To better understand the problem, note that basically this is just unweighted singlesource shortest path problem, which can be solved using Breadthfirst Search.
The graph in your problem is defined as:
 Each node represents an author.
 There is an edge between two nodes iff there is a paper in which the two authors represented by the two nodes coauthored it together.
For your example, the graph is as follows:
Reisig


Erdos  Martin
 /
 /
 /
 /
 /
Smith  Chen
Jablonski  Hsueh
So the algorithm will initially assign distance 0 to Erdos and infinity to others. Then as it iteratively visits the neighbors, it assigns increasing distance. So next iteration will assign distance (or in this case Erdos number) of 1 to Reisig, Martin, and Smith. The next and final iteration will assign distance of 2 to Chen. The distance for Jablonski and Hsueh will be left as infinity.
The graph representation using Adjacency List:
e = Erdos
r = Reisig
m = Martin
s = Smith
c = Chen
j = Jablonski
h = Hsueh
e: r m s
r: e
m: e s
s: e c
c: s
j: h
h: j
with the code to solve it in Python:
import Queue
def calc_erdos(adj_lst):
erdos_numbers = {}
queue = Queue.Queue()
queue.put(('Erdos, P.', 0))
while not queue.empty():
(cur_author, dist) = queue.get()
if cur_author not in erdos_numbers:
erdos_numbers[cur_author] = dist
for author in adj_lst[cur_author]:
if author not in erdos_numbers:
queue.put((author, dist+1))
return erdos_numbers
def main():
num_scenario = int(raw_input())
raw_input() # Read blank line
for idx_scenario in range(1, num_scenario+1):
[num_papers, num_queries] = [int(num) for num in raw_input().split()]
adj_lst = {}
for _ in range(num_papers):
paper = raw_input()
[authors, title] = paper.split(':')
authors = [author.strip() for author in authors.split(',')]
authors = [', '.join(first_last) for first_last in zip(authors[::2], authors[1::2])]
# Build the adjacency list
for author in authors:
author_neighbors = adj_lst.get(author,set())
for coauthor in authors:
if coauthor == author:
continue
author_neighbors.add(coauthor)
adj_lst[author] = author_neighbors
erdos_numbers = calc_erdos(adj_lst)
print 'Scenario %d' % idx_scenario
for _ in range(num_queries):
author = raw_input()
print '%s %s' % (author, erdos_numbers.get(author,'infinity'))
if __name__=='__main__':
main()
which with the input:
1
4 3
Smith, M.N., Martin, G., Erdos, P.: Newtonian forms of prime factors
Erdos, P., Reisig, W.: Stuttering in petri nets
Smith, M.N., Chen, X.: First order derivates in structured programming
Jablonski, T., Hsueh, Z.: Selfstabilizing data structures
Smith, M.N.
Hsueh, Z.
Chen, X.
will output:
Scenario 1
Smith, M.N. 1
Hsueh, Z. infinity
Chen, X. 2
Note:
The more general problem can be described as singlesource shortest path problem, for which the simplest solution is using Djikstra's Algorithm.
readline
here. Afor line in file:
loop is usually easier thanwhile True:
line = file.readline()
if not line: break
loop. But manually reading the file and parsing each record (with string methods or with regexps), yes, that's probably what you want. – abarnert Oct 3 '13 at 22:28