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1ea2f3d3bb
Did not add it to project files to avoid mess. Fixed NaN / infinity issues.
166 lines
4.6 KiB
C++
166 lines
4.6 KiB
C++
/* Copyright 2010 Juan Rada-Vilela
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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You may obtain a copy of the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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See the License for the specific language governing permissions and
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limitations under the License.
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*/
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#include "AreaCentroidAlgorithm.h"
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#include "FuzzyOperation.h"
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#include "LinguisticTerm.h"
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namespace fl {
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std::string TriangulationAlgorithm::name() const {
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return "Triangulation";
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}
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flScalar TriangulationAlgorithm::area(const LinguisticTerm* term,
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int samples) const {
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flScalar x, y;
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return areaAndCentroid(term, x, y, samples);
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}
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void TriangulationAlgorithm::centroid(const LinguisticTerm* term,
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flScalar& x, flScalar& y, int samples) const {
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areaAndCentroid(term, x, y, samples);
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}
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flScalar TriangulationAlgorithm::areaAndCentroid(
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const LinguisticTerm* term, flScalar& centroid_x,
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flScalar& centroid_y, int samples) const {
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centroid_x = flScalar(0);
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centroid_y = flScalar(0);
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flScalar sum_area = flScalar(0.0);
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flScalar sum_a_x = flScalar(0.0);
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flScalar sum_a_y = flScalar(0.0);
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flScalar tmp_area = flScalar(0.0);
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flScalar range = term->maximum() - term->minimum();
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flScalar step_size = range / samples;
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int pi = 0;
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flScalar x[3];
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flScalar y[3];
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/*******
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* first triangle should include (minimum, 0)
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* fix requires y_is_0 to start false & pi to start at 1
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* updated by rctaylor 02/08/11
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********/
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bool y_is_0 = false;
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x[0] = term->minimum();
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y[0] = term->membership(x[0]);
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x[1] = term->minimum();
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y[1] = 0;
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pi = 1;
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// end update 02/08/11
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int i = 1;
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//Triangulation:
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// rctaylor 02/08/11 - updated to <= because that is the only way x will ever equal
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// term->maximum (ie. term->maximum = term->minimum + samples * step_size)
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while (pi <= samples) {
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++i;
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if (y_is_0) {
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x[i % 3] = x[(i - 1) % 3];
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y[i % 3] = 0;
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++pi; // rctaylor 02/08/11 - since y_is_0 starts false, this moves here
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} else {
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x[i % 3] = term->minimum() + pi * step_size;
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y[i % 3] = term->membership(x[i % 3]);
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}
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y_is_0 = !y_is_0;
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//Area of triangle:
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// |Ax(By - Cy) + Bx(Cy - Ay) + Cx(Ay - By)| / 2
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// |x0(y1 - y2) + x1(y2 - y0) + x2(y0 - y1)| / 2
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tmp_area = FuzzyOperation::Absolute(x[0] * (y[1] - y[2]) + x[1]
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* (y[2] - y[0]) + x[2] * (y[0] - y[1])) / 2;
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//Centroid of a triangle:
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// x = (x0 + x1 + x2)/3; y = (y0 + y1 + y2)/3;
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sum_a_x += tmp_area * (x[0] + x[1] + x[2]) / 3;
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sum_a_y += tmp_area * (y[0] + y[1] + y[2]) / 3;
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sum_area += tmp_area;
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}
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centroid_x = sum_a_x / sum_area;
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centroid_y = sum_a_y / sum_area;
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return sum_area;
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}
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std::string TrapezoidalAlgorithm::name() const {
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return "Trapezoidal";
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}
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flScalar TrapezoidalAlgorithm::area(const LinguisticTerm* term, int samples) const {
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flScalar sum_area = 0.0;
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flScalar step_size = (term->maximum() - term->minimum()) / samples;
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flScalar step = term->minimum();
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flScalar mu, prev_mu = term->membership(step);
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for (int i = 0; i < samples; ++i) {
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step += step_size;
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mu = term->membership(step);
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sum_area += step_size * (mu + prev_mu);
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prev_mu = mu;
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}
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sum_area *= 0.5;
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return sum_area;
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}
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void TrapezoidalAlgorithm::centroid(const LinguisticTerm* term,
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flScalar& centroid_x, flScalar& centroid_y, int samples) const {
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areaAndCentroid(term, centroid_x, centroid_y, samples);
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}
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flScalar TrapezoidalAlgorithm::areaAndCentroid(const LinguisticTerm* term,
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flScalar& centroid_x, flScalar& centroid_y, int samples) const {
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flScalar sum_area = 0.0;
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flScalar step_size = (term->maximum() - term->minimum()) / samples;
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flScalar step = term->minimum();
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flScalar mu, prev_mu = term->membership(step);
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flScalar area, x, y;
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centroid_x = 0.0;
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centroid_y = 0.0;
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/*
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* centroid_x = a (h_1 + 2h_2)/3(h_1+h_2) ; h_1 = prev_mu; h_2 = mu
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* centroid_y = (h_1^2/(h_1+h_2) + h_2) * 1/3
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*/
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for (int i = 0; i <= samples ; ++i) {
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step += step_size;
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mu = term->membership(step);
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area = 0.5 * step_size * (prev_mu + mu);
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sum_area += area;
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x = ((step_size * (prev_mu + 2 * mu)) / (3.0 * (prev_mu + mu)))
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+ (step - step_size);
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y = ((prev_mu * prev_mu) / (prev_mu + mu) + mu) / 3.0;
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centroid_x += area * x;
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centroid_y += area * y;
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prev_mu = mu;
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}
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centroid_x /= sum_area;
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centroid_y /= sum_area;
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return sum_area;
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}
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}
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