The test before set does make a difference, but how much it is depends on your use-cases.
The data will end up in a cache-line in either case (e.g. just writing or test-and-set).
However, there is a difference if your cache line is tagged as dirty (e.g. modified) or clean. Dirty cache-lines have to be written back to main memory while clean cache-lines can just be forgotten and filled with new data.
Now consider that your code mangles huge amounts of data, and you access each chunk of data only once or twice. If so can assume that most of the memory accesses are cache misses. What happens if the majority of your cache-lines are dirty at the point where a cache miss occurs and the majority of cache lines are dirty?
They have to be written back to the main memory before new data will be loaded into the line. This is slower than just forgetting the content of a cache-line. Also it will double the memory bandwidth between the cache and the main memory.
That may not make a difference for once CPU core since memory is fast these days, but another CPU will (hopefully) do some other work as well. You can be sure that the other CPU core will execute everything a tad faster if the buss is not busy moving cache-lines in and out.
In short: keeping your cache-lines clean will half that bandwidth requirement and makes cache-misses a tad cheaper.
Regarding the branch: Sure: It's costly, but a cache-miss is much worse! Also if you're lucky the CPU will use it's out of order execution features to offset cache misses with the costs of the branch.
If you really want to get the best possible performance out of this code, and if most of your accesses are cache-misses you have two options:
Bypass the cache: The x86 architecture has non temporal loads and stores for this purpose. They're hidden somewhere in the SSE instruction sets and can be used from the c-language via intrinsics.
(Only for experts): Use some lines of inline-assembler that replaces the test-and-set function with assembler that uses the CMOV (conditional move) instruction. This will not only keep your cache-lines clean but avoid the branch. Now CMOV is a slow instruction and will only outperform a branch if the branches cannot be predicted. So you'll better benchmark your code.