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numpy code and examples with attributes.pptx
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numpy code and examples with attributes.pptx

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NumPy • Stands for Numerical Python • Is the fundamental package required for high performance computing and data analysis • NumPy is so important for numerical computations in Python is because it is designed for efficiency on large arrays of data. • It provides • ndarray for creating multiple dimensional arrays • Internally stores data in a contiguous block of memory, independent of other built-in Python objects, use much less memory than built-in Python sequences. • Standard math functions for fast operations on entire arrays of data without having to write loops • NumPy Arrays are important because they enable you to express batch operations on data without writing any for loops. We call this vectorization.
NumPy ndarray vs list • One of the key features of NumPy is its N-dimensional array object, or ndarray, which is a fast, flexible container for large datasets in Python. • Whenever you see “array,” “NumPy array,” or “ndarray” in the text, with few exceptions they all refer to the same thing: the ndarray object. • NumPy-based algorithms are generally 10 to 100 times faster (or more) than their pure Python counterparts and use significantly less memory. import numpy as np my_arr = np.arange(1000000) my_list = list(range(1000000))
ndarray • ndarray is used for storage of homogeneous data • i.e., all elements the same type • Every array must have a shape and a dtype • Supports convenient slicing, indexing and efficient vectorized computation import numpy as np data1 = [6, 7.5, 8, 0, 1] arr1 = np.array(data1) print(arr1) print(arr1.dtype) print(arr1.shape) print(arr1.ndim)
Creating ndarrays Using list of lists import numpy as np data2 = [[1, 2, 3, 4], [5, 6, 7, 8]] #list of lists arr2 = np.array(data2) print(arr2.ndim) #2 print(arr2.shape) # (2,4)
array = np.array([[0,1,2],[2,3,4]]) [[0 1 2] [2 3 4]] array = np.zeros((2,3)) [[0. 0. 0.] [0. 0. 0.]] array = np.ones((2,3)) [[1. 1. 1.] [1. 1. 1.]] array = np.eye(3) [[1. 0. 0.] [0. 1. 0.] [0. 0. 1.]] array = np.arange(0, 10, 2) [0, 2, 4, 6, 8] array = np.random.randint(0, 10, (3,3)) [[6 4 3] [1 5 6] [9 8 5]] Creating ndarrays arange is an array-valued version of the built-in Python range function
Arithmatic with NumPy Arrays • Any arithmetic operations between equal-size arrays applies the operation element-wise: arr = np.array([[1., 2., 3.], [4., 5., 6.]]) print(arr) [[1. 2. 3.] [4. 5. 6.]] print(arr * arr) [[ 1. 4. 9.] [16. 25. 36.]] print(arr - arr) [[0. 0. 0.] [0. 0. 0.]]
Arithmatic with NumPy Arrays • Arithmetic operations with scalars propagate the scalar argument to each element in the array: • Comparisons between arrays of the same size yield boolean arrays: arr = np.array([[1., 2., 3.], [4., 5., 6.]]) print(arr) [[1. 2. 3.] [4. 5. 6.]] print(arr **2) [[ 1. 4. 9.] [16. 25. 36.]] arr2 = np.array([[0., 4., 1.], [7., 2., 12.]]) print(arr2) [[ 0. 4. 1.] [ 7. 2. 12.]] print(arr2 > arr) [[False True False] [ True False True]]
Indexing and Slicing • One-dimensional arrays are simple; on the surface they act similarly to Python lists: arr = np.arange(10) print(arr) # [0 1 2 3 4 5 6 7 8 9] print(arr[5]) #5 print(arr[5:8]) #[5 6 7] arr[5:8] = 12 print(arr) #[ 0 1 2 3 4 12 12 12 8 9]
Indexing and Slicing • As you can see, if you assign a scalar value to a slice, as in arr[5:8] = 12, the value is propagated (or broadcasted) to the entire selection. • An important first distinction from Python’s built-in lists is that array slices are views on the original array. • This means that the data is not copied, and any modifications to the view will be reflected in the source array. arr = np.arange(10) print(arr) # [0 1 2 3 4 5 6 7 8 9] arr_slice = arr[5:8] print(arr_slice) # [5 6 7] arr_slice[1] = 12345 print(arr) # [ 0 1 2 3 4 5 12345 7 8 9] arr_slice[:] = 64 print(arr) # [ 0 1 2 3 4 64 64 64 8 9]
Indexing • In a two-dimensional array, the elements at each index are no longer scalars but rather one-dimensional arrays: • Thus, individual elements can be accessed recursively. But that is a bit too much work, so you can pass a comma-separated list of indices to select individual elements. • So these are equivalent: arr2d = np.array([[1, 2, 3], [4, 5, 6], [7, 8, 9]]) print(arr2d[2]) # [7 8 9] print(arr2d[0][2]) # 3 print(arr2d[0, 2]) #3
Activity 3 • Consider the two-dimensional array, arr2d. • Write a code to slice this array to display the last column, [[3] [6] [9]] • Write a code to slice this array to display the last 2 elements of middle array, [5 6] arr2d = np.array([[1, 2, 3], [4, 5, 6], [7, 8, 9]])

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numpy code and examples with attributes.pptx

