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Minor cleanup
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@ -1,13 +1,11 @@
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// The contents of this file are in the public domain. See
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// LICENSE_FOR_EXAMPLE_PROGRAMS.txt
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// The contents of this file are in the public domain. See LICENSE_FOR_EXAMPLE_PROGRAMS.txt
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/*
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This example demonstrates the usage of the numerical quadrature function
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integrate_function_adapt_simpson. This function takes as input a single variable
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integrate_function_adapt_simp(). This function takes as input a single variable
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function, the endpoints of a domain over which the function will be integrated, and a
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tolerance parameter. It outputs an approximation of the integral of this function
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over the specified domain. The algorithm is based on the adaptive Simpson method outlined in:
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tolerance parameter. It outputs an approximation of the integral of this function over
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the specified domain. The algorithm is based on the adaptive Simpson method outlined in:
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Numerical Integration method based on the adaptive Simpson method in
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Gander, W. and W. Gautschi, "Adaptive Quadrature – Revisited,"
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@ -24,40 +22,39 @@
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using namespace std;
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using namespace dlib;
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// Here we define a class that consists of the set of functions that we
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// wish to integrate and comment in the domain of integration.
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// Here we the set of functions that we wish to integrate and comment in the domain of
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// integration.
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// x in [0,1]
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static double gg1(double x)
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double gg1(double x)
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{
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return pow(e,x);
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}
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// x in [0,1]
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static double gg2(double x)
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double gg2(double x)
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{
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return x*x;
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}
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// x in [0, pi]
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static double gg3(double x)
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double gg3(double x)
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{
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return 1/(x*x + cos(x)*cos(x));
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}
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// x in [-pi, pi]
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static double gg4(double x)
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double gg4(double x)
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{
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return sin(x);
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}
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// x in [0,2]
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static double gg5(double x)
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double gg5(double x)
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{
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return 1/(1 + x*x);
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}
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// Examples
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int main()
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{
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// We first define a tolerance parameter. Roughly speaking, a lower tolerance will
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