For C/C++ code generation, you should explicitly and unambiguously define the class, size, and complexity of variables before using them in operations or returning them as outputs. Define variables by assignment, but note that the assignment copies not only the value, but also the size, class, and complexity represented by that value to the new variable. For example:
Define properties this way so that the variable is defined on the required execution paths during C/C++ code generation.
The data that you assign to a variable can be a scalar, matrix, or structure. If your variable is a structure, define the properties of each field explicitly.
Initializing the new variable to the value of the assigned data
sometimes results in redundant copies in the generated code. To avoid
redundant copies, you can define variables without initializing their
values by using the
coder.nullcopy construct as
described in Eliminate Redundant Copies of Variables in Generated Code.
When you define variables, they are local by default; they do
not persist between function calls. To make variables persistent,
Consider the following MATLAB® code:
... if c > 0 x = 11; end % Later in your code ... if c > 0 use(x); end ...
c > 0and used only when
c > 0. This code works in MATLAB, but generates a compilation error during code generation because it detects that x is undefined on some execution paths (when
c <= 0).
To make this code suitable for code generation, define x before using it:
x = 0; ... if c > 0 x = 11; end % Later in your code ... if c > 0 use(x); end ...
Consider the following MATLAB code:
... if c > 0 s.a = 11; disp(s); else s.a = 12; s.b = 12; end % Try to use s use(s); ...
ifstatement uses only the field a, and the
elseclause uses fields a and b. This code works in MATLAB, but generates a compilation error during C/C++ code generation because it detects a structure type mismatch. To prevent this error, do not add fields to a structure after you perform certain operations on the structure. For more information, see Structure Definition for Code Generation.
To make this code suitable for C/C++ code generation, define all fields of s before using it.
... % Define all fields in structure s s = struct(‘a’,0, ‘b’, 0); if c > 0 s.a = 11; disp(s); else s.a = 12; s.b = 12; end % Use s use(s); ...
In general, you should adhere to the "one variable/one type" rule for C/C++ code generation; that is, each variable must have a specific class, size and complexity. Generally, if you reassign variable properties after the initial assignment, you get a compilation error during code generation, but there are exceptions, as described in Reassignment of Variable Properties.
By default, constants are of type
To define variables of other types, you can use type cast operators
in variable definitions. For example, the following code defines variable
... x = 15; % x is of type double by default. y = uint8(x); % y has the value of x, but cast to uint8. ...
When generating C/C++ code from MATLAB, you cannot grow a variable by writing into an element beyond its current size. Such indexing operations produce run-time errors. You must define the matrix first before assigning values to its elements.
For example, the following initial assignment is not allowed for code generation:
g(3,2) = 14.6; % Not allowed for creating g % OK for assigning value once created
For more information about indexing matrices, see Incompatibility with MATLAB in Matrix Indexing Operations for Code Generation.