The diag function is indeed not defined for dlarray types in MATLAB. To create a diagonal matrix for dlarray, you can manually construct the diagonal elements and then use indexing to place them in the appropriate positions.
For the dlarray type, you'll need to use standard MATLAB operations that are compatible with dlarray objects. Here's an alternative approach:
D = dlarray(zeros(M, M + 1));
main_diag1 = (1/(2*h)) * ones(M-1, 1);
D(i, i+2) = -main_diag1(i);
Note that in the above code, I've used a for-loop to assign the values to the dlarray D. This is necessary because dlarray does not support the diag function directly. However, it does support element-wise assignment and mathematical operations.
The loop iterates over the first M-1 rows to create the desired pattern in the matrix. It assigns positive values on the main diagonal and negative values on the diagonal starting at column 3. For the last row, the values are assigned directly.
Keep in mind that operations on dlarray objects must be compatible with the deep learning functions in MATLAB, and only a subset of MATLAB functions can be used with dlarray objects. If you need to perform operations that are not directly supported, you may need to convert the dlarray back to a regular MATLAB array using the extractdata function, perform the operation, and then convert it back to dlarray. However, in this case, such a conversion is not necessary.
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