ParaMonte MATLAB 3.0.0
Parallel Monte Carlo and Machine Learning Library
See the latest version documentation.
CascadeHistfit.m
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1%> \brief
2%> This is the CascadeHistfit class for generating
3%> instances of 2-dimensional Histfit [Cascade visualizations](@ref Cascade)
4%> based on the relevant MATLAB
5%> intrinsic functions.<br>
6%>
7%> \note
8%> See the list of class attributes below,
9%> also those of the superclass [pm.vis.Cascade](@ref Cascade).<br>
10%>
11%> \see
12%> [pm.vis.Cascade](@ref Cascade)<br>
13%> [pm.vis.Subplot](@ref Subplot)<br>
14%> [pm.vis.Triplex](@ref Triplex)<br>
15%> [pm.vis.Figure](@ref Figure)<br>
16%> [pm.vis.Plot](@ref Plot)<br>
17%> [pm.vis.Tile](@ref Tile)<br>
18%>
19%> \final
20%>
21%> \author
22%> \FatemehBagheri, May 20 2024, 1:25 PM, NASA Goddard Space Flight Center (GSFC), Washington, D.C.<br>
23%> \AmirShahmoradi, May 16 2016, 9:03 AM, Oden Institute for Computational Engineering and Sciences (ICES), UT Austin<br>
24classdef CascadeHistfit < pm.vis.Cascade
25
26 methods(Access = public)
27
28 %> \brief
29 %> Construct and return an object of class [pm.vis.CascadeHistfit](@ref CascadeHistfit).<br>
30 %>
31 %> \param[in] dfref : See the documentation of the corresponding input
32 %> argument of the class [pm.vis.Subplot](@ref Subplot).<br>
33 %> \param[in] varargin : Any ``property, value`` pair of the parent object.<br>
34 %> If the property is a ``struct()``, then its value must be given as a cell array,
35 %> with consecutive elements representing the struct ``property-name, property-value`` pairs.<br>
36 %> Note that all of these property-value pairs can be also directly set via the
37 %> parent object attributes, before calling the ``make()`` method.<br>
38 %>
39 %> \return
40 %> ``self`` : The output scalar object of class [pm.vis.CascadeHistfit](@ref CascadeHistfit).<br>
41 %>
42 %> \interface{CascadeHistfit}
43 %> \code{.m}
44 %>
45 %> p = pm.vis.CascadeHistfit(dfref);
46 %> p = pm.vis.CascadeHistfit(dfref, varargin);
47 %>
48 %> \endcode
49 %>
50 %> \note
51 %> See the documentation of the attributes
52 %> of the superclass [pm.vis.Cascade](@ref Cascade).<br>
53 %>
54 %> \note
55 %> The input ``varargin`` can also contain the components
56 %> of the ``template`` component of the parent object.<br>
57 %>
58 %> \example{CascadeHistfit}
59 %> \include{lineno} example/vis/CascadeHistfit/main.m
60 %> \vis{CascadeHistfit}
61 %> \image html example/vis/CascadeHistfit/CascadeHistfit.window.1.png width=700
62 %> \image html example/vis/CascadeHistfit/CascadeHistfit.window.2.png width=700
63 %> \image html example/vis/CascadeHistfit/CascadeHistfit.window.3.png width=700
64 %>
65 %> \final{CascadeHistfit}
66 %>
67 %> \author
68 %> \JoshuaOsborne, May 21 2024, 7:25 AM, University of Texas at Arlington<br>
69 %> \FatemehBagheri, May 20 2024, 1:25 PM, NASA Goddard Space Flight Center (GSFC), Washington, D.C.<br>
70 %> \AmirShahmoradi, May 16 2016, 9:03 AM, Oden Institute for Computational Engineering and Sciences (ICES), UT Austin<br>
71 function self = CascadeHistfit(dfref, varargin)
72 if nargin < 1
73 dfref = [];
74 end
75 self = self@pm.vis.Cascade(pm.vis.PlotHistfit(dfref), varargin{:});
76 end
77
78 end
79
80end
function name(in vendor)
Return the MPI library name as used in naming the ParaMonte MATLAB shared library directories.
function list()
Return a list of MATLAB strings containing the names of OS platforms supported by the ParaMonte MATLA...
This is the CascadeHistfit class for generating instances of 2-dimensional Histfit Cascade visualizat...
function CascadeHistfit(in dfref, in varargin)
Construct and return an object of class pm.vis.CascadeHistfit.
This is the abstract class for generating instances of objects that contain the specifications of a c...
Definition: Cascade.m:32
This is the abstract class for generating instances of objects that contain the specifications of var...
Definition: Figure.m:27
This is the base class for generating instances of objects that contain the specifications of various...
Definition: Plot.m:29
This is the abstract class for generating instances of axes with various types of plots from one or m...
Definition: Subplot.m:188
This is the abstract class for generating instances of objects that contain the specifications of var...
Definition: Tile.m:23
This is the base class for generating instances of figures containing a square symmetric tiling of su...
Definition: Triplex.m:31