Browse Library
Sign In Start Free Trial
Close icon Search icon
Account
Browse Library Sign In Start Free Trial

Add to playlist

Create a Playlist

Modal Close icon
You need to login to use this feature.
  • Book Overview & Buying Scientific Computing with Python
  • Table Of Contents Toc
Scientific Computing with Python

Scientific Computing with Python - Second Edition

By : Claus Führer, Claus Fuhrer, Jan Erik Solem, Olivier Verdier
4.5 (14)
Buy this Book
close
close
Scientific Computing with Python

Scientific Computing with Python

4.5 (14)
By: Claus Führer, Claus Fuhrer, Jan Erik Solem, Olivier Verdier
Buy this Book

Overview of this book

Python has tremendous potential within the scientific computing domain. This updated edition of Scientific Computing with Python features new chapters on graphical user interfaces, efficient data processing, and parallel computing to help you perform mathematical and scientific computing efficiently using Python. This book will help you to explore new Python syntax features and create different models using scientific computing principles. The book presents Python alongside mathematical applications and demonstrates how to apply Python concepts in computing with the help of examples involving Python 3.8. You'll use pandas for basic data analysis to understand the modern needs of scientific computing, and cover data module improvements and built-in features. You'll also explore numerical computation modules such as NumPy and SciPy, which enable fast access to highly efficient numerical algorithms. By learning to use the plotting module Matplotlib, you will be able to represent your computational results in talks and publications. A special chapter is devoted to SymPy, a tool for bridging symbolic and numerical computations. By the end of this Python book, you'll have gained a solid understanding of task automation and how to implement and test mathematical algorithms within the realm of scientific computing.
Table of Contents (23 chapters)
close
close
close
Preface
Icon
Preface
Icon
Who this book is for
Icon
What this book covers
Icon
To get the most out of this book
Icon
Download the example code files
Icon
Download the color images
Icon
Conventions used
Icon
Get in touch
Icon
Reviews
1
Getting Started
Icon
Getting Started
Icon
1.1 Installation and configuration instructions
Icon
1.1.1 Installation
Icon
1.1.2 Anaconda
Icon
1.1.3 Spyder
Icon
1.1.4 Configuration
Icon
1.1.5 Python shell
Icon
1.1.6 Executing scripts
Icon
1.1.7 Getting help
Icon
1.1.8 Jupyter – Python notebook
Icon
1.2 Program and program flow
Icon
1.2.1 Comments
Icon
1.2.2 Line joining
Icon
1.3 Basic data types in Python
Icon
1.3.1 Numbers
Icon
1.3.2 Strings
Icon
1.3.3 Variables
Icon
1.3.4 Lists
Icon
Operations on lists
Icon
1.3.6 Boolean expressions
Icon
1.4 Repeating statements with loops
Icon
1.4.1 Repeating a task
Icon
1.4.2 break and else
Icon
1.5 Conditional statements
Icon
1.6 Encapsulating code with functions
Icon
1.7 Understanding scripts and modules
Icon
1.7.1 Simple modules – collecting functions
Icon
1.7.2 Using modules and namespaces
Icon
1.8 Python interpreter
Icon
Summary
Lock Free Chapter
2
Variables and Basic Types
Icon
Variables and Basic Types
Icon
2.1 Variables
Icon
2.2 Numeric types
Icon
2.2.1 Integers
Icon
Plain integers
Icon
2.2.2 Floating-point numbers
Icon
Floating-point representation
Icon
Infinite and not a number
Icon
Underflow – Machine epsilon
Icon
Other float types in NumPy
Icon
2.2.3 Complex numbers
Icon
Complex numbers in mathematics
Icon
The j notation
Icon
Real and imaginary parts
Icon
2.3 Booleans
Icon
2.3.1 Boolean operators
Icon
2.3.2 Boolean casting
Icon
Automatic Boolean casting
Icon
2.3.3 Return values of and and or
Icon
2.3.4 Booleans and integers
