When and Why Should You Use Thread-Local Storage in C 11?
Understanding Thread-Local Storage in C 11
The thread_local keyword in C 11 introduces the concept of thread-local variables. Unlike regular static or global variables that are shared across all threads, thread-local variables provide a way to store data that is unique to each thread.
Thread-Local Variables: A Deeper Dive
When a thread is created, a separate copy of the thