Remove some print statements within algorithmic functions (#7499)

* Remove commented-out print statements in algorithmic functions

* Encapsulate non-algorithmic code in __main__

* Remove unused print_matrix function

* Remove print statement in __init__

* Remove print statement from doctest

* Encapsulate non-algorithmic code in __main__

* Modify algorithm to return instead of print

* Encapsulate non-algorithmic code in __main__

* Refactor data_safety_checker to return instead of print

* updating DIRECTORY.md

* updating DIRECTORY.md

* Apply suggestions from code review

* [pre-commit.ci] auto fixes from pre-commit.com hooks

for more information, see https://pre-commit.ci

Co-authored-by: github-actions <${GITHUB_ACTOR}@users.noreply.github.com>
Co-authored-by: Christian Clauss <cclauss@me.com>
Co-authored-by: pre-commit-ci[bot] <66853113+pre-commit-ci[bot]@users.noreply.github.com>
This commit is contained in:
Tianyi Zheng 2022-10-22 07:33:51 -04:00 committed by GitHub
parent 717f0e46d9
commit cc10b20beb
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10 changed files with 69 additions and 64 deletions

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@ -360,6 +360,7 @@
* [Dijkstra](graphs/dijkstra.py)
* [Dijkstra 2](graphs/dijkstra_2.py)
* [Dijkstra Algorithm](graphs/dijkstra_algorithm.py)
* [Dijkstra Alternate](graphs/dijkstra_alternate.py)
* [Dinic](graphs/dinic.py)
* [Directed And Undirected (Weighted) Graph](graphs/directed_and_undirected_(weighted)_graph.py)
* [Edmonds Karp Multiple Source And Sink](graphs/edmonds_karp_multiple_source_and_sink.py)
@ -460,6 +461,7 @@
* [Similarity Search](machine_learning/similarity_search.py)
* [Support Vector Machines](machine_learning/support_vector_machines.py)
* [Word Frequency Functions](machine_learning/word_frequency_functions.py)
* [Xgboostclassifier](machine_learning/xgboostclassifier.py)
## Maths
* [3N Plus 1](maths/3n_plus_1.py)
@ -534,6 +536,7 @@
* [Line Length](maths/line_length.py)
* [Lucas Lehmer Primality Test](maths/lucas_lehmer_primality_test.py)
* [Lucas Series](maths/lucas_series.py)
* [Maclaurin Sin](maths/maclaurin_sin.py)
* [Matrix Exponentiation](maths/matrix_exponentiation.py)
* [Max Sum Sliding Window](maths/max_sum_sliding_window.py)
* [Median Of Two Arrays](maths/median_of_two_arrays.py)
@ -936,6 +939,7 @@
* [Not Gate](quantum/not_gate.py)
* [Q Full Adder](quantum/q_full_adder.py)
* [Quantum Entanglement](quantum/quantum_entanglement.py)
* [Quantum Random](quantum/quantum_random.py)
* [Ripple Adder Classic](quantum/ripple_adder_classic.py)
* [Single Qubit Measure](quantum/single_qubit_measure.py)

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@ -66,7 +66,6 @@ def run(canvas: list[list[bool]]) -> list[list[bool]]:
next_gen_canvas = np.array(create_canvas(current_canvas.shape[0]))
for r, row in enumerate(current_canvas):
for c, pt in enumerate(row):
# print(r-1,r+2,c-1,c+2)
next_gen_canvas[r][c] = __judge_point(
pt, current_canvas[r - 1 : r + 2, c - 1 : c + 2]
)

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@ -105,7 +105,6 @@ class IndexCalculation:
"""
def __init__(self, red=None, green=None, blue=None, red_edge=None, nir=None):
# print("Numpy version: " + np.__version__)
self.set_matricies(red=red, green=green, blue=blue, red_edge=red_edge, nir=nir)
def set_matricies(self, red=None, green=None, blue=None, red_edge=None, nir=None):

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@ -69,8 +69,10 @@ def max_subarray_sum(array, left, right):
return max(left_half_sum, right_half_sum, cross_sum)
if __name__ == "__main__":
array = [-2, -5, 6, -2, -3, 1, 5, -6]
array_length = len(array)
print(
"Maximum sum of contiguous subarray:", max_subarray_sum(array, 0, array_length - 1)
"Maximum sum of contiguous subarray:",
max_subarray_sum(array, 0, array_length - 1),
)

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@ -68,8 +68,7 @@ def matrix_dimensions(matrix: list) -> tuple[int, int]:
def print_matrix(matrix: list) -> None:
for i in range(len(matrix)):
print(matrix[i])
print("\n".join(str(line) for line in matrix))
def actual_strassen(matrix_a: list, matrix_b: list) -> list:

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@ -14,7 +14,6 @@ class SubArray:
def __init__(self, arr):
# we need a list not a string, so do something to change the type
self.array = arr.split(",")
print(("the input array is:", self.array))
def solve_sub_array(self):
rear = [int(self.array[0])] * len(self.array)

