From R Internals, 1.1 SEXPs:
... the basic building blocks of R objects are often called nodes... Both types of node structure have as their first three fields a 32-bit spxinfo header and then three pointers (to the attributes and the previous and next node in a doubly-linked list)
So vectors in R are implemented as a doubly-linked list. And, it even appears that there is no data structure smaller than a single-node linked list. This is evident by:
> a <- 4
As mentioned by others:
array.c has the source for
do_matrix. In addition
array.c contains source for
memory.c contains the source for
While a lot of things that were going on were over my head, it seems evident that a matrix is simply a doubly-linked list of doubly-linked lists. I believe (though am unsure) that row and column names (like those stored in a data frame) are stored in the 'attributes' of each list.
The response to the "what the strengths and weaknesses" of the implementation of the data structures would be that (from my limited knowledge) doubly linked lists have a strength in that dynamic memory allocation is simpler and doesn't require the overhead of copying and reallocating an entire array, and the weakness being that (depending on how many pointers there are to the list: head, tail, middle, quarters, etc.) accessing a random value
v can take the overhead of iterating through several elements before the desired one is found.
Is this correct?