135 research outputs found
Static Computation and Reflection
Thesis (PhD) - Indiana University, Computer Sciences, 2008Most programming languages do not allow programs to inspect their
static type information or perform computations on it. C++, however,
lets programmers write template metaprograms, which enable programs to
encode static information, perform compile-time computations,
and make static decisions about run-time behavior. Many C++ libraries
and applications use template metaprogramming to build specialized
abstraction mechanisms, implement domain-specific safety checks, and
improve run-time performance.
Template metaprogramming is an emergent capability of the C++ type
system, and the C++ language specification is informal and imprecise.
As a result, template metaprogramming often involves heroic
programming feats and often leads to code that is difficult to read and
maintain. Furthermore, many template-based code generation and
optimization techniques rely on particular compiler implementations,
rather than language semantics, for performance gains.
Motivated by the capabilities and techniques of C++ template
metaprogramming, this thesis documents some common programming patterns,
including static computation, type analysis, generative programming, and the
encoding of domain-specific static checks. It also documents notable
shortcomings to current practice, including limited support for reflection,
semantic ambiguity, and other issues that arise from the pioneering nature of
template metaprogramming. Finally, this thesis presents the design of a
foundational programming language, motivated by the analysis of template
metaprogramming, that allows programs to statically inspect type information,
perform computations, and generate code. The language is specified as a core
calculus and its capabilities are presented in an idealized setting
Hey, You Got Your Language In My Operating System!
Several projects in the operating systems research community suggest a trend of convergence among features once divided between operating systems and languages. We describe how partial evaluation and transformational programming systems apply to this trend by providing a general framework for application support, from compilation to run-time services. We contend that the community will no longer think of implementing a static collection of services and calling it an operating system; instead, this general framework will allow applications to be flexibly configured, and the ``operating system\u27\u27 will simply be the application support that is supplied at run-time
Tracing OCaml Programs
This presentation will cover a framework for application-level tracing of
OCaml programs. We outline a solution to the main technical challenge, which is
being able to log typed values with lower overhead and maintenance burden than
existing approaches. We then demonstrate the tools we have built around this
for visualizing and exploring executions
The C++0x "Concepts" Effort
C++0x is the working title for the revision of the ISO standard of the C++
programming language that was originally planned for release in 2009 but that
was delayed to 2011. The largest language extension in C++0x was "concepts",
that is, a collection of features for constraining template parameters. In
September of 2008, the C++ standards committee voted the concepts extension
into C++0x, but then in July of 2009, the committee voted the concepts
extension back out of C++0x.
This article is my account of the technical challenges and debates within the
"concepts" effort in the years 2003 to 2009. To provide some background, the
article also describes the design space for constrained parametric
polymorphism, or what is colloquially know as constrained generics. While this
article is meant to be generally accessible, the writing is aimed toward
readers with background in functional programming and programming language
theory. This article grew out of a lecture at the Spring School on Generic and
Indexed Programming at the University of Oxford, March 2010
- …