Icon
2.4 Strings
Icon
2.4.1 Escape sequences and raw strings
Icon
2.4.2 Operations on strings and string methods
Icon
2.4.3 String formatting
Icon
2.5 Summary
Icon
2.6 Exercises
3
Container Types
Icon
Container Types
Icon
3.1 Lists
Icon
3.1.1 Slicing
Icon
Strides
Icon
3.1.2 Altering lists
Icon
3.1.3 Belonging to a list
Icon
3.1.4 List methods
Icon
In-place operations
Icon
3.1.5 Merging lists – zip
Icon
3.1.6 List comprehension
Icon
3.2 A quick glance at the concept of arrays
Icon
3.3 Tuples
Icon
3.3.1 Packing and unpacking variables
Icon
3.4 Dictionaries
Icon
3.4.1 Creating and altering dictionaries
Icon
3.4.2 Looping over dictionaries
Icon
3.5 Sets
Icon
3.6 Container conversions
Icon
3.7 Checking the type of a variable
Icon
3.8 Summary
Icon
3.9 Exercises
4
Linear Algebra - Arrays
Icon
Linear Algebra - Arrays
Icon
4.1 Overview of the array type
Icon
4.1.1 Vectors and matrices
Icon
4.1.2 Indexing and slices
Icon
4.1.3 Linear algebra operations
Icon
Solving a linear system
Icon
4.2 Mathematical preliminaries
Icon
4.2.1 Arrays as functions
Icon
4.2.2 Operations are elementwise
Icon
4.2.3 Shape and number of dimensions
Icon
4.2.4 The dot operations
Icon
4.3 The array type
Icon
4.3.1 Array properties
Icon
4.3.2 Creating arrays from lists
Icon
Array and Python parentheses
Icon
4.4 Accessing array entries
Icon
4.4.1 Basic array slicing
Icon
4.4.2 Altering an array using slices
Icon
4.5 Functions to construct arrays
Icon
4.6 Accessing and changing the shape
Icon
4.6.1 The function shape
Icon
4.6.2 Number of dimensions
Icon
4.6.3 Reshape
Icon
Transpose
Icon
4.7 Stacking
Icon
4.7.1 Stacking vectors
Icon
4.8 Functions acting on arrays
Icon
4.8.1 Universal functions
Icon
Built-in universal functions
Icon
Creation of universal functions
Icon
4.8.2 Array functions
Icon
4.9 Linear algebra methods in SciPy
Icon
4.9.1 Solving several linear equation systems with LU
Icon
4.9.2 Solving a least square problem with SVD
Icon
4.9.3 More methods
Icon
4.10 Summary
Icon
4.11 Exercises
5
Advanced Array Concepts
Icon
Advanced Array Concepts
Icon
5.1 Array views and copies
Icon
5.1.1 Array views
Icon
5.1.2 Slices as views
Icon
5.1.3 Generating views by transposing and reshaping
Icon
5.1.4 Array copies
Icon
5.2 Comparing arrays
Icon
5.2.1 Boolean arrays
Icon
5.2.2 Checking for array equality
Icon
5.2.3 Boolean operations on arrays
Icon
5.3 Array indexing
Icon
5.3.1 Indexing with Boolean arrays
Icon
5.3.2 Using the command where
Icon
5.4 Performance and vectorization
Icon
5.4.1 Vectorization
Icon
5.5 Broadcasting
Icon
5.5.1 Mathematical views
Icon
Constant functions
Icon
Functions of several variables
Icon
General mechanism
Icon
Conventions
Icon
5.5.2 Broadcasting arrays
Icon
The broadcasting problem
Icon
Shape mismatch
Icon
5.5.3 Typical examples
Icon
Rescale rows
Icon
Rescale columns
Icon
Functions of two variables
Icon
5.6. Sparse matrices
Icon
5.6.1 Sparse matrix formats
Icon
Compressed sparse row format (CSR)
Icon
Compressed sparse column format (CSC)
Icon
Row-based linked list format (LIL)
Icon
Altering and slicing matrices in LIL format
Icon
5.6.2 Generating sparse matrices
Icon
5.6.3 Sparse matrix methods
Icon
5.7 Summary
6
Plotting
Icon
Plotting
Icon
6.1 Making plots with basic plotting commands
Icon
6.1.1 Using the plot command and some of its variants
Icon
6.1.2 Formatting
Icon
6.1.3 Working with meshgrid and contours
Icon
6.1.4 Generating images and contours
Icon
6.2 Working with Matplotlib objects directly
Icon
6.2.1 Creating axes objects
Icon
6.2.2 Modifying line properties
Icon
6.2.3 Making annotations
Icon
6.2.4 Filling areas between curves
Icon
6.2.5 Defining ticks and tick labels
Icon
6.2.6 Setting spines makes your plot more instructive – a comprehensive example
Icon
6.3 Making 3D plots
