Documentation for 8a6f2052e2

files.html

@@ -262,15 +262,16 @@ solve-a-rat-in-a-maze-c-java-pytho/" </td></tr>
 <tr id="row_15_5_" class="even" style="display:none;"><td class="entry"><span style="width:32px;display:inline-block;">&#160;</span><span class="icondoc"></span><a class="el" href="d6/d7a/golden__search__extrema_8cpp.html" target="_self">golden_search_extrema.cpp</a></td><td class="desc">Find extrema of a univariate real function in a given interval using <a href="https://en.wikipedia.org/wiki/Golden-section_search" target="_blank">golden section search algorithm</a> </td></tr>
 <tr id="row_15_6_" class="even" style="display:none;"><td class="entry"><span style="width:32px;display:inline-block;">&#160;</span><span class="icondoc"></span><a class="el" href="dd/d65/lu__decompose_8cpp.html" target="_self">lu_decompose.cpp</a></td><td class="desc"><a href="https://en.wikipedia.org/wiki/LU_decompositon" target="_blank">LU decomposition</a> of a square matrix </td></tr>
 <tr id="row_15_7_" class="even" style="display:none;"><td class="entry"><span style="width:32px;display:inline-block;">&#160;</span><a href="d1/dbe/lu__decomposition_8h_source.html"><span class="icondoc"></span></a><a class="el" href="d1/dbe/lu__decomposition_8h.html" target="_self">lu_decomposition.h</a></td><td class="desc">Functions associated with <a href="https://en.wikipedia.org/wiki/LU_decomposition" target="_blank">LU Decomposition</a> of a square matrix </td></tr>
-<tr id="row_15_8_" class="even" style="display:none;"><td class="entry"><span style="width:32px;display:inline-block;">&#160;</span><span class="icondoc"></span><a class="el" href="de/dd3/newton__raphson__method_8cpp.html" target="_self">newton_raphson_method.cpp</a></td><td class="desc">Solve the equation \(f(x)=0\) using <a href="https://en.wikipedia.org/wiki/Newton%27s_method" target="_blank">Newton-Raphson method</a> for both real and complex solutions </td></tr>
-<tr id="row_15_9_" class="even" style="display:none;"><td class="entry"><span style="width:32px;display:inline-block;">&#160;</span><span class="icondoc"></span><a class="el" href="db/dd3/ode__forward__euler_8cpp.html" target="_self">ode_forward_euler.cpp</a></td><td class="desc">Solve a multivariable first order <a href="https://en.wikipedia.org/wiki/Ordinary_differential_equation" target="_blank">ordinary differential equation (ODEs)</a> using <a href="https://en.wikipedia.org/wiki/Numerical_methods_for_ordinary_differential_equations#Euler_method" target="_blank">forward Euler method</a> </td></tr>
-<tr id="row_15_10_" class="even" style="display:none;"><td class="entry"><span style="width:32px;display:inline-block;">&#160;</span><span class="icondoc"></span><a class="el" href="d6/dd3/ode__midpoint__euler_8cpp.html" target="_self">ode_midpoint_euler.cpp</a></td><td class="desc">Solve a multivariable first order <a href="https://en.wikipedia.org/wiki/Ordinary_differential_equation" target="_blank">ordinary differential equation (ODEs)</a> using <a href="https://en.wikipedia.org/wiki/Midpoint_method" target="_blank">midpoint Euler method</a> </td></tr>
-<tr id="row_15_11_" class="even" style="display:none;"><td class="entry"><span style="width:32px;display:inline-block;">&#160;</span><span class="icondoc"></span><a class="el" href="d3/d06/ode__semi__implicit__euler_8cpp.html" target="_self">ode_semi_implicit_euler.cpp</a></td><td class="desc">Solve a multivariable first order <a href="https://en.wikipedia.org/wiki/Ordinary_differential_equation" target="_blank">ordinary differential equation (ODEs)</a> using <a href="https://en.wikipedia.org/wiki/Semi-implicit_Euler_method" target="_blank">semi implicit Euler method</a> </td></tr>
-<tr id="row_15_12_" class="even" style="display:none;"><td class="entry"><span style="width:32px;display:inline-block;">&#160;</span><a href="d4/d68/qr__decompose_8h_source.html"><span class="icondoc"></span></a><a class="el" href="d4/d68/qr__decompose_8h.html" target="_self">qr_decompose.h</a></td><td class="desc">Library functions to compute <a href="https://en.wikipedia.org/wiki/QR_decomposition" target="_blank">QR decomposition</a> of a given matrix </td></tr>
