Added static type checking to polynom-for-points.py towards issue #2128 (#2335)

* Added static type checking to linear_algebra/src/polynom-for-points.py * Fixed TravisCI errors * Update polynom-for-points.py Co-authored-by: Christian Clauss <cclauss@me.com>
2024-11-23 21:11:08 +00:00 · 2020-09-18 12:07:49 +05:30 · 2020-09-18 12:07:49 +05:30 · 0dea049f44
commit 0dea049f44
parent 2de2267319
1 changed files with 9 additions and 6 deletions
--- a/linear_algebra/src/polynom-for-points.py
+++ b/linear_algebra/src/polynom-for-points.py
@ -1,4 +1,7 @@
-def points_to_polynomial(coordinates):
+from typing import List
+
+
+def points_to_polynomial(coordinates: List[List[int]]) -> str:
    """
    coordinates is a two dimensional matrix: [[x, y], [x, y], ...]
    number of points you want to use
@ -57,7 +60,7 @@ def points_to_polynomial(coordinates):
        while count_of_line < x:
            count_in_line = 0
            a = coordinates[count_of_line][0]
-            count_line = []
+            count_line: List[int] = []
            while count_in_line < x:
                count_line.append(a ** (x - (count_in_line + 1)))
                count_in_line += 1
@ -66,7 +69,7 @@ def points_to_polynomial(coordinates):

        count_of_line = 0
        # put the y values into a vector
-        vector = []
+        vector: List[int] = []
        while count_of_line < x:
            vector.append(coordinates[count_of_line][1])
            count_of_line += 1
@ -80,7 +83,7 @@ def points_to_polynomial(coordinates):
                    zahlen += 1
                if zahlen == x:
                    break
-                bruch = (matrix[zahlen][count]) / (matrix[count][count])
+                bruch = matrix[zahlen][count] / matrix[count][count]
                for counting_columns, item in enumerate(matrix[count]):
                    # manipulating all the values in the matrix
                    matrix[zahlen][counting_columns] -= item * bruch
@ -91,7 +94,7 @@ def points_to_polynomial(coordinates):

        count = 0
        # make solutions
-        solution = []
+        solution: List[str] = []
        while count < x:
            solution.append(vector[count] / matrix[count][count])
            count += 1
@ -100,7 +103,7 @@ def points_to_polynomial(coordinates):
        solved = "f(x)="

        while count < x:
-            remove_e = str(solution[count]).split("E")
+            remove_e: List[str] = str(solution[count]).split("E")
            if len(remove_e) > 1:
                solution[count] = remove_e[0] + "*10^" + remove_e[1]
            solved += "x^" + str(x - (count + 1)) + "*" + str(solution[count])