From C++ documentation on inplace_merge, the complexity of the algorithm is "Linear in comparisons (N-1) if an internal buffer was used, NlogN otherwise (where N is the number elements in the range [first,last))". What do they mean by an internal buffer and what causes a complexity of O(N-1) vs. O(NlogN)?
An internal buffer is simply a buffer allocated by the library of sufficient size to hold the output of the merge while the merge is happening (it's copied back to the original range after the merge is complete). If this extra space is used, the merge can be done in linear time. If it can't or doesn't use a separate buffer to store the output then the operation degrades to a general purpose sort with runtime