Browse Library
Sign In Start Free Trial
Close icon Search icon
Account
Browse Library Advanced Search 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 Mastering the C++17 STL
  • Table Of Contents Toc
  • Feedback & Rating feedback
Mastering the C++17 STL

Mastering the C++17 STL

By : Arthur O'Dwyer
4.5 (11)
Buy this Book
close
close
Mastering the C++17 STL

Mastering the C++17 STL

4.5 (11)
By: Arthur O'Dwyer
Buy this Book

Overview of this book

Modern C++ has come a long way since 2011. The latest update, C++17, has just been ratified and several implementations are on the way. This book is your guide to the C++ standard library, including the very latest C++17 features. The book starts by exploring the C++ Standard Template Library in depth. You will learn the key differences between classical polymorphism and generic programming, the foundation of the STL. You will also learn how to use the various algorithms and containers in the STL to suit your programming needs. The next module delves into the tools of modern C++. Here you will learn about algebraic types such as std::optional, vocabulary types such as std::function, smart pointers, and synchronization primitives such as std::atomic and std::mutex. In the final module, you will learn about C++'s support for regular expressions and file I/O. By the end of the book you will be proficient in using the C++17 standard library to implement real programs, and you'll have gained a solid understanding of the library's own internals.
Table of Contents (13 chapters)
close
close
close
Preface
Icon
Preface
Icon
What this book covers
Icon
What you need for this book
Icon
Who this book is for
Icon
Conventions
Icon
Reader feedback
Icon
Customer support
Free Chapter
1
Classical Polymorphism and Generic Programming
Icon
Classical Polymorphism and Generic Programming
Icon
Concrete monomorphic functions
Icon
Classically polymorphic functions
Icon
Generic programming with templates
Icon
Summary
2
Iterators and Ranges
Icon
Iterators and Ranges
Icon
The problem with integer indices
Icon
On beyond pointers
Icon
Const iterators
Icon
A pair of iterators defines a range
Icon
Iterator categories
Icon
Input and output iterators
Icon
Putting it all together
Icon
The deprecated std::iterator
Icon
Summary
3
The Iterator-Pair Algorithms
chevron up
Icon
The Iterator-Pair Algorithms
Icon
A note about headers
Icon
Read-only range algorithms
Icon
Shunting data with std::copy
Icon
Variations on a theme - std::move and std::move_iterator
Icon
Complicated copying with std::transform
Icon
Write-only range algorithms
Icon
Algorithms that affect object lifetime
Icon
Our first permutative algorithm: std::sort
Icon
Swapping, reversing, and partitioning
Icon
Rotation and permutation
Icon
Heaps and heapsort
Icon
Merges and mergesort
Icon
Searching and inserting in a sorted array with std::lower_bound
Icon
Deleting from a sorted array with std::remove_if
Icon
Summary
4
The Container Zoo
Icon
The Container Zoo
Icon
The notion of ownership
Icon
The simplest container: std::array<T, N>
Icon
The workhorse: std::vector<T>
Icon
The speedy hybrid: std::deque<T>
Icon
A particular set of skills: std::list<T>
Icon
Roughing it with std::forward_list<T>
Icon
Abstracting with std::stack<T> and std::queue<T>
Icon
The useful adaptor: std::priority_queue<T>
Icon
The trees: std::set<T> and std::map<K, V>
Icon
Oddballs: std::multiset<T> and std::multimap<K, V>
Icon
The hashes: std::unordered_set<T> and std::unordered_map<K, V>
Icon
Where does the memory come from?
Icon
Summary
5
Vocabulary Types
Icon
Vocabulary Types
Icon
The story of std::string
Icon
Tagging reference types with reference_wrapper
Icon
C++11 and algebraic types
Icon
Working with std::tuple
Icon
Expressing alternatives with std::variant
Icon
Delaying initialization with std::optional
Icon
Revisiting variant
Icon
Infinite alternatives with std::any
Icon
Type erasure in a nutshell
Icon
Again with the type erasure: std::function
Icon
Summary
6
Smart Pointers
Icon
Smart Pointers
Icon
The origins of smart pointers
Icon
Smart pointers never forget
Icon
Automatically managing memory with std::unique_ptr<T>
Icon
Reference counting with std::shared_ptr<T>
Icon
Denoting un-special-ness with observer_ptr<T>
Icon
Summary
7
Concurrency
Icon
Concurrency
Icon
The problem with volatile
Icon
Using std::atomic<T> for thread-safe accesses
Icon
Taking turns with std::mutex
Icon
Always associate a mutex with its controlled data
Icon
Special-purpose mutex types
Icon
Waiting for a condition
Icon
Promises about futures
Icon
Packaging up tasks for later
Icon
The future of futures
Icon
Speaking of threads...
Icon
Thread exhaustion and std::async
Icon
Building your own thread pool
Icon
Summary
8
Allocators
Icon
Allocators
Icon
An allocator is a handle to a memory resource
Icon
Defining a heap with memory_resource
Icon
Using the standard memory resources
Icon
The 500 hats of the standard allocator
Icon
Sticking a container to a single memory resource
Icon
Using the standard allocator types
Icon
Making a container allocator-aware
Icon
Propagating downwards with scoped_allocator_adaptor
Icon
Summary
9
Iostreams
Icon
Iostreams
Icon
The trouble with I/O in C++
Icon
Buffering versus formatting
Icon
Using the POSIX API
Icon
Using the standard C API
Icon
The classical iostreams hierarchy
Icon
Converting numbers to strings
Icon
Converting strings to numbers
Icon
Reading a line or word at a time
Icon
Summary
10
Regular Expressions
Icon
Regular Expressions
Icon
What are regular expressions?
Icon
Reifying regular expressions into std::regex objects
Icon
Matching and searching
Icon
Iterating over multiple matches
Icon
Using regular expressions for string replacement
Icon
A primer on the ECMAScript regex grammar
Icon
Summary
11
Random Numbers
Icon
Random Numbers
Icon
Random numbers versus pseudo-random numbers
Icon
The problem with rand()
Icon
Solving problems with <random>
Icon
Dealing with generators
Icon
Dealing with distributions
Icon
Summary
12
Filesystem
Icon
Filesystem
Icon
A note about namespaces
Icon
A very long note on error-reporting
Icon
Filesystems and paths
Icon
Statting files with directory_entry
Icon
Walking directories with directory_iterator
Icon
Modifying the filesystem
Icon
Reporting disk usage
Icon
Summary