Icon
6.4 Making movies from plots
Icon
6.5 Summary
Icon
6.6 Exercises
7
Functions
Icon
Functions
Icon
7.1 Functions in mathematics and functions in Python
Icon
7.2 Parameters and arguments
Icon
7.2.1 Passing arguments – by position and by keyword
Icon
7.2.2 Changing arguments
Icon
7.2.3 Access to variables defined outside the local namespace
Icon
7.2.4 Default arguments
Icon
Beware of mutable default arguments
Icon
7.2.5 Variable number of arguments
Icon
7.3 Return values
Icon
7.4 Recursive functions
Icon
7.5 Function documentation
Icon
7.6 Functions are objects
Icon
7.6.1 Partial application
Icon
7.6.2 Using closures
Icon
7.7 Anonymous functions – the keyword lambda
Icon
7.7.1 The lambda construction is always replaceable
Icon
7.8 Functions as decorators
Icon
7.9 Summary
Icon
7.10 Exercises
8
Classes
Icon
Classes
Icon
8.1 Introduction to classes
Icon
8.1.1 A guiding example: Rational numbers
Icon
8.1.2 Defining a class and making an instance
Icon
8.1.3 The __init__ method
Icon
8.1.4 Attributes and methods
Icon
8.1.5 Special methods
Icon
Reverse operations
Icon
Methods mimicking function calls and iterables
Icon
8.2 Attributes that depend on each other
Icon
8.2.1 The function property
Icon
8.3 Bound and unbound methods
Icon
8.4 Class attributes and class methods
Icon
8.4.1 Class attributes
Icon
8.4.2 Class methods
Icon
8.5 Subclasses and inheritance
Icon
8.6 Encapsulation
Icon
8.7 Classes as decorators
Icon
8.8 Summary
Icon
8.9 Exercises
9
Iterating
chevron up
Icon
Iterating
Icon
9.1 The for statement
Icon
9.2 Controlling the flow inside the loop
Icon
9.3 Iterable objects
Icon
9.3.1 Generators
Icon
9.3.2 Iterators are disposable
Icon
9.3.3 Iterator tools
Icon
9.3.4 Generators of recursive sequences
Icon
Arithmetic geometric mean
Icon
Convergence acceleration
Icon
9.4 List-filling patterns
Icon
9.4.1 List filling with the append method
Icon
9.4.2 List from iterators
Icon
9.4.3 Storing generated values
Icon
9.5 When iterators behave as lists
Icon
9.5.1 Generator expressions
Icon
9.5.2 Zipping iterators
Icon
9.6 Iterator objects
Icon
9.7 Infinite iterations
Icon
9.7.1 The while loop
Icon
9.7.2 Recursion
Icon
9.8 Summary
Icon
9.9 Exercises
10
Series and Dataframes - Working with Pandas
Icon
Series and Dataframes - Working with Pandas
Icon
10. 1 A guiding example: Solar cells
Icon
10.2 NumPy arrays and pandas dataframes
Icon
10.2.1 Indexing rules
Icon
10.3 Creating and modifying dataframes
Icon
10.3.1 Creating a dataframe from imported data
Icon
10.3.2 Setting the index
Icon
10.3.3 Deleting entries
Icon
10.3.4 Merging dataframes
Icon
10.3.5 Missing data in a dataframe
Icon
10.4 Working with dataframes
Icon
10.4.1 Plotting from dataframes
Icon
10.4.2 Calculations within dataframes
Icon
10.4.3 Grouping data
Icon
10.5 Summary
11
Communication by a Graphical User Interface
Icon
Communication by a Graphical User Interface
Icon
11.1 A guiding example to widgets
Icon
11.1.1 Changing a value with a slider bar
Icon
An example with two sliders
Icon
11.2 The button widget and mouse events
Icon
11.2.1 Updating curve parameters with a button
Icon
11.2.2 Mouse events and textboxes
Icon
11.3 Summary
12
Error and Exception Handling
Icon
Error and Exception Handling
Icon
12.1 What are exceptions?
Icon
12.1.1 Basic principles
Icon
Raising exceptions
Icon
Catching exceptions
Icon
12.1.2 User-defined exceptions
Icon
12.1.3 Context managers – the with statement
Icon
12.2 Finding errors: debugging
Icon
12.2.1 Bugs
Icon
12.2.2 The stack
Icon
12.2.3 The Python debugger
Icon
12.2.4 Overview – debug commands
Icon
12.2.5 Debugging in IPython
Icon
12.3 Summary
13
Namespaces, Scopes, and Modules
Icon
Namespaces, Scopes, and Modules
Icon
13.1 Namespaces
Icon
13.2 The scope of a variable
Icon
13.3 Modules
Icon
