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+#include <gtest/gtest.h>
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+#include "modules/OrthPol.cpp"
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+#include <cmath>
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+
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+#define EPS_CHEB pow(10, -7)
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+#define EPS_LAG pow(10, -5)
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+
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+class OrthPolTest : public testing::Test {};
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+
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+// Test that OrthPol returns correct values if x=0
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+// TEST_F(OrthPolTest, ChebPolZeroCase) {
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+// double zero = 0.0;
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+// for (int i=0; i<=50; ++i)
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+// {
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+
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+// std::vector<double> res = OrthPol(1, i, 0);
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+// if (i % 2 == 1)
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+// {
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+// EXPECT_DOUBLE_EQ(res[0], zero) << "Chebyshev polinom of the first kind " << i << "th-order are not equal 0";
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+// EXPECT_DOUBLE_EQ(res[1], pow(-1.0, (i-1)/2)*i) << "Derivative of Chebyshev polinom of the first kind " << i << "th-order are not equal "<< i << "*(-1)^" << (i-1)/2;
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+// }
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+// else
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+// {
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+// EXPECT_DOUBLE_EQ(res[0], pow(-1.0, i/2)) << "Chebyshev polinom of the first kind " << i << "th-order are not equal (-1)^" << i/2;
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+// EXPECT_DOUBLE_EQ(res[1], zero) << "Derivative of Chebyshev polinom of the first kind " << i << "th-order are not equal 0";
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+// }
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+// }
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+// for (int i=0; i<=50; ++i)
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+// {
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+// std::vector<double> res = OrthPol(2, i, 0);
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+// if (i % 2 == 1)
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+// {
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+// EXPECT_DOUBLE_EQ(res[0], zero) << "Chebyshev polinom of the second kind " << i << "th-order are not equal 0";
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+// EXPECT_DOUBLE_EQ(res[1], pow(-1.0, (i-1)/2)*(i+1)) << "Derivative of Chebyshev polinom of the second kind " << i << "th-order are not equal "<< (i+1) << "*(-1)^" << (i-1)/2;
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+// }
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+// else
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+// {
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+// EXPECT_DOUBLE_EQ(res[0], pow(-1.0, i/2)) << "Chebyshev polinom of the second kind " << i << "th-order are not equal (-1)^" << i/2;
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+// EXPECT_DOUBLE_EQ(res[1], zero) << "Derivative of Chebyshev polinom of the second kind " << i << "th-order are not equal 0";
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+// }
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+// }
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+// }
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+
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+// Test that OrthPol returns correct values if x=+-1
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+// TEST_F(OrthPolTest, ChebPolOneCase) {
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+// for (int i=0; i<=50; ++i)
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+// {
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+// std::vector<double> res = OrthPol(1, i, 1);
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+// EXPECT_DOUBLE_EQ(res[0], 1) << "Chebyshev polinom of the first kind " << i << "th-order are not equal " << 1;
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+// EXPECT_DOUBLE_EQ(res[1], pow(i, 2)) << "Derivative of Chebyshev polinom of the first kind " << i << "th-order are not equal "<< pow(i, 2);
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+
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+// res = OrthPol(2, i, 1);
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+// EXPECT_DOUBLE_EQ(res[0], i+1) << "Chebyshev polinom of the second kind " << i << "th-order are not equal " << i+1;
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+// EXPECT_DOUBLE_EQ(res[1], i*(i+1)*(i+2)/3) << "Derivative of Chebyshev polinom of the first kind " << i << "th-order are not equal "<< i*(i+1)*(i+2)/3;
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+
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+// res = OrthPol(1, i, -1);
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+// EXPECT_DOUBLE_EQ(res[0], pow(-1, i)) << "Chebyshev polinom of the first kind " << i << "th-order are not equal " << pow(-1, i);
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+// EXPECT_DOUBLE_EQ(res[1], pow(-1, i-1) * pow(i, 2)) << "Derivative of Chebyshev polinom of the first kind " << i << "th-order are not equal "<< pow(-1, i-1) * pow(i, 2);
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+
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+// res = OrthPol(2, i, -1);
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+// EXPECT_DOUBLE_EQ(res[0], pow(-1, i)*(i+1)) << "Chebyshev polinom of the first kind " << i << "th-order are not equal " << pow(-1, i)*(i+1);
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+// EXPECT_DOUBLE_EQ(res[1], pow(-1, i+1) * (i*(i+1)*(i+2)/3)) << "Derivative of Chebyshev polinom of the first kind " << i << "th-order are not equal "<< pow(-1, i+1) * (i*(i+1)*(i+2)/3);
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+// }
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+// }
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+
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+double ExplicitExpressionCheb(const int& type, const int& n, const double& x)
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+{
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+ if (n == 0)
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+ {
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+ return 1;
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+ }
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+ if (type == 1)
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+ {
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+ if (n == 1)
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+ {
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+ return x;
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+ }
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+ int N = n / 2;
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+ double d = static_cast<double>(n) / 2;
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+ double c = pow(-1, 0) * std::tgamma(n) / (std::tgamma(1) * std::tgamma(n + 1));
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+ double g = pow(2*x, n);
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+ double res = 0;
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+ for (int m=0; m<=N; ++m)
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+ {
