/Modern-CPP-Programming

Modern C++ Programming Course (C++11/14/17/20)

Modern C++ Programming

C++11 / C++14 / C++17 / C++20 / (C++23)

This open-access course is directed at those who are already familiar with C and object-oriented programming towards a proficiency level of C++ programming. The course covers the basics of C++ programming and moves on to advanced C++ semantics and concepts.

Key features:

  • Free and frequently updated
  • Include the last language standard concepts and features
  • Practical teaching: small structured descriptions associated with code
  • Minimal code examples for showing just a specific feature or issue without digressing
  • Complementary language aspects: tools, coding conventions, project organization, and code optimization
  • Experience-based: many aspects, examples, and problems come from real-world cases faced during my work as software engineer

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CHAPTERS

TITLE MAIN FOCUS
1 Introduction History of C/C++, Areas of Applications, Course introduction
2 Basic Concepts I - Fundamental Types Types overview, operators, and conversion
3 Basic Concepts II - Integral and Floating-point Types Integral and floating-point types and their arithmetic
4 Basic Concepts III - Entities and Control Flow Enumerators, structures, control flow statements
5 Basic Concepts IV - Memory Management Heap, Stack, pointers, references, const properties, conversion operators
6 Basic Concepts V - Functions and Preprocessing Functions, lambda expressions, preprocessing directives
7 Object Oriented Programming I - Class Concepts Class hierarchy, constructor, destructor, class keywords
8 Object Oriented Programming II - Polymorphism and Operator Overloading Polymorphism, operators overloading
9 Templates and Meta-programming I - Function Templates and Compile-Time Utilities Function template, type traits
10 Templates and Meta-programming II - Class Templates and SFINAE Class template, SFINAE
11 Translation Units I Linkage and One Definition Rule
12 Translation Units II Dealing with multiple translation units and files,  #include, and modules
13 Code Conventions Project organization and main code conventions
14 Ecosystem I Debugging, and testing
15 Ecosystem II Cmake, documenting, and other Tools
16 Utilities Main std libraries
17 Containers, Iterators, and Algorithms Containers, iterators, algorithms, ranges
18 Advanced Topics I Move semantics, universal reference, type deduction
19 Advanced Topics II Error handling, C++ idioms, smart pointers
20 Optimization I - Basic Concepts Ahmdal Law, performance bounds, architecture concepts (ILP, SIMD, etc.), memory hierarchy
21 Optimization II - Code Optimization Arithmetic optimizations, memory optimizations, etc.
22 Optimization III - Non-Coding Optimizations and Benchmarking Compiler optimizations, profiling and benchmarking tools

TOPICS IN DETAILS

1. Introduction

  • A Little History of C/C++ Programming Languages
  • Areas of Application and Popularity
  • C++ Philosophy
  • C++ Weakness
  • Books and References
  • The Course

2. Basic Concepts I - Fundamental Types

  • Preparation: What compiler should I use?, What editor/IDE compiler should I use?, How to compile?
  • Hello World: I/O Stream
  • C++ Fundamental Types Overview: Arithmetic types, Non-standard arithmetic types, void type, Pointer type and nullptr
  • Conversion Rules
  • auto declaration
  • C++ Operators: Operators precedence, Prefix/Postfix increment/decrement, Assignment, Compound , and Comma operators, Spaceship operator <=> , Safe Comparison Operators

3. Basic Concepts II - Integral and Floating-point Types

  • Integral Data Types: Fixed width integers, size_t andptrdiff_t, When use signed/unsigned integer? Promotion, Truncation, Undefined behavior
  • Floating-point Types and Arithmetic: IEEE Floating-point Standard and Other Representations, Normal/Denormal values, Infinity, Not a Number (NaN), Machine Epsilon, Units at the Last Place (ULP), Cheatsheet, Summary, Arithmetic Properties, Detect Floating-point Errors
  • Floating-point Issues: Catastrophic cancellation, Floating-point comparison

4. Basic Concepts III - Entities and Control Flow

  • Enumerators
  • struct, Bitfield, union
  • Control Flow: if Statement, for Loop, Range-base for loop, switch, goto

5. Basic Concepts IV - Memory Management

  • Heap and Stack: Stack Memory, new, delete, Non-allocating placement allocation, Non-throwing allocation, Memory leak
  • Initialization: Variable initialization, Uniform initialization, Fixed-size array initialization, Structure initialization, Dynamic memory initialization
  • Pointers and References: Pointer Operations, Address-of operator &, Reference
  • Constant and Literals, const, constexpr, consteval, constinit, if constexpr, std::is constant evaluated(), if consteval
  • volatile keyword
  • Explicit Type Conversion: static_cast, const_cast, reinterpret_cast, Type punning
  • sizeof Operator