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@ -7,7 +7,7 @@ def maximum_non_adjacent_sum(nums: list[int]) -> int:
"""
Find the maximum non-adjacent sum of the integers in the nums input list
>>> print(maximum_non_adjacent_sum([1, 2, 3]))
>>> maximum_non_adjacent_sum([1, 2, 3])
4
>>> maximum_non_adjacent_sum([1, 5, 3, 7, 2, 2, 6])
18

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@ -37,7 +37,8 @@ def print_combination(arr, n, r):
combination_util(arr, n, r, 0, data, 0)
# Driver function to check for above function
if __name__ == "__main__":
# Driver code to check the function above
arr = [10, 20, 30, 40, 50]
print_combination(arr, len(arr), 3)
# This code is contributed by Ambuj sahu

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@ -1,13 +1,14 @@
def is_sum_subset(arr, arr_len, required_sum):
def is_sum_subset(arr: list[int], required_sum: int) -> bool:
"""
>>> is_sum_subset([2, 4, 6, 8], 4, 5)
>>> is_sum_subset([2, 4, 6, 8], 5)
False
>>> is_sum_subset([2, 4, 6, 8], 4, 14)
>>> is_sum_subset([2, 4, 6, 8], 14)
True
"""
# a subset value says 1 if that subset sum can be formed else 0
# initially no subsets can be formed hence False/0
subset = [[False for i in range(required_sum + 1)] for i in range(arr_len + 1)]
arr_len = len(arr)
subset = [[False] * (required_sum + 1) for _ in range(arr_len + 1)]
# for each arr value, a sum of zero(0) can be formed by not taking any element
# hence True/1
@ -25,10 +26,7 @@ def is_sum_subset(arr, arr_len, required_sum):
if arr[i - 1] <= j:
subset[i][j] = subset[i - 1][j] or subset[i - 1][j - arr[i - 1]]
# uncomment to print the subset
# for i in range(arrLen+1):
# print(subset[i])
print(subset[arr_len][required_sum])
return subset[arr_len][required_sum]
if __name__ == "__main__":

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@ -1,7 +1,7 @@
"""
this is code for forecasting
but i modified it and used it for safety checker of data
for ex: you have a online shop and for some reason some data are
for ex: you have an online shop and for some reason some data are
missing (the amount of data that u expected are not supposed to be)
then we can use it
*ps : 1. ofc we can use normal statistic method but in this case
@ -91,14 +91,14 @@ def interquartile_range_checker(train_user: list) -> float:
return low_lim
def data_safety_checker(list_vote: list, actual_result: float) -> None:
def data_safety_checker(list_vote: list, actual_result: float) -> bool:
"""
Used to review all the votes (list result prediction)
and compare it to the actual result.
input : list of predictions
output : print whether it's safe or not
>>> data_safety_checker([2, 3, 4], 5.0)
Today's data is not safe.
False
"""
safe = 0
not_safe = 0
@ -107,15 +107,18 @@ def data_safety_checker(list_vote: list, actual_result: float) -> None:
safe = not_safe + 1
else:
if abs(abs(i) - abs(actual_result)) <= 0.1:
safe = safe + 1
safe += 1
else:
not_safe = not_safe + 1
print(f"Today's data is {'not ' if safe <= not_safe else ''}safe.")
not_safe += 1
return safe > not_safe
if __name__ == "__main__":
# data_input_df = pd.read_csv("ex_data.csv", header=None)
data_input = [[18231, 0.0, 1], [22621, 1.0, 2], [15675, 0.0, 3], [23583, 1.0, 4]]
data_input_df = pd.DataFrame(data_input, columns=["total_user", "total_even", "days"])
data_input_df = pd.DataFrame(
data_input, columns=["total_user", "total_even", "days"]
)
"""
data column = total user in a day, how much online event held in one day,
@ -134,7 +137,7 @@ x = normalize_df[:, [1, 2]].tolist()
x_train = x[: len(x) - 1]
x_test = x[len(x) - 1 :]
# for linear reression & sarimax
# for linear regression & sarimax
trn_date = total_date[: len(total_date) - 1]
trn_user = total_user[: len(total_user) - 1]
trn_match = total_match[: len(total_match) - 1]
@ -143,14 +146,15 @@ tst_date = total_date[len(total_date) - 1 :]
tst_user = total_user[len(total_user) - 1 :]
tst_match = total_match[len(total_match) - 1 :]
# voting system with forecasting
res_vote = []
res_vote.append(
linear_regression_prediction(trn_date, trn_user, trn_match, tst_date, tst_match)
)
res_vote.append(sarimax_predictor(trn_user, trn_match, tst_match))
res_vote.append(support_vector_regressor(x_train, x_test, trn_user))
res_vote = [
linear_regression_prediction(
trn_date, trn_user, trn_match, tst_date, tst_match
),
sarimax_predictor(trn_user, trn_match, tst_match),
support_vector_regressor(x_train, x_test, trn_user),
]
# check the safety of todays'data^^
data_safety_checker(res_vote, tst_user)
# check the safety of today's data
not_str = "" if data_safety_checker(res_vote, tst_user) else "not "
print("Today's data is {not_str}safe.")