Specify Upper Bounds for Variable-Size Arrays
Specify upper bounds for an array when:
Dynamic memory allocation is disabled.
If dynamic memory allocation is disabled, you must specify upper bounds for all arrays.
You do not want the code generator to use dynamic memory allocation for the array.
Specify upper bounds that result in an array size (in bytes) that is less than the dynamic memory allocation threshold.
Specify Upper Bounds for Variable-Size Inputs
This command specifies that the input to function foo
is a
matrix of real doubles with two variable dimensions. The upper bound for the first
dimension is 3. The upper bound for the second dimension is 100.
To specify upper bounds for variable-size inputs, use
the coder.typeof
construct with the fiaccel
-args
option. For
example:
fiaccel foo -args {coder.typeof(fi(0),[3 100],1)}
foo
is a matrix of
fi
types with two variable dimensions. The upper bound for
the first dimension is 3. The upper bound for the second dimension is 100. Specify Upper Bounds for Local Variables
When using static allocation, the code generator uses a sophisticated analysis to calculate the upper bounds of local data. However, when the analysis fails to detect an upper bound or calculates an upper bound that is not precise enough for your application, you must specify upper bounds explicitly for local variables.
Constrain the Value of Variables That Specify the Dimensions of Variable-Size Arrays
To constrain the value of variables that specify the dimensions of
variable-size arrays, use the assert
function with
relational operators. For
example:
function y = dim_need_bound(n) %#codegen assert (n <= 5); L= ones(n,n); M = zeros(n,n); M = [L; M]; y = M;
This assert
statement constrains input
n
to a maximum size of 5. L
is
variable-size with upper bounds of 5 in each dimension. M
is variable-size with an upper bound of 10 in the first dimension and 5 in
the second dimension.
Specify the Upper Bounds for All Instances of a Local Variable
To specify the upper bounds for all
instances of a local variable in a function, use the
coder.varsize
function. For example:
function Y = example_bounds1(u) %#codegen Y = [1 2 3 4 5]; coder.varsize('Y',[1 10]); if (u > 0) Y = [Y Y+u]; else Y = [Y Y*u]; end
The second argument of coder.varsize
specifies the
upper bound for each instance of the variable specified in the first
argument. In this example, the argument [1 10]
indicates
that for every instance of Y
:
The first dimension is fixed at size 1.
The second dimension can grow to an upper bound of 10.