6. Basic Concepts V - Functions and Preprocessing

  • Declaration and Definition
  • Functions: Pass by-value, Pass by-pointer, Pass by-reference, Function signature and Overloading, Overloading and =delete, Default parameters, Attributes
  • Function Pointer and Function Objects
  • Lambda Expressions: Capture list, Other features, Capture list and classes
  • Preprocessing: Preprocessors, Common errors, Useful macro, Stringizing operator (#), #error and warning, #pragma, Token-Pasting Operator (##), Variadic Macro

7. Object-Oriented Programming I - Class Concepts

  • C++ Classes: RAII Idiom
  • Class Hierarchy: Access specifiers, Inheritance access specifiers
  • Class Constructor: Default constructor, Class initialization, Uniform initialization, Delegate constructor, explicit keyword, [[nodiscard]] and classes
  • Copy Constructor
  • Class Destructor
  • Defaulted Constructors, Destructor, and Operators (= default)
  • Class Keywords: this, static, const, mutable, using, friend, delete

8. Object-Oriented Programming II - Polymorphism and Operator Overloading

  • Polymorphism: virtual methods, Virtual table, override keyword, final keyword, Common errors, Pure virtual method, Abstract class and interface
  • Inheritance Casting and Run-time Type Identification
  • Operator Overloading: Overview, Comparison operator <, Spaceship operator <=>, Subscript operator [], Multidimensional Subscript operator [], Function call operator (), static operator [] and operator (), Conversion operator T(), Return type overloading resolution, Increment and decrement operators ++/--, Assignment operator =, Stream operator <<, Operator Notes
  • C++ Special Objects: Aggregate, Trivial class, Standard-layout class, Plain old data (POD), Hierarchy

9. Templates and Meta-programming I - Function Templates and Compile-Time Utilities

  • Function Template: Overview, Template parameters, Template parameter - default value, Specialization, Overloading
  • Template Variable
  • Template Parameter Types: Generic Type Notes, auto Placeholder, Class template parameter type, Array and pointer types, Function type
  • Compile-Time Utilities: static_assert, decltype Keyword, using Keyword
  • Type Traits: Overview, Type traits library, Type manipulation

10. Templates and Meta-programming II -  - Class Templates and SFINAE

  • Class Template: Class specialization, Template class constructor
  • Class Template - Advanced Concepts: Class + Function - Specialization, Dependent Names - typename and template Keywords, Class template hierarchy and using, friend Keyword, Template Template Arguments
  • Template Meta-Programming
  • SFINAE: Substitution Failure Is Not An Error: Function SFINAE, Class SFINAE, Class + Function SFINAE
  • Variadic Template: Folding Expression, Variadic class template
  • C++20 Concepts: Overview, concept Keyword, requires Clause, requires Expression, requires Expression + Clause, requires Clause + Expression, requires and constexpr, Nested requires

11. Translation Units I

  • Basic Concepts: Translation unit, Local and global scope, Linkage
  • Storage Class and Duration: Storage duration, Storage class, static and extern keywords, Internal/External linkage examples
  • Linkage of const and constexpr: Static Initialization Order Fiasco
  • Linkage Summary
  • Dealing with Multiple Translation Units: Class in multiple translation units
  • One Definition Rule (ODR): Global variable issues, ODR - Point 3, inline functions/variables, constexpr and inline
  • ODR - Function Template: Cases, extern keyword
  • ODR - Class Template: Cases, extern keyword
  • ODR Undefined Behavior and Summary

12. Translation Units II

  • #include Issues: Forward declaration, Include guard, Circular dependencies, Common linking errors
  • C++20 Modules: Overview, Terminology, Visibility and Reachability, Module unit types, Keywords, Global module fragment, Private module fragment, Header module unit, Module partitions
  • Namespace: Namespace functions vs. static methods, Namespace alias, Anonymous namespace, inline namespace, Attributes and namespace
  • Compiling Multiple Translation Units: Fundamental compiler flags, Compile Methods, Deal with libraries, Build static/dynamic libraries, Find dynamic library dependencies, Analyze object/executable symbols

13. Code Conventions

  • C++ Project Organization: Project directories, Project files, “Common” Project Organization Notes, Alternative - “Canonical” project organization
  • Coding Styles and Conventions
  • #include
  • Macro and Preprocessing
  • Namespace
  • Variables
  • Functions
  • Structs and Classes
  • Control Flow
  • Modern C++ Features
  • Maintainability
  • Naming
  • Readability and Formatting
  • Code Documentation

14. Ecosystem I

  • Debugging
  • Assertion
  • Execution debugging
  • Memory Debugging: valgrind, Stack protection
  • Sanitizers: Address sanitizer, Leak sanitizer, Memory sanitizers, Undefined behavior sanitizer
  • Debugging Summary
  • Compiler Warnings
  • Static Analysis
  • Code Testing: Unit test, Code coverage, Fuzz testing
  • Code Quality: clang-tidy