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+ c = pow(-1, m) * std::tgamma(n - m) / (std::tgamma(m + 1) * std::tgamma(n - 2*m + 1));
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+ g = pow(2*x, n - 2*m);
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+ res += c * g;
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+ }
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+ return d * res;
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+ }
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+ else if (type == 2)
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+ {
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+ if (n == 1)
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+ {
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+ return 2*x;
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+ }
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+ int N = n / 2;
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+ double d = 1;
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+ double c = 1;
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+ double g = pow(2*x, n);
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+ double res = 0;
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+ for (int m=0; m<=N; ++m)
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+ {
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+ c = pow(-1, m) * std::tgamma(n - m + 1) / (std::tgamma(m + 1) * std::tgamma(n - 2*m + 1));
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+ g = pow(2*x, n - 2*m);
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+ res += c * g;
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+ }
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+ return d * res;
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+ }
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+ else
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+ {
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+ printf("The order must be 1 or 2!");
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+ std::exit(9);
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+ }
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+}
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+
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+double ExplicitExpressionLaguerre(const int& n, const double& x)
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+{
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+ if (n == 0)
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+ {
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+ return 1;
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+ }
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+ else if (n == 1)
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+ {
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+ return 1 - x;
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+ }
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+ int N = n;
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+ double d = 1;
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+ double c = pow(-1, 0) * std::tgamma(n) / (std::tgamma(1) * std::tgamma(n + 1));
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+ double g = pow(2*x, n);
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+ double res = 0;
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+ for (int m=0; m<=N; ++m)
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+ {
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+ c = pow(-1, m) * std::tgamma(n + 1) / (pow(std::tgamma(m + 1), 2) * std::tgamma(n - m + 1));
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+ g = pow(x, m);
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+ res += c * g;
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+ }
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+ return d * res;
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+}
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+
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+
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+TEST_F(OrthPolTest, ExplicitExpressionCase){
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+ double x = -1; // the left boundary
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+ double length = 2; //the length of the segmment
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+ double step = 0.2;
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+ std::vector<double> res_rec;
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+ double res_expl;
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+ for (int i=0; i <= static_cast<int>(length / step); ++i)
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+ {
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+ for (int j=0; j <= 20; ++j)
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+ {
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+ res_rec = OrthPol(1, j, x);
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+ res_expl = ExplicitExpressionCheb(1, j, x);
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+ // std::cout << j << " " << x << " " << res_rec[0] << "\n";
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+ EXPECT_NEAR(res_rec[0], res_expl, EPS_CHEB);
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+
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+ res_rec = OrthPol(2, j, x);
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+ res_expl = ExplicitExpressionCheb(2, j, x);
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+ // std::cout << j << " " << x << " " << res_rec[0] << "\n";
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+ EXPECT_NEAR(res_rec[0], res_expl, EPS_CHEB);
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+
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+ }
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+ x += step;
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+ }
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+
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+ x = -10;
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+ length = 20;
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+ step = 0.5;
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+ for (int i=0; i <= static_cast<int>(length / step); ++i)
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+ {
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+ for (int j=0; j <= 20; ++j)
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+ {
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+ res_rec = OrthPol(3, j, x);
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+ res_expl = ExplicitExpressionLaguerre(j, x);
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+ // std::cout << j << " " << x << " " << res_rec[0] << "\n";
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+ EXPECT_NEAR(res_rec[0], res_expl, EPS_LAG);
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+ }
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+ x += step;
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+ }
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+
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+
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+}
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+
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+
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+
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+// int main(int argc, char **argv) {
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+// testing::InitGoogleTest(&argc, argv);
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+// return RUN_ALL_TESTS();
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+// }
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+
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+
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+
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