Difference between revisions of "Workshop: Advanced Computation (with Python)"
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| − | == Useful NumPy Commands == | + | ==Useful NumPy Commands== |
| − | === '''Creating Arrays''' === | + | ==='''Creating Arrays'''=== |
| − | ==== numpy.zeros ==== | + | ====numpy.zeros==== |
[[File:Numpy zeros.png|thumb|Example of numpy.zeros]] | [[File:Numpy zeros.png|thumb|Example of numpy.zeros]] | ||
In numpy we can create an array in many different ways. Firstly I will show you how to create a matrix to any shape with every value set to 0. For this case where we want a blank array we can use the '''zeros''' method. Referring to the NumPy documentation, we find that the syntax is simply numpy.zeros((shape)) where shape is a shape enclosed by parentheses with each axis separated by a comma. | In numpy we can create an array in many different ways. Firstly I will show you how to create a matrix to any shape with every value set to 0. For this case where we want a blank array we can use the '''zeros''' method. Referring to the NumPy documentation, we find that the syntax is simply numpy.zeros((shape)) where shape is a shape enclosed by parentheses with each axis separated by a comma. | ||
| − | ==== numpy.matrix ==== | + | ====numpy.matrix==== |
[[File:Numpy.matrix.png|thumb|Example of numpy.matrix]] | [[File:Numpy.matrix.png|thumb|Example of numpy.matrix]] | ||
We can also use numpy.matrix if we know the values we want in our array. Again, referring to the NumPy documentation, we see that there are actually two different ways we can represent arrays in NumPy. One syntax uses spaces and semicolons to separate elements. Another syntax uses commas and square brackets to separate elements. | We can also use numpy.matrix if we know the values we want in our array. Again, referring to the NumPy documentation, we see that there are actually two different ways we can represent arrays in NumPy. One syntax uses spaces and semicolons to separate elements. Another syntax uses commas and square brackets to separate elements. | ||
| − | <br /> | + | |
| + | |||
| + | === '''Building / Appending to Arrays''' === | ||
| + | |||
| + | ==== numpy.append ==== | ||
| + | We can append a new row or column to our matrix using the “append” method. Referring to the documentation you can see that the append method takes 3 arguments. 2 ‘array-like’ variables and an integer. The first variable is the original matrix that you want to add to. The second variable is the row or column of information to append. Finally, the last variable refers to the axis in which the row should be added to the end of. Numpy differentiates between axes like this: | ||
| + | |||
| + | * 0 refers to X | ||
| + | * 1 refers to Y | ||
| + | * 2 refers to Z | ||
| + | * 3+ refers to additional arbitrary axes | ||
| + | |||
| + | ==== numpy.stack ==== | ||
| + | ''(See also: [https://docs.scipy.org/doc/numpy/reference/generated/numpy.dstack.html?highlight=dstack#numpy.dstack numpy.dstack], [https://docs.scipy.org/doc/numpy/reference/generated/numpy.hstack.html?highlight=hstack#numpy.hstack numpy.hstack], [https://docs.scipy.org/doc/numpy/reference/generated/numpy.vstack.html?highlight=vstack#numpy.vstack numpy.vstack])'' | ||
| + | |||
| + | Maybe instead of appending data to your array line-by-line you want to add all the data from one array and to the end of an existing array. This is where the stack method shines. According to the documentation, it takes 2 main arguments; a list of arrays to stack and a integer to differentiate which axis it should be appended to. '''It is important to note that the stack command only works for array with the same shape. '''<br /> | ||
Revision as of 22:14, 3 October 2019
Contents
Modules and Packages
Modules and packages are a feature of Python wherein, you can import subtasks (or modules) into your code. Using modules and packages leads to cleaner code because the files you create are less verbose.
Modules
Suppose you write an algorithm called sort.py which sorts a given dataset alphanumerically. Anytime you write a python script where you want to utilize this alphanumeric sorting function you can import the sort.py script into your existing code as a module with the following line:
import sort
Packages
Some coders write large modules and publish them for public use. We call these open source modules “packages”. SciPy, NumPy and matplotlib are all examples of popular python packages. We import them into our code with the same syntax as with modules. We can create a nickname for each package, simply “import [packagename] as [nickname]”.
import numpy as np
import scipy
import matplotlib as plt
Install Some Packages
For this tutorial we will be installing three packages. Please follow along.
- For Windows - Open command prompt (go to the search bar, type “cmd” then enter).
- For Mac - Open terminal
Now that you are in either command prompt or terminal, we are going to install NumPy, SciPy, and Matplotlib. Type in the following commands one-by-one, waiting for them to execute completely before entering the next one.
python -m pip install numpy
python -m pip install scipy
python -m pip install matplotlib
So what are these packages?
- NumPy - This package gives you methods allow you to make arrays/matrices. It makes representing, analyzing and computing data easy.
- SciPy - This package gives you further scientific computational resources including functions for optimization, linear algebra, FFT, signal and image processing and much more.
- Matplotlib - This is a plotting library which gives you an easy way to visually represent data sets.
Using Packages
When you decide that you want to implement a package it is important to refer to the package’s official documentation. The documentation is a guide which can show you the capabilities, limitations and implementation of the package. The documentation for SciPy, NumPy and Matplotlib can be found under “Other Educational Resources for Python” at the end of this workshop.
All methods and functions which come along with the package can be called by their nickname (or the package name if no nickname was assigned in the import command).
Useful NumPy Commands
Creating Arrays
numpy.zeros
In numpy we can create an array in many different ways. Firstly I will show you how to create a matrix to any shape with every value set to 0. For this case where we want a blank array we can use the zeros method. Referring to the NumPy documentation, we find that the syntax is simply numpy.zeros((shape)) where shape is a shape enclosed by parentheses with each axis separated by a comma.
numpy.matrix
We can also use numpy.matrix if we know the values we want in our array. Again, referring to the NumPy documentation, we see that there are actually two different ways we can represent arrays in NumPy. One syntax uses spaces and semicolons to separate elements. Another syntax uses commas and square brackets to separate elements.
Building / Appending to Arrays
numpy.append
We can append a new row or column to our matrix using the “append” method. Referring to the documentation you can see that the append method takes 3 arguments. 2 ‘array-like’ variables and an integer. The first variable is the original matrix that you want to add to. The second variable is the row or column of information to append. Finally, the last variable refers to the axis in which the row should be added to the end of. Numpy differentiates between axes like this:
- 0 refers to X
- 1 refers to Y
- 2 refers to Z
- 3+ refers to additional arbitrary axes
numpy.stack
(See also: numpy.dstack, numpy.hstack, numpy.vstack)
Maybe instead of appending data to your array line-by-line you want to add all the data from one array and to the end of an existing array. This is where the stack method shines. According to the documentation, it takes 2 main arguments; a list of arrays to stack and a integer to differentiate which axis it should be appended to. It is important to note that the stack command only works for array with the same shape.
