I' m trying to implement a weighted graph. I know that there are two ways to implement a weighted graph. Either with a two dimensional array(adjacency matrix) or with an array of linked lists(adjacency list). Which one of the two is more efficient and faster?
That depends on your usage and the kinds of graphs you want to store.
Let n be the number of nodes and m be the number of edges. If you want to know whether two nodes u and v are connected (and the weight of the edge), an adjacency matrix allows you to determine this in constant time (in O-notation, O(1)), simply by retrieving the entry
The main downside of an adjacency matrix is the memory required. Alltogether, you need to store n^2 entries. With an adjacency list, you need to store only the edges that actually exist (m entries, asuming a directed graph). So if your graph is sparse, adjacency lists clearly occupy much less memory.
My conclusion would be: Use an adjacency matrix if your main operation is retrieving the edge weight for two specific nodes; under the condition that your graphs are small enough so that n^2 entries fit in memory. Otherwise, use the adjacency list.
Personally I'd go for the linked lists approach, assuming that it will often be a sparse graph (i.e. most of the array cells are a waste of space).
Went to wikipedia to read up on adjacency lists (been ages since I used graphs) and it has a nice section on the trade-offs between the 2 approaches. Ultimately, as with many either/or choices it will come down to 'it depends', based on what are the likely use cases for your library.
After reading the wiki article, I think another point in favor of using lists would be attaching data to each directed segment (or even different weights, think of walk/bike/car distance between 2 points etc.)