The code generator classifies a variable-size cell array as homogeneous. The cell array elements must have the same class. In the generated code, the cell array is represented as an array.
To make a cell array variable-size:
Create the cell array by using the cell function.
For example:
function z = mycell(n, j) %#codegen assert (n < 100); x = cell(1,n); for i = 1:n x{i} = i; end z = x{j}; end
For code generation, when you create a variable-size cell array
by using cell, you must adhere to certain restrictions.
See Definition of Variable-Size Cell Array by Using cell.
Grow the cell array. For example:
function z = mycell(n) %#codegen c = {1 2 3}; if n > 3 c = {1 2 3 4}; end z = c{n}; end
Force the cell array to be variable-size by using coder.varsize.
Consider this code:
function y = mycellfun() %#codegen c = {1 2 3}; coder.varsize('c', [1 10]); y = c{1}; end
Without coder.varsize, c is
fixed-size with dimensions 1-by-3. With coder.varsize, c is
variable-size with an upper bound of 10.
Sometimes, using coder.varsize changes
the classification of a cell array from heterogeneous to homogeneous.
Consider this code:
function y = mycell() %#codegen c = {1 [2 3]}; y = c{2}; end
The code generator classifies c as heterogeneous
because the elements have different sizes. c is
fixed-size with dimensions 1-by-2. If you use coder.varsize with c,
it becomes homogeneous. For example:
function y = mycell() %#codegen c = {1 [2 3]}; coder.varsize('c', [1 10], [0 1]); y = c{2}; end
c becomes a variable-size homogeneous cell
array with dimensions 1-by-:10.
To force c to be homogeneous, but not variable-size,
specify that none of the dimensions
vary. For example:
function y = mycell() %#codegen c = {1 [2 3]}; coder.varsize('c', [1 2], [0 0]); y = c{2}; end