Force Code Generator to Use Run-Time Recursion
When your MATLAB® code includes recursive function calls, the code generator uses compile-time or run-time recursion. With compile-time recursion, the code generator creates multiple versions of the recursive function in the generated code. These versions are known as function specializations. With run-time recursion, the code generator produces a recursive function. If compile-time recursion results in too many function specializations or if you prefer run-time recursion, you can try to force the code generator to use run-time recursion. Try one of these approaches:
Treat the Input to the Recursive Function as a Nonconstant
Consider this function:
function y = call_recfcn(n) A = ones(1,n); x = 5; y = recfcn(A,x); end function y = recfcn(A,x) if size(A,2) == 1 || x == 1 y = A(1); else y = A(1)+recfcn(A(2:end),x-1); end end
call_recfcn
calls recfcn
with
the value 5 for the second argument. recfcn
calls
itself recursively until x
is 1. For each recfcn
call,
the input argument x
has a different value. The
code generator produces five specializations of recfcn
,
one for each call.
To force run-time recursion, in call_recfcn
,
in the call to recfcn
, instruct the code generator
to treat the value of the input argument x
as a
nonconstant value by using coder.ignoreConst
.
function y = call_recfcn(n) A = ones(1,n); x = coder.ignoreConst(5); y = recfcn(A,x); end function y = recfcn(A,x) if size(A,2) == 1 || x == 1 y = A(1); else y = A(1)+recfcn(A(2:end),x-1); end end
, you see only one specialization.
Make the Input to the Recursive Function Variable-Size
Consider this code:
function z = call_mysum(A) %#codegen z = mysum(A); end function y = mysum(A) coder.inline('never'); if size(A,2) == 1 y = A(1); else y = A(1)+ mysum(A(2:end)); end end
If the input to mysum
is fixed-size, the
code generator uses compile-time recursion. To force the code generator
to use run-time conversion, make the input to mysum
variable-size
by using coder.varsize
.
function z = call_mysum(A) %#codegen B = A; coder.varsize('B'); z = mysum(B); end function y = mysum(A) coder.inline('never'); if size(A,2) == 1 y = A(1); else y = A(1)+ mysum(A(2:end)); end end
Assign Output Variable Before the Recursive Call
The code generator uses compile-time recursion for this code:
function y = callrecursive(n) x = 10; y = myrecursive(x,n); end function y = myrecursive(x,n) coder.inline('never') if x > 1 y = n + myrecursive(x-1,n-1); else y = n; end end
To force the code generator to use run-time recursion, modify myrecursive
so
that the output y
is assigned before the recursive
call. Place the assignment y = n
in the if
block
and the recursive call in the else
block.
function y = callrecursive(n) x = 10; y = myrecursive(x,n); end function y = myrecursive(x,n) coder.inline('never') if x == 1 y = n; else y = n + myrecursive(x-1,n-1); end end