Summary
In computer science, a task context is the minimal set of data used by a task (which may be a process, thread, or fiber) that must be saved to allow a task to be interrupted, and later continued from the same point. The concept of context assumes significance in the case of interruptible tasks, wherein, upon being interrupted, the processor saves the context and proceeds to serve the interrupt service routine. Thus, the smaller the context is, the smaller the latency is.
The context data may be located in processor registers, memory used by the task, or in control registers used by some operating systems to directly manage the task.
The storage memory (files used by a task) is not concerned by the "task context" in the case of a context switch, even if this can be stored for some uses (checkpointing).
The context can also be viewed as a mechanism that allows a state of a program to be transferred between its components.
Context types edit
In some computer languages like C#, there is also the concept of safe/secure context. For instance, if an array is needed inside a structure, it can be added to it since version 2.0, but only in an unsafe/unsecure context.[1] Here is an example code:
struct ParameterRepresentation
{
char target;
char taskStart;
char taskType;
fixed byte traceValues[m_MAX_BYTES];
};
The fixed keyword prevents the garbage collector from relocating this variable. The access to an array is like in C++, i.e. using pointer arithmetic, where individual elements of the array can be accessed over its indices.
See also edit
- State (computer science)
- Context and Adaptivity in Pervasive Computing Environments: Links with Software Engineering and Ontological Engineering, article in Journal of Software, Vol 4, No 9 (2009), 992-1013, Nov 2009 by Ahmet Soylu, Patrick De Causmaecker and Piet Desmet
References edit
- ^ Structures in C# 2.0
External links edit
- Context S-Cube Knowledge Model