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Determine Array Class

Query the Class Name

To determine the class of an array, use the class function:

a = [2,5,7,11];
class(a)
ans =
double
str = 'Character array';
class(str)
ans =
char

Test for Array Class

The isa function enables you to test for a specific class or a category of numeric class (numeric, float, integer):

a = [2,5,7,11];
isa(a,'double')
ans =
     1

Floating-point values (single and double precision values):

isa(a,'float')
ans =
     1

Numeric values (floating-point and integer values):

isa(a,'numeric')
ans =
     1

isa Returns True for Subclasses

isa returns true for classes derived from the specified class. For example, the SubInt class derives from the built-in type int16:

classdef SubInt < int16
   methods
      function obj = SubInt(data)
         if nargin == 0
            data = 0;
         end
         obj = obj@int16(data);
      end
   end
end

By definition, an instance of the SubInt class is also an instance of the int16 class:

aInt = SubInt;
isa(aInt,'int16')
ans =
     1

Using the integer category also returns true:

isa(aInt,'integer')
ans =
     1

For information on how to distinguish between built-in types and their subclasses, see Test for Subclasses of Built-in Types.

Test for Specific Types

The class function returns the name of the most derived class of an object:

class(aInt)
ans =
SubInt

Use the strcmp function with the class function to check for a specific class of an object:

a = int16(7);
strcmp(class(a),'int16')
ans =
     1

Because the class function returns the class name as a char vector, the inheritance does not affect the result of the comparison performed by strcmp:

aInt = SubInt;
strcmp(class(aInt),'int16')
ans =
     0

Test for Subclasses of Built-in Types

The isa function returns true for subclasses of the specified class. To define functions that require inputs that are MATLAB® built-in types but exclude subclasses, use one of these techniques.

Test for Specific Types

Use strcmp and class to test for a specific built-in type. This conditional statement checks to see if inputArg is single, and if not, it attempts to convert inputArg to single.

if strcmp(class(inputArg),'single')
   % Call function
else
   inputArg = single(inputArg);
end

Test for a Category of Types

Suppose that you create a MEX-function, myMexFcn, that requires two numeric inputs that must be of type double or single.

outArray = myMexFcn(a,b)

Define a cell array that contains the character arrays double and single:

floatTypes = {'double','single'};

Use strcmp and class to test the inputs against the types specified in the cell array.

if any(strcmp(class(a),floatTypes)) && ...
   any(strcmp(class(b),floatTypes))
   outArray = myMexFcn(a,b);
else
   % Try to convert inputs to avoid error
   ...
end

Use isobject

Use isobject to separate built-in types from subclasses of built-in types. The isobject function returns false for instances of built-in types.

% Create a int16 array
a = int16([2,5,7,11]);
isobject(a)
ans =
     0

This conditional tests if arr is an array is one of the built-in integer types.

if isa(arr,'integer') && ~isobject(arr)
   % if previous statement is true, arr is a built-in integer type
   ...
end