-<tr id="row_15_13_" class="even" style="display:none;"><td class="entry"><span style="width:32px;display:inline-block;">&#160;</span><span class="icondoc"></span><a class="el" href="d3/d24/qr__decomposition_8cpp.html" target="_self">qr_decomposition.cpp</a></td><td class="desc">Program to compute the <a href="https://en.wikipedia.org/wiki/QR_decomposition" target="_blank">QR decomposition</a> of a given matrix </td></tr>
-<tr id="row_15_14_" class="even" style="display:none;"><td class="entry"><span style="width:32px;display:inline-block;">&#160;</span><span class="icondoc"></span><a class="el" href="de/d75/qr__eigen__values_8cpp.html" target="_self">qr_eigen_values.cpp</a></td><td class="desc">Compute real eigen values and eigen vectors of a symmetric matrix using <a href="https://en.wikipedia.org/wiki/QR_decomposition" target="_blank">QR decomposition</a> method </td></tr>
-<tr id="row_15_15_" class="even" style="display:none;"><td class="entry"><span style="width:32px;display:inline-block;">&#160;</span><span class="icondoc"></span><a class="el" href="d1/da6/rungekutta_8cpp.html" target="_self">rungekutta.cpp</a></td><td class="desc"><a href="https://en.wikipedia.org/wiki/Runge%E2%80%93Kutta_methods" target="_blank">Runge Kutta fourth order</a> method implementation </td></tr>
-<tr id="row_15_16_" class="even" style="display:none;"><td class="entry"><span style="width:32px;display:inline-block;">&#160;</span><span class="icondoc"></span><a class="el" href="df/dc8/successive__approximation_8cpp.html" target="_self">successive_approximation.cpp</a></td><td class="desc">Method of successive approximations using <a href="https://en.wikipedia.org/wiki/Fixed-point_iteration" target="_blank">fixed-point iteration</a> method </td></tr>
+<tr id="row_15_8_" class="even" style="display:none;"><td class="entry"><span style="width:32px;display:inline-block;">&#160;</span><span class="icondoc"></span><a class="el" href="df/d11/midpoint__integral__method_8cpp.html" target="_self">midpoint_integral_method.cpp</a></td><td class="desc">A numerical method for easy <a href="https://en.wikipedia.org/wiki/Midpoint_method" target="_blank">approximation of integrals</a> </td></tr>
+<tr id="row_15_9_" class="even" style="display:none;"><td class="entry"><span style="width:32px;display:inline-block;">&#160;</span><span class="icondoc"></span><a class="el" href="de/dd3/newton__raphson__method_8cpp.html" target="_self">newton_raphson_method.cpp</a></td><td class="desc">Solve the equation \(f(x)=0\) using <a href="https://en.wikipedia.org/wiki/Newton%27s_method" target="_blank">Newton-Raphson method</a> for both real and complex solutions </td></tr>
+<tr id="row_15_10_" class="even" style="display:none;"><td class="entry"><span style="width:32px;display:inline-block;">&#160;</span><span class="icondoc"></span><a class="el" href="db/dd3/ode__forward__euler_8cpp.html" target="_self">ode_forward_euler.cpp</a></td><td class="desc">Solve a multivariable first order <a href="https://en.wikipedia.org/wiki/Ordinary_differential_equation" target="_blank">ordinary differential equation (ODEs)</a> using <a href="https://en.wikipedia.org/wiki/Numerical_methods_for_ordinary_differential_equations#Euler_method" target="_blank">forward Euler method</a> </td></tr>
+<tr id="row_15_11_" class="even" style="display:none;"><td class="entry"><span style="width:32px;display:inline-block;">&#160;</span><span class="icondoc"></span><a class="el" href="d6/dd3/ode__midpoint__euler_8cpp.html" target="_self">ode_midpoint_euler.cpp</a></td><td class="desc">Solve a multivariable first order <a href="https://en.wikipedia.org/wiki/Ordinary_differential_equation" target="_blank">ordinary differential equation (ODEs)</a> using <a href="https://en.wikipedia.org/wiki/Midpoint_method" target="_blank">midpoint Euler method</a> </td></tr>