15. Ecosystem II

  • CMake: cmake and ctest
  • Code Documentation: doxygen
  • Code Statistics: Count lines of code, Cyclomatic complexity analyzer
  • Other Tools: Code formatting - clang-format, Compiler Explorer, Code transformation - CppInsights, Code autocompletion - GitHub Co-Pilot/TabNine/Kite, Local code search - ripgrep, Code search engine - searchcode/grep.app, Code benchmarking - Quick-Bench, Font for Coding

16. Utilities

  • I/O Stream: Manipulator, ofstream/ifstream
  • Math Libraries
  • Strings: std::string, Conversion from/to numeric values, std::string_view, std::format, std::print
  • Random Number: Basic Concepts, C++ <random>, Seed, PRNG period and quality, Distribution, Quasi-random
  • Time Measuring: Wall-Clock time, User time, System time
  • Std Template Classes: std::byte std::pair, std::tuple, std::variant, std::optional, std::any
  • Filesystem Library: Query methods, Modify methods

17. Containers, Iterators, and Algorithms

  • Containers and Iterators
  • Sequence Containers: std::array, std::vector, std::list, std::deque, std::forward_list
  • Associative Containers: std::set, std::map, std::multiset
  • Container Adaptors: std::stack, std::queue, std::priority_queue
  • View: std::span
  • Implement a Custom Iterator: Semantic, Implement a simple Iterator
  • Iterator Utility Methods: std::advance, std::next, std::prev, std::distance, Container access methods, Iterator traits
  • Algorithms Library: std::find_if, std::sort, std::accumulate, std::generate, std::remove_if
  • C++20 Ranges: Key concepts, Range view, Range adaptor, Range factory, Range algorithms, Range actions

18. Advanced Topics I

  • Move Semantic: lvalues and rvalues references, Move semantic, Compiler implicitly declared, std::move
  • Universal Reference and Perfect Forwarding: Universal reference, Reference collapsing rules, Perfect forwarding
  • Value Categories
  • &, && Ref-qualifiers and volatile Overloading
  • Copy Elision and RVO
  • Type Deduction: Pass by-reference, Pass by-pointer, Pass by-value, auto deduction
  • const Correctness

19. Advanced Topics II

  • Undefined Behavior
  • Error Handling: C++ Exceptions, Defining custom exceptions, noexcept keyword, Memory allocation issues, Alternative error handling approaches
  • C++ Idioms: Rule of zero/three/five, Singleton, PIMPL, CRTP, Template Virtual Functions
  • Smart pointers: std::unique_ptr, std::shared_ptr, std::weak_ptr
  • Concurrency: Thread Methods, Mutex, Atomic, Task-based parallelism

20. Optimization I - Basic Concepts

  • Introduction: Moore’s Law, Moore’s Law limitations, Reasons for Optimizing
  • Basic Concepts: Asymptotic complexity, Time-Memory Trade-off, Developing Cycle, Ahmdal's law, Throughput, Bandwidth, Latency, Performance bounds, Arithmetic intensity
  • Basic Architecture Concepts: Instruction-level parallelism (ILP), Little’s law, Data-level parallelism (SIMD), Thread-level parallelism (TLP), Single Instruction Multiple Threads (SIMT), RISC, CISC Instruction sets
  • Memory Hierarchy: Memory hierarchy concepts, Memory locality

21. Optimization II - Code Optimization

  • I/O Operations: printf, Memory mapped I/O, Speed up raw data loading
  • Memory Optimizations: Heap memory, Stack memory, Cache utilization, data alignment, Memory Prefetch
  • Arithmetic: Data types, Operations, Conversion, Floating-point, Compiler intrinsic functions, Value in a range, Lookup table
  • Control Flow: Loop hoisting, Loop unrolling, Branch hints, Compiler hints, Recursion
  • Functions: Function call cost, Argument passing, Function optimizations, Function inlining, Pointers aliasing
  • C++ Objects: Object RAII optimizations
  • Std Library and Other Language Aspects

22. Optimization III - Non-Coding Optimizations and Benchmarking

  • Compiler Optimizations: About the compiler, Compiler optimization flags, Linker optimization flags, Architecture flags, Help the Compiler to produce better code, Profile guided optimization (PGO), Post-Processing Binary Optimizer
  • Compiler Transformation Techniques
  • Libraries and Data Structures: External libraries, Std library
  • Performance Benchmarking: What to test?, Workload/Dataset quality, Cache behavior, Stable CPU performance, Program, Multi-threads considerations, Program memory layout, Measurement overhead, Compiler optimizations, Metric evaluation
  • Profiling: gprof, uftrace, callgrind, cachegrind, perf Linux profiler
  • Parallel Computing: Concurrency vs. Parallelism, Performance scaling, Gustafson’s Law, Parallel programming languages

Roadmap

  1. Software Design Chapter
  2. Build Aspects Chapter (e.g. reducing build time)

Essential Tool

Online compiler and execution: CompilerExplorer

  • for code execution: [Add new..] -> [execution only]

Reporting bugs and contributing

If you find any typo, conceptual error, or section to improve, please report them by writing directly to me or by using the issue panel

Author

Federico Busato