If you use
Tcl_EvalObjv to invoke the command, you won't go through the Tcl interpreter. The cost will be one hash-table lookup (or less, if you reuse the
Tcl_Obj* containing the command name) and then you'll be in the implementation of the command. Otherwise, constructing a list
Tcl_Obj* (e.g., with
Tcl_NewListObj) and then calling
Tcl_EvalObj is nearly as cheap, as that's a special case because the list construction code is guaranteed to produce lists that are also substitution-free commands.
Building a normal string and passing that through
Tcl_EvalObj) is significantly slower, as that has to be parsed. (OTOH, passing the same
Tcl_EvalObj multiple times in a row will be faster as it will be compiled internally to bytecode.)
Accessing into values (i.e., into
Tcl_Obj* references) is pretty fast, provided the internal representation of those values matches the type that the access function requires. If there's a mismatch, an internal type conversion function may be called and they're often relatively expensive. To understand internal representations, here's a few for you to think about:
string — array of unicode characters
integer — a C
long (except when you spill over into arbitrary precision work)
list — array of
dict — hash table that maps
script — bytecoded version
command — pointer to the implementation function
OK, those aren't the exact types (there's often other bookkeeping data too) but they're what you should think of as the model.
As to “which is fastest”, the only sane way to answer the question is to try it and see which is fastest for real: the answer will depend on too many factors for anyone without the actual code to predict it. If you're calling from Tcl, the
time command is perfect for this sort of performance analysis work (it is what it is designed for). If you're calling from C or C++, use that language's performance measurement idioms (which I don't know, but would search Stack Overflow for).
Myself? I advise writing the API to be as clear and clean as possible. Describe the actual operations, and don't distort everything to try to squeeze an extra 0.01% of performance out.