Spec Sharp
Paradigm | multi-paradigm: structured, imperative, object-oriented, event-driven, functional, contract | ||||
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Designed by | Microsoft Research | ||||
Developer | Microsoft Research | ||||
First appeared | 2004 | ||||
1.0.21125 | |||||
static, strong, safe, nominative | |||||
Website | Spec# website | ||||
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Spec# is a programming language with specification language features that extends the capabilities of the C# programming language with Eiffel-like contracts, including object invariants, preconditions and postconditions. Like ESC/Java, it includes a static checking tool based on a theorem prover that is able to statically verify many of these invariants. It also includes a variety of other minor extensions to the language, such as non-null reference types.
The code contracts API in the .NET Framework 4.0 has evolved with Spec#.
Microsoft Research developed both Spec# and C#; in turn, Spec# serves as the foundation of the Sing# programming language, which Microsoft Research also developed.
Features
- See also: Spec# in C Sharp syntax.
Spec# extends the core C# programming language with features such as:
- Non-nullable types
- Structures for code contract like preconditions and postconditions.
- Checked exceptions similar to those in Java.
- Convenient syntax
Example
This example shows two of the basic structures that are used when adding contracts to your code (try Spec# in your browser).
static void Main(string![] args) requires args.Length > 0; { foreach(string arg in args) { Console.WriteLine(arg); } }
- ! is used to make a reference type non-nullable, e.g. you cannot set the value to null. This in contrast of nullable types which allows value types to be set as null.
- requires indicates a precondition that must be followed in the code. In this case the length of args is not allowed to be zero or less.
- ensures indicates a postcondition that must be followed in the code. (not shown in the example)
Sing Sharp
Sing Sharp (or Sing#) is a superset of Spec Sharp. Microsoft Research developed Spec#, and later extended it into Sing# in order to develop the Singularity operating system. Sing# augments the capabilities of Spec# with support for channels and low-level programming language constructs, which are necessary for implementing system software. Sing# is type-safe. The semantics of message-passing primitives in Sing# are defined by formal and written contracts.
Sources
- Barnett, M., K. R. M. Leino, W. Schulte, "The Spec# Programming System: An Overview." Proceedings of Construction and Analysis of Safe, Secure and Interoperable Smart Devices (CASSIS), Marseilles. Springer-Verlag, 2004.
See also
External links
- Spec# website from Microsoft Research
- Spec# at Codeplex
- Online Spec# at RiSE4fun
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