+<tr id="row_15_12_" class="even" style="display:none;"><td class="entry"><span style="width:32px;display:inline-block;">&#160;</span><span class="icondoc"></span><a class="el" href="d3/d06/ode__semi__implicit__euler_8cpp.html" target="_self">ode_semi_implicit_euler.cpp</a></td><td class="desc">Solve a multivariable first order <a href="https://en.wikipedia.org/wiki/Ordinary_differential_equation" target="_blank">ordinary differential equation (ODEs)</a> using <a href="https://en.wikipedia.org/wiki/Semi-implicit_Euler_method" target="_blank">semi implicit Euler method</a> </td></tr>
+<tr id="row_15_13_" class="even" style="display:none;"><td class="entry"><span style="width:32px;display:inline-block;">&#160;</span><a href="d4/d68/qr__decompose_8h_source.html"><span class="icondoc"></span></a><a class="el" href="d4/d68/qr__decompose_8h.html" target="_self">qr_decompose.h</a></td><td class="desc">Library functions to compute <a href="https://en.wikipedia.org/wiki/QR_decomposition" target="_blank">QR decomposition</a> of a given matrix </td></tr>
+<tr id="row_15_14_" class="even" style="display:none;"><td class="entry"><span style="width:32px;display:inline-block;">&#160;</span><span class="icondoc"></span><a class="el" href="d3/d24/qr__decomposition_8cpp.html" target="_self">qr_decomposition.cpp</a></td><td class="desc">Program to compute the <a href="https://en.wikipedia.org/wiki/QR_decomposition" target="_blank">QR decomposition</a> of a given matrix </td></tr>
+<tr id="row_15_15_" class="even" style="display:none;"><td class="entry"><span style="width:32px;display:inline-block;">&#160;</span><span class="icondoc"></span><a class="el" href="de/d75/qr__eigen__values_8cpp.html" target="_self">qr_eigen_values.cpp</a></td><td class="desc">Compute real eigen values and eigen vectors of a symmetric matrix using <a href="https://en.wikipedia.org/wiki/QR_decomposition" target="_blank">QR decomposition</a> method </td></tr>
+<tr id="row_15_16_" class="even" style="display:none;"><td class="entry"><span style="width:32px;display:inline-block;">&#160;</span><span class="icondoc"></span><a class="el" href="d1/da6/rungekutta_8cpp.html" target="_self">rungekutta.cpp</a></td><td class="desc"><a href="https://en.wikipedia.org/wiki/Runge%E2%80%93Kutta_methods" target="_blank">Runge Kutta fourth order</a> method implementation </td></tr>
+<tr id="row_15_17_" class="even" style="display:none;"><td class="entry"><span style="width:32px;display:inline-block;">&#160;</span><span class="icondoc"></span><a class="el" href="df/dc8/successive__approximation_8cpp.html" target="_self">successive_approximation.cpp</a></td><td class="desc">Method of successive approximations using <a href="https://en.wikipedia.org/wiki/Fixed-point_iteration" target="_blank">fixed-point iteration</a> method </td></tr>
 <tr id="row_16_" class="even"><td class="entry"><span style="width:0px;display:inline-block;">&#160;</span><span id="arr_16_" class="arrow" onclick="toggleFolder('16_')">&#9658;</span><span id="img_16_" class="iconfclosed" onclick="toggleFolder('16_')">&#160;</span><a class="el" href="dir_35422be6552f1b3672c1b6c4aba2da64.html" target="_self">operations_on_datastructures</a></td><td class="desc"></td></tr>
 <tr id="row_16_0_" style="display:none;"><td class="entry"><span style="width:32px;display:inline-block;">&#160;</span><span class="icondoc"></span><a class="el" href="d9/d14/array__left__rotation_8cpp.html" target="_self">array_left_rotation.cpp</a></td><td class="desc">Implementation for the <a href="https://www.javatpoint.com/program-to-left-rotate-the-elements-of-an-array" target="_blank">Array Left Rotation</a> algorithm </td></tr>
 <tr id="row_16_1_" style="display:none;"><td class="entry"><span style="width:32px;display:inline-block;">&#160;</span><span class="icondoc"></span><a class="el" href="d6/d57/array__right__rotation_8cpp.html" target="_self">array_right_rotation.cpp</a></td><td class="desc">Implementation for the <a href="https://www.javatpoint.com/program-to-right-rotate-the-elements-of-an-array" target="_blank">Array right Rotation</a> algorithm </td></tr>