In the CppCon spirit of talks "by the C++ community for the C++ community" given by Those Who Know and Those Who Do in some of the leading code bases in our industry, we're very pleased to relay this just announced on CppCon.org:
Bonus Talks: C++ at Facebook
by Boris Kolpackov
From the announcement:
We left a few slots in the CppCon 2014 program for what we call “invited talks.” They are used to fill in important but otherwise under-represented topics (such as game development, mobile and embedded systems, etc) or generally interesting and unusual uses of C++. Today we are ready to announce the first two invited talks which are on Facebook’s heavy use of C++ in their server infrastructure:
Marcelo Juchem: "Meta Techniques: Heterogeneous Polymorphism and Fast Prototyping at Facebook"
As data driven systems evolve there’s an ever growing demand for bringing new functionality into existing systems in an efficient, maintainable and least intrusive manner. When implementing features with different semantics or interfaces, virtual inheritance requires a compromise between design simplicity and performance. This implies a need for new techniques to achieve heterogeneous polymorphism efficiently. With C++11 and 14, type lists, type maps and variants can now be trivially implemented by the initiated. Facebook moves fast so we quickly adopted the new standards to further explore the capabilities of the type system. This talk demonstrates some meta-programming techniques like reflection and compile-time built structures to achieve heterogeneous polymorphism and fast prototyping.
Speaker’s bio: Marcelo Juchem is a Software Engineer at Facebook, working in stream processing and spam fighting systems. Fascinated by template meta-programming, he sees the C++ compiler as a powerful type juggler and programmable code generator. Such capabilities allow the combinatoric composition of types into efficient abstractions, reducing code duplication and enabling non-library writers to design logical components interaction and semantics rather than deal with low level details.
Drew Paroski: "C++@Facebook: How HHVM Uses Modern C++ for Fun and Profit (Both Literally)"
After an overview of HHVM’s architecture and history, this talk delves into what made C++ the language of choice when writing VMs and execution engines, including performance, benefits over assembly, and enabling C++ to call into JIT’d code. We cover the importance of control over ‘unsafe’ details: for memory layout, unions, casting, and bit-stealing. HHVM found important wins from being able to ensure that certain structures (Classes) are allocated in low-memory (i.e. addresses that fit within 32-bits) which allowed use of 32-bit immediates in machine code and 32-bit fields in objects. Also, being able to have fine control over memory allocation enabled having “huge pages”, a feature exposed in Linux (and other OSes) that allowed using fewer iTLB entries which gave a significant boost for Facebook’s PHP codebase. The talk will also mention some things that got in the way and how they were dealt with. Some were language features, such as virtual functions, member pointers. Before move constructors and rvalues were introduced in C++11, there were performance issues with returning smart pointers. While these were things that got in the way, it’s a testament to C++’s flexibility that there were always ways to work around these things in a stable fashion.
Speaker’s bio: Drew Paroski is a Software Engineer at Facebook and a co-creator of the HipHop Virtual Machine (HHVM) and the Hack programming language. Among other things, Drew is the primary designer and implementor of HHVM’s virtual instruction set architecture and Hack’s Collections framework, and he was a core contributor to HHVM’s JIT compiler in the early days of the project. Before Facebook, Drew worked at Microsoft helping improve the performance of Microsoft’s virtual machine for .NET languages (C#, VB.NET, F#, and more) known as the Common Language Runtime. Drew has been coding in C++ for over 10 years, and he enjoys designing and optimizing complex low-level systems.
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