test_interp_1d.html

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      TEST_INTERP_1D - Test Functions Y(X) for Interpolation of a 1D Argument
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      TEST_INTERP_1D <br> Test Functions Y(X) for Interpolation of a 1D Argument
    </h1>

    <hr>

    <p>
      <b>TEST_INTERP_1D</b>
      is a C++ library which
      defines test functions y(x) that may be used to test interpolation algorithms
      involving a 1D argument x.
    </p>

    <p>
      <b>TEST_INTERP_1D</b> requires access to a compiled copy of the R8LIB library.
    </p>

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      Licensing:
    </h3>

    <p>
      The computer code and data files described and made available on this web page
      are distributed under
      <a href = "../../txt/gnu_lgpl.txt">the GNU LGPL license.</a>
    </p>

    <h3 align = "center">
      Languages:
    </h3>

    <p>
      <b>TEST_INTERP_1D</b> is available in
      <a href = "../../c_src/test_interp_1d/test_interp_1d.html">a C version</a> and
      <a href = "../../cpp_src/test_interp_1d/test_interp_1d.html">a C++ version</a> and
      <a href = "../../f77_src/test_interp_1d/test_interp_1d.html">a FORTRAN77 version</a> and
      <a href = "../../f_src/test_interp_1d/test_interp_1d.html">a FORTRAN90 version</a> and
      <a href = "../../m_src/test_interp_1d/test_interp_1d.html">a MATLAB version</a>.
    </p>

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      Related Data and Programs:
    </h3>

    <p>
      <a href = "../../cpp_src/barycentric_interp_1d/barycentric_interp_1d.html">
      BARYCENTRIC_INTERP_1D</a>,
      a C++ library which
      defines and evaluates the barycentric Lagrange polynomial p(x) 
      which interpolates a set of data, so that p(x(i)) = y(i).
      The barycentric approach means that very high degree polynomials can
      safely be used.
    </p>

    <p>
      <a href = "../../cpp_src/bernstein_polynomial/bernstein_polynomial.html">
      BERNSTEIN_POLYNOMIAL</a>,
      a C++ library which
      evaluates the Bernstein polynomials, 
      useful for uniform approximation of functions;
    </p>

    <p>
      <a href = "../../cpp_src/chebyshev_interp_1d/chebyshev_interp_1d.html">
      CHEBYSHEV_INTERP_1D</a>,
      a C++ library which
      determines the combination of Chebyshev polynomials which 
      interpolates a set of data, so that p(x(i)) = y(i).
    </p>

    <p>
      <a href = "../../cpp_src/lagrange_interp_1d/lagrange_interp_1d.html">
      LAGRANGE_INTERP_1D</a>,
      a C++ library which
      defines and evaluates the Lagrange polynomial p(x) 
      which interpolates a set of data, so that p(x(i)) = y(i).
    </p>

    <p>
      <a href = "../../cpp_src/nearest_interp_1d/nearest_interp_1d.html">
      NEAREST_INTERP_1D</a>,
      a C++ library which
      interpolates a set of data using a piecewise constant interpolant
      defined by the nearest neighbor criterion.
    </p>

    <p>
      <a href = "../../cpp_src/pwl_interp_1d/pwl_interp_1d.html">
      PWL_INTERP_1D</a>,
      a C++ library which
      interpolates a set of data using a piecewise linear function.
    </p>

    <p>
      <a href = "../../cpp_src/r8lib/r8lib.html">
      R8LIB</a>,
      a C++ library which
      contains many utility routines using double precision real (R8) arithmetic.
    </p>

    <p>
      <a href = "../../cpp_src/rbf_interp_1d/rbf_interp_1d.html">
      RBF_INTERP_1D</a>,
      a C++ library which
      defines and evaluates radial basis function (RBF) interpolants to 1D data.
    </p>

    <p>
      <a href = "../../cpp_src/shepard_interp_1d/shepard_interp_1d.html">
      SHEPARD_INTERP_1D</a>,
      a C++ library which
      defines and evaluates Shepard interpolants to 1D data,
      based on inverse distance weighting.
    </p>