Deleting from a sorted array with std::remove_if

In all our discussion of standard generic algorithms up to this point, we haven't covered the question of how to remove items from a range. This is because the concept of "a range" is fundamentally read-only: we might change the values of the elements of a given range, but we can never use a standard algorithm to shorten or lengthen the range itself. When, in the Shunting data with std::copy section, we used std::copy to "insert into" a vector named dest, it wasn't the std::copy algorithm that was doing the inserting; it was the std::back_insert_iterator object itself that held a reference to the underlying container and was able to insert into the container. std::copy didn't take dest.begin() and dest.end() as parameters; instead it took the special object std::back_inserter(dest).

So how do we...

Unlock full access

Continue reading for free

A Packt free trial gives you instant online access to our library of over 7000 practical eBooks and videos, constantly updated with the latest in tech
Start a 7-day FREE trial
End of Section 15
Next Section

Create a Note

Modal Close icon
You need to login to use this feature.
notes
bookmark search playlist download
font-size

Change the font size

margin-width

Change margin width

day-mode

Change background colour

Close icon Search
Country selected
Close icon Your notes and bookmarks

Delete Bookmark

Modal Close icon
Are you sure you want to delete it?
Cancel
Yes, Delete

Delete Note

Modal Close icon
Are you sure you want to delete it?
Cancel
Yes, Delete

Edit Note

Modal Close icon
Write a note (max 255 characters)
Cancel
Update Note

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