13.3.1 Introduction
Icon
13.3.2 Modules in IPython
Icon
The IPython magic command – run
Icon
13.3.3 The variable __name__
Icon
13.3.4 Some useful modules
Icon
13.4 Summary
14
Input and Output
Icon
Input and Output
Icon
14.1 File handling
Icon
14.1.1 Interacting with files
Icon
14.1.2 Files are iterables
Icon
14.1.3 File modes
Icon
14.2 NumPy methods
Icon
14.2.1 savetxt
Icon
14.2.3 loadtxt
Icon
14.3 Pickling
Icon
14.4 Shelves
Icon
14.5 Reading and writing Matlab data files
Icon
14.6 Reading and writing images
Icon
14.7 Summary
15
Testing
Icon
Testing
Icon
15.1 Manual testing
Icon
15.2 Automatic testing
Icon
15.2.1 Testing the bisection algorithm
Icon
15.2.2 Using the unittest module
Icon
15.2.3 Test setUp and tearDown methods
Icon
Setting up testdata when a test case is created
Icon
15.2.4 Parameterizing tests
Icon
15.2.5 Assertion tools
Icon
15.2.6 Float comparisons
Icon
15.2.7 Unit and functional tests
Icon
15.2.8 Debugging
Icon
15.2.9 Test discovery
Icon
15.3 Measuring execution time
Icon
15.3.1 Timing with a magic function
Icon
15.3.2 Timing with the Python module timeit
Icon
15.3.3 Timing with a context manager
Icon
15.4 Summary
Icon
15.5 Exercises
16
Symbolic Computations - SymPy
Icon
Symbolic Computations - SymPy
Icon
16.1 What are symbolic computations?
Icon
16.1.1 Elaborating an example in SymPy
Icon
16.2 Basic elements of SymPy
Icon
16.2.1 Symbols – the basis of all formulas
Icon
16.2.2 Numbers
Icon
16.2.3 Functions
Icon
Undefined functions
Icon
16.2.4 Elementary functions
Icon
16.2.5 Lambda functions
Icon
16.3 Symbolic linear algebra
Icon
16.3.1 Symbolic matrices
Icon
16.3.2 Examples for linear algebra methods in SymPy
Icon
16.4 Substitutions
Icon
16. 5 Evaluating symbolic expressions
Icon
16.5.1 Example: A study on the convergence order of Newton's method
Icon
16.5.2 Converting a symbolic expression into a numeric function
Icon
A study on the parameter dependency of polynomial coefficients
Icon
16.6 Summary
17
Interacting with the Operating System
Icon
Interacting with the Operating System
Icon
17.1 Running a Python program in a Linux shell
Icon
17.2 The module sys
Icon
17.2.1 Command-line arguments
Icon
17.2.2 Input and output streams
Icon
Redirecting streams
Icon
Building a pipe between a Linux command and a Python script
Icon
17.3 How to execute Linux commands from Python
Icon
17.3.1 The modules subprocess and shlex
Icon
A complete process: subprocess.run
Icon
Creating processes: subprocess.Popen
Icon
17.4 Summary
18
Python for Parallel Computing
Icon
Python for Parallel Computing
Icon
18.1 Multicore computers and computer clusters
Icon
18.2 Message passing interface (MPI)
Icon
18.2.1 Prerequisites
Icon
18.3 Distributing tasks to different cores
Icon
18.3.1 Information exchange between processes
Icon
18.3.2 Point-to-point communication
Icon
18.3.3 Sending NumPy arrays
Icon
18.3.4 Blocking and non-blocking communication
Icon
18.3.5 One-to-all and all-to-one communication
Icon
Preparing the data for communication
Icon
The commands – scatter and gather
Icon
A final data reduction operation – the command reduce
Icon
Sending the same message to all
Icon
Buffered data
Icon
18.4 Summary
19
Comprehensive Examples
Icon
Comprehensive Examples
Icon
19.1 Polynomials
Icon
19.1.1 Theoretical background
Icon
19.1.2 Tasks
Icon
19.1.3 The polynomial class
Icon
19.1.4 Usage examples of the polynomial class
Icon
19.1.5 Newton polynomial
Icon
19.2 Spectral clustering
Icon
19.3 Solving initial value problems
Icon
19.4 Summary
Icon
19.5 Exercises
20
About Packt
Icon
About Packt
Icon
Why subscribe?
21
Other Books You May Enjoy
Icon
Other Books You May Enjoy
Icon
Packt is searching for authors like you
Icon
Leave a review - let other readers know what you think
22
References
Icon
References

