; auto p3 = p_int + util::vector<2,intmax_t> { 1, 1 }; // Generate the four corner values T g0 = noise::rand (m_seed, p0); T g1 = noise::rand (m_seed, p1); T g2 = noise::rand (m_seed, p2); T g3 = noise::rand (m_seed, p3); // Interpolate on one dimension, then the other. auto l0 = L (g0, g1, p_rem.x); auto l1 = L (g2, g3, p_rem.x); auto l_ = L (l0, l1, p_rem.y); return l_; } } } }