  • 1.
    NumPy • Stands forNumerical Python • Is the fundamental package required for high performance computing and data analysis • NumPy is so important for numerical computations in Python is because it is designed for efficiency on large arrays of data. • It provides • ndarray for creating multiple dimensional arrays • Internally stores data in a contiguous block of memory, independent of other built-in Python objects, use much less memory than built-in Python sequences. • Standard math functions for fast operations on entire arrays of data without having to write loops • NumPy Arrays are important because they enable you to express batch operations on data without writing any for loops. We call this vectorization.
  • 2.
    NumPy ndarray vslist • One of the key features of NumPy is its N-dimensional array object, or ndarray, which is a fast, flexible container for large datasets in Python. • Whenever you see “array,” “NumPy array,” or “ndarray” in the text, with few exceptions they all refer to the same thing: the ndarray object. • NumPy-based algorithms are generally 10 to 100 times faster (or more) than their pure Python counterparts and use significantly less memory. import numpy as np my_arr = np.arange(1000000) my_list = list(range(1000000))
  • 3.
    ndarray • ndarray isused for storage of homogeneous data • i.e., all elements the same type • Every array must have a shape and a dtype • Supports convenient slicing, indexing and efficient vectorized computation import numpy as np data1 = [6, 7.5, 8, 0, 1] arr1 = np.array(data1) print(arr1) print(arr1.dtype) print(arr1.shape) print(arr1.ndim)
  • 4.
    Creating ndarrays Using listof lists import numpy as np data2 = [[1, 2, 3, 4], [5, 6, 7, 8]] #list of lists arr2 = np.array(data2) print(arr2.ndim) #2 print(arr2.shape) # (2,4)
  • 5.
    array = np.array([[0,1,2],[2,3,4]]) [[01 2] [2 3 4]] array = np.zeros((2,3)) [[0. 0. 0.] [0. 0. 0.]] array = np.ones((2,3)) [[1. 1. 1.] [1. 1. 1.]] array = np.eye(3) [[1. 0. 0.] [0. 1. 0.] [0. 0. 1.]] array = np.arange(0, 10, 2) [0, 2, 4, 6, 8] array = np.random.randint(0, 10, (3,3)) [[6 4 3] [1 5 6] [9 8 5]] Creating ndarrays arange is an array-valued version of the built-in Python range function
  • 6.
    Arithmatic with NumPyArrays • Any arithmetic operations between equal-size arrays applies the operation element-wise: arr = np.array([[1., 2., 3.], [4., 5., 6.]]) print(arr) [[1. 2. 3.] [4. 5. 6.]] print(arr * arr) [[ 1. 4. 9.] [16. 25. 36.]] print(arr - arr) [[0. 0. 0.] [0. 0. 0.]]
  • 7.
    Arithmatic with NumPyArrays • Arithmetic operations with scalars propagate the scalar argument to each element in the array: • Comparisons between arrays of the same size yield boolean arrays: arr = np.array([[1., 2., 3.], [4., 5., 6.]]) print(arr) [[1. 2. 3.] [4. 5. 6.]] print(arr **2) [[ 1. 4. 9.] [16. 25. 36.]] arr2 = np.array([[0., 4., 1.], [7., 2., 12.]]) print(arr2) [[ 0. 4. 1.] [ 7. 2. 12.]] print(arr2 > arr) [[False True False] [ True False True]]
  • 8.
    Indexing and Slicing •One-dimensional arrays are simple; on the surface they act similarly to Python lists: arr = np.arange(10) print(arr) # [0 1 2 3 4 5 6 7 8 9] print(arr[5]) #5 print(arr[5:8]) #[5 6 7] arr[5:8] = 12 print(arr) #[ 0 1 2 3 4 12 12 12 8 9]
  • 9.
    Indexing and Slicing •As you can see, if you assign a scalar value to a slice, as in arr[5:8] = 12, the value is propagated (or broadcasted) to the entire selection. • An important first distinction from Python’s built-in lists is that array slices are views on the original array. • This means that the data is not copied, and any modifications to the view will be reflected in the source array. arr = np.arange(10) print(arr) # [0 1 2 3 4 5 6 7 8 9] arr_slice = arr[5:8] print(arr_slice) # [5 6 7] arr_slice[1] = 12345 print(arr) # [ 0 1 2 3 4 5 12345 7 8 9] arr_slice[:] = 64 print(arr) # [ 0 1 2 3 4 64 64 64 8 9]
  • 10.
    Indexing • In atwo-dimensional array, the elements at each index are no longer scalars but rather one-dimensional arrays: • Thus, individual elements can be accessed recursively. But that is a bit too much work, so you can pass a comma-separated list of indices to select individual elements. • So these are equivalent: arr2d = np.array([[1, 2, 3], [4, 5, 6], [7, 8, 9]]) print(arr2d[2]) # [7 8 9] print(arr2d[0][2]) # 3 print(arr2d[0, 2]) #3
  • 11.
    Activity 3 • Considerthe two-dimensional array, arr2d. • Write a code to slice this array to display the last column, [[3] [6] [9]] • Write a code to slice this array to display the last 2 elements of middle array, [5 6] arr2d = np.array([[1, 2, 3], [4, 5, 6], [7, 8, 9]])

Editor's Notes

  • #5 array = np.eye(3, dtype=int)
  • #6 np.array(list)
  • #9 As NumPy has been designed to be able to work with very large arrays, you could imagine performance and memory problems if NumPy insisted on always copying data. If you want a copy of a slice of an ndarray instead of a view, you will need to explicitly copy the array—for example, arr[5:8].copy().