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See the recommended documentation of this function

histc

computes an histogram

Syntax

[cf, ind] = histc(n, data [,normalization])
[cf, ind] = histc(x, data [,normalization])

Arguments

n

positive integer (number of classes)

x

increasing vector defining the classes (x may have at least 2 components)

data

vector (data to be analysed)

cf

vector representing the number of values of data falling in the classes defined by n or x

ind

vector or matrix of same size as data, representing the respective belonging of each element of data data to the classes defined by n or x

normalization

scalar boolean. normalization=%t (default): cf represents the number of points in each class, relatively to the total number of points, normalization=%f: cf represents the total number of points in each class

Description

This function computes a histogram of the data vector using the classes x. When the number n of classes is provided instead of x, the classes are chosen equally spaced and x(1) = min(data) < x(2) = x(1) + dx < ... < x(n+1) = max(data) with dx = (x(n+1)-x(1))/n.

The classes are defined by C1 = [x(1), x(2)] and Ci = ( x(i), x(i+1)] for i >= 2. Noting Nmax the total number of data (Nmax = length(data)) and Ni the number of data components falling in Ci, the value of the histogram for x in Ci is equal to Ni/(Nmax (x(i+1)-x(i))) when "normalized" is selected and else, simply equal to Ni. When normalization occurs the histogram verifies: when x(1)<=min(data) and max(data) <= x(n+1)

Examples

• Example #1: variations around a histogram of a gaussian random sample
// The gaussian random sample
d = rand(1, 10000, 'normal');

[cf, ind] = histc(20, d, normalization=%f)
// We use histplot to show a graphic representation
clf(); histplot(20, d, normalization=%f);

[cf, ind] = histc(20, d)
clf(); histplot(20, d); • Example #2: histogram of a binomial (B(6,0.5)) random sample
d = grand(1000,1,"bin", 6, 0.5);
c = linspace(-0.5,6.5,8);
clf()
subplot(2,1,1)
[cf, ind] = histc(c, d)
histplot(c, d, style=2);
xtitle(_("Normalized histogram"))
subplot(2,1,2)
[cf, ind] = histc(c, d, normalization=%f)
histplot(c, d, normalization=%f, style=5);
xtitle(_("Non normalized histogram")) • Example #3: histogram of an exponential random sample
lambda = 2;
X = grand(100000,1,"exp", 1/lambda);
Xmax = max(X);
[cf, ind] = histc(40, X)
clf()
histplot(40, X, style=2);
x = linspace(0, max(Xmax), 100)';
plot2d(x, lambda*exp(-lambda*x), strf="000", style=5)
legend([_("exponential random sample histogram") _("exact density curve")]); • Example #4: the frequency polygon chart and the histogram of a gaussian random sample
n = 10;
data = rand(1, 1000, "normal");
[cf, ind] = histc(n, data)
clf(); histplot(n, data, style=12, polygon=%t);
legend([_("normalized histogram") _("frequency polygon chart")]); • histplot — esboça um histograma
• hist3d — representação 3d de um histograma
• plot2d — 2D plot
• dsearch — Busca binária (também conhecida como busca dicótoma em francês)

History

 Version Description 5.5.0 Introduction