    <p>
      <a href = "../../cpp_src/test_interp_2d/test_interp_2d.html">
      TEST_INTERP_2D</a>,
      a C++ library which
      defines test problems for interpolation of data z(x,y),
      depending on a 2D argument.
    </p>

    <p>
      <a href = "../../cpp_src/test_interp_nd/test_interp_nd.html">
      TEST_INTERP_ND</a>,
      a C++ library which
      defines test problems for interpolation of data z(x),
      depending on an M-dimensional argument.
    </p>

    <p>
      <a href = "../../c_src/vandermonde_interp_1d/vandermonde_interp_1d.html">
      VANDERMONDE_INTERP_1D</a>,
      a C library which
      finds a polynomial interpolant to data y(x) of a 1D argument,
      by setting up and solving a linear system for the polynomial coefficients,
      involving the Vandermonde matrix.
    </p>

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      Reference:
    </h3>

    <p>
      <ol>
        <li>
          Philip Davis,<br>
          Interpolation and Approximation,<br>
          Dover, 1975,<br>
          ISBN: 0-486-62495-1,<br>
          LC: QA221.D33
        </li>
      </ol>
    </p>

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      Source Code:
    </h3>

    <p>
      <ul>
        <li>
          <a href = "test_interp_1d.cpp">test_interp_1d.cpp</a>, the source code.
        </li>
        <li>
          <a href = "test_interp_1d.hpp">test_interp_1d.hpp</a>, the include file.
        </li>
        <li>
          <a href = "test_interp_1d.sh">test_interp_1d.sh</a>,
          BASH commands to compile the source code.
        </li>
      </ul>
    </p>

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      Examples and Tests:
    </h3>

    <p>
      <ul>
        <li>
          <a href = "test_interp_1d_prb.cpp">test_interp_1d_prb.cpp</a>,
          a sample calling program.
        </li>
        <li>
          <a href = "test_interp_1d_prb.sh">test_interp_1d_prb.sh</a>,
          BASH commands to compile and run the sample program.
        </li>
        <li>
          <a href = "test_interp_1d_prb_output.txt">test_interp_1d_prb_output.txt</a>,
          the output file.
        </li>
      </ul>
    </p>

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      List of Routines:
    </h3>

    <p>
      <ul>
        <li>
          <b>P00_F</b> evaluates the function for any problem.
        </li>
        <li>
          <b>P00_PROB_NUM</b> returns the number of problems.
        </li>
        <li>
          <b>P00_TITLE</b> returns the title of any problem.
        </li>
        <li>
          <b>P01_F</b> evaluates the function for problem p01.
        </li>
        <li>
          <b>P01_TITLE</b> returns the title of problem p01.
        </li>
        <li>
          <b>P02_F</b> evaluates the function for problem p01.
        </li>
        <li>
          <b>P02_TITLE</b> returns the title of problem p02.
        </li>
        <li>
          <b>P03_F</b> evaluates the function for problem p03.
        </li>
        <li>
          <b>P03_TITLE</b> returns the title of problem p03.
        </li>
        <li>
          <b>P04_F</b> evaluates the function for problem p04.
        </li>
        <li>
          <b>P04_TITLE</b> returns the title of problem p04.
        </li>
        <li>
          <b>P05_F</b> evaluates the function for problem p05.
        </li>
        <li>
          <b>P05_TITLE</b> returns the title of problem p05.
        </li>
        <li>
          <b>P06_F</b> evaluates the function for problem p06.
        </li>
        <li>
          <b>P06_TITLE</b> returns the title of problem p06.
        </li>
        <li>
          <b>P07_F</b> evaluates the function for problem p07.
        </li>
        <li>
          <b>P07_TITLE</b> returns the title of problem p07.
        </li>
        <li>
          <b>P08_F</b> evaluates the function for problem p08.
        </li>
        <li>
          <b>P08_TITLE</b> returns the title of problem p08.
        </li>
      </ul>
    </p>

    <p>
      You can go up one level to <a href = "../cpp_src.html">
      the C++ source codes</a>.
    </p>

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    <i>
      Last revised on 07 October 2012.
    </i>

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