9.3 Iterable objects

A for loop is primarily used to traverse a list, but it picks the elements of the list one at a time. In particular, there is no need to store the whole list in memory for the loop to work properly. The mechanism that allows for loops to work without lists is that of iterators.

An iterable object produces objects to be passed to a loop. Such an object may be used inside a loop as if it were a list:

for element in obj:
    ...

The notion of iterable objects thus generalizes the idea of lists.

The simplest example of an iterable object is given by lists. The produced objects are simply the objects stored in the list:

L = ['A', 'B', 'C']
for element in L:
    print(element)

An iterable object need not produce existing objects. The objects may, instead, be produced on the fly.

A typical iterable is the object returned by the function range. This function works as if it would generate...

CONTINUE READING
83
Tech Concepts
36
Programming languages
73
Tech Tools
Icon Unlimited access to the largest independent learning library in tech of over 8,000 expert-authored tech books and videos.
Icon Innovative learning tools, including AI book assistants, code context explainers, and text-to-speech.
Icon 50+ new titles added per month and exclusive early access to books as they are being written.
Scientific Computing with Python
End of Section 9
Next Section
notes
bookmark Notes and Bookmarks search Search in title playlist Add to playlist download Download options
font-size Font size

Change the font size

margin-width Margin width

Change margin width

day-mode Day/Sepia/Night Modes

Change background colour

Close icon Search
Country selected
Close icon Your notes and bookmarks

Confirmation

Modal Close icon
claim successful
Order Page Read Now

Buy this book with your credits?

Modal Close icon
Are you sure you want to buy this book with one of your credits?
Close
YES, BUY

Submit Your Feedback

Modal Close icon
Modal Close icon
Modal Close icon