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compare: chavalitros:932a867720d9ad9717dcf3cd19f8d39d46cd00f8
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27f3baca07 ... 932a867720

Author SHA1 Message Date
coolneng 932a867720
Remove duplicates from the solutions 2021-04-11 22:22:18 +02:00
coolneng 85e6b072c6
Implement furthest element computation 2021-04-11 22:08:24 +02:00
1 changed files with 26 additions and 13 deletions
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src/processing.py
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@ -1,16 +1,8 @@
from preprocessing import parse_file from preprocessing import parse_file
from pandas import DataFrame, Series from pandas import DataFrame
from sys import argv from sys import argv
def get_furthest_element(element, data):
element_df = data.query(f"source == {element} or destination == {element}")
furthest_index = element_df["distance"].idxmax()
furthest_row = data.iloc[furthest_index]
print(furthest_row)
return furthest_row
def get_first_solution(n, data): def get_first_solution(n, data):
distance_sum = DataFrame(columns=["point", "distance"]) distance_sum = DataFrame(columns=["point", "distance"])
for element in range(n): for element in range(n):
@ -24,16 +16,36 @@ def get_first_solution(n, data):
return furthest_row return furthest_row
def get_different_element(original, row):
if row.source == original:
return row.destination
return row.source
def get_furthest_element(element, data):
element_df = data.query(f"source == {element} or destination == {element}")
furthest_index = element_df["distance"].idxmax()
furthest_row = data.iloc[furthest_index]
furthest_point = get_different_element(original=element, row=furthest_row)
furthest_element = {"point": furthest_point, "distance": furthest_row["distance"]}
return furthest_element, furthest_index
def greedy_algorithm(n, m, data): def greedy_algorithm(n, m, data):
solutions = DataFrame(columns=["point", "distance"]) solutions = DataFrame(columns=["point", "distance"])
first_solution = get_first_solution(n, data) first_solution = get_first_solution(n, data)
solutions = solutions.append(first_solution, ignore_index=True) solutions = solutions.append(first_solution, ignore_index=True)
for _ in range(m): for _ in range(m):
centroid = solutions.apply(get_furthest_element, 1, data) last_solution = solutions["point"].tail(n=1)
solutions = solutions.append(centroid) centroid, furthest_index = get_furthest_element(
element=int(last_solution), data=data
)
solutions = solutions.append(dict(centroid), ignore_index=True)
data = data.drop(furthest_index)
return solutions
# NOTE In each step, switch the element that gives the least amount # NOTE In each step, switch to the element that gives the least amount
def local_search(): def local_search():
pass pass
@ -47,7 +59,8 @@ def main():
if len(argv) != 2: if len(argv) != 2:
usage(argv) usage(argv)
n, m, data = parse_file(argv[1]) n, m, data = parse_file(argv[1])
greedy_algorithm(n, m, data) solutions = greedy_algorithm(n, m, data)
print(solutions)
if __name__ == "__main__": if __name__ == "__main__":