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Diffstat (limited to 'data_structures_and_algorithms/fixtures.py')
-rw-r--r-- | data_structures_and_algorithms/fixtures.py | 110 |
1 files changed, 110 insertions, 0 deletions
diff --git a/data_structures_and_algorithms/fixtures.py b/data_structures_and_algorithms/fixtures.py new file mode 100644 index 000000000000..27689ca76d04 --- /dev/null +++ b/data_structures_and_algorithms/fixtures.py @@ -0,0 +1,110 @@ +# Using this module to store commonly used, but annoying to create, data +# structures for my test inputs. +# +# Use like: +# from fixtures import graph_a + +################################################################################ +# Constants +################################################################################ + +edge_list = [ + ('a', 'b'), + ('a', 'c'), + ('a', 'e'), + ('b', 'c'), + ('b', 'd'), + ('c', 'e'), + ('d', 'f'), + ('e', 'd'), + ('e', 'f'), +] + +unweighted_graph = { + 'a': {'b', 'c', 'e'}, + 'b': {'c', 'd'}, + 'c': {'e'}, + 'd': {'f'}, + 'e': {'d', 'f'}, + 'f': set(), +} + +adjacencies = { + 'a': { + 'a': False, + 'b': False + }, + 'a': [], + 'a': [], + 'a': [], + 'a': [], + 'a': [], + 'a': [], +} + +weighted_graph = { + 'a': {(4, 'b'), (2, 'c'), (4, 'e')}, + 'b': {(5, 'c'), (10, 'd')}, + 'c': {(3, 'e')}, + 'd': {(11, 'f')}, + 'e': {(4, 'd'), (5, 'f')}, + 'f': set(), +} + +# This is `weighted_graph` with each of its weighted edges "expanded". +expanded_weights_graph = { + 'a': ['b-1', 'c-1', 'e-1'], + 'b-1': ['b-2'], + 'b-2': ['b-3'], + 'b-3': ['b'], + 'c-1': ['c'], + 'e-1': ['e-2'], + 'e-2': ['e-3'], + 'e-3': ['e'], + # and so on... +} + +unweighted_digraph = { + '5': {'2', '0'}, + '4': {'0', '1'}, + '3': {'1'}, + '2': {'3'}, + '1': set(), + '0': set(), +} + +################################################################################ +# Functions +################################################################################ + + +def vertices(xs): + result = set() + for a, b in xs: + result.add(a) + result.add(b) + return result + + +def edges_to_neighbors(xs): + result = {v: set() for v in vertices(xs)} + for a, b in xs: + result[a].add(b) + return result + + +def neighbors_to_edges(xs): + result = [] + for k, ys in xs.items(): + for y in ys: + result.append((k, y)) + return result + + +def edges_to_adjacencies(xs): + return xs + + +# Skipping handling adjacencies because I cannot think of a reasonable use-case +# for it when the vertex labels are items other than integers. I can think of +# ways of handling this, but none excite me. |