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170 lines
3.7 KiB
Python
170 lines
3.7 KiB
Python
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# Titan Robotics Team 2022: Array submodule
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# Written by Arthur Lu
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# Notes:
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# this should be imported as a python module using 'from tra_analysis import Array'
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# setup:
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__version__ = "1.0.0"
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__changelog__ = """changelog:
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1.0.0:
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- ported analysis.Array() here
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"""
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__author__ = (
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"Arthur Lu <learthurgo@gmail.com>",
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)
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import numpy as np
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class Array(): # tests on nd arrays independent of basic_stats
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def __init__(self, narray):
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self.array = np.array(narray)
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def __str__(self):
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return str(self.array)
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def elementwise_mean(self, *args, axis = 0): # expects arrays that are size normalized
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if len(*args) == 0:
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return np.mean(self.array, axis = axis)
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else:
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return np.mean([*args], axis = axis)
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def elementwise_median(self, *args, axis = 0):
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if len(*args) == 0:
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return np.median(self.array, axis = axis)
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else:
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return np.median([*args], axis = axis)
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def elementwise_stdev(self, *args, axis = 0):
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if len(*args) == 0:
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return np.std(self.array, axis = axis)
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else:
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return np.std([*args], axis = axis)
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def elementwise_variance(self, *args, axis = 0):
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if len(*args) == 0:
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return np.var(self.array, axis = axis)
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else:
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return np.var([*args], axis = axis)
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def elementwise_npmin(self, *args, axis = 0):
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if len(*args) == 0:
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return np.amin(self.array, axis = axis)
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else:
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return np.amin([*args], axis = axis)
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def elementwise_npmax(self, *args, axis = 0):
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if len(*args) == 0:
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return np.amax(self.array, axis = axis)
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else:
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return np.amax([*args], axis = axis)
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def elementwise_stats(self, *args, axis = 0):
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_mean = self.elementwise_mean(*args, axis = axis)
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_median = self.elementwise_median(*args, axis = axis)
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_stdev = self.elementwise_stdev(*args, axis = axis)
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_variance = self.elementwise_variance(*args, axis = axis)
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_min = self.elementwise_npmin(*args, axis = axis)
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_max = self.elementwise_npmax(*args, axis = axis)
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return _mean, _median, _stdev, _variance, _min, _max
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def __getitem__(self, key):
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return self.array[key]
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def __setitem__(self, key, value):
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self.array[key] == value
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def normalize(self, array):
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a = np.atleast_1d(np.linalg.norm(array))
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a[a==0] = 1
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return array / np.expand_dims(a, -1)
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def __add__(self, other):
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return self.array + other.array
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def __sub__(self, other):
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return self.array - other.array
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def __neg__(self):
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return -self.array
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def __abs__(self):
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return abs(self.array)
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def __invert__(self):
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return 1/self.array
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def __mul__(self, other):
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return self.array.dot(other.array)
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def __rmul__(self, other):
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return self.array.dot(other.array)
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def cross(self, other):
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return np.cross(self.array, other.array)
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def sort(self, array): # depreciated
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warnings.warn("Array.sort has been depreciated in favor of Sort")
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array_length = len(array)
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if array_length <= 1:
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return array
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middle_index = int(array_length / 2)
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left = array[0:middle_index]
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right = array[middle_index:]
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left = self.sort(left)
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right = self.sort(right)
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return self.__merge(left, right)
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def __merge(self, left, right):
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sorted_list = []
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left = left[:]
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right = right[:]
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while len(left) > 0 or len(right) > 0:
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if len(left) > 0 and len(right) > 0:
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if left[0] <= right[0]:
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sorted_list.append(left.pop(0))
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else:
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sorted_list.append(right.pop(0))
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elif len(left) > 0:
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sorted_list.append(left.pop(0))
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elif len(right) > 0:
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sorted_list.append(right.pop(0))
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return sorted_list
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def search(self, arr, x):
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return self.__search(arr, 0, len(arr) - 1, x)
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def __search(self, arr, low, high, x):
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if high >= low:
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mid = (high + low) // 2
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if arr[mid] == x:
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return mid
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elif arr[mid] > x:
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return binary_search(arr, low, mid - 1, x)
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else:
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return binary_search(arr, mid + 1, high, x)
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else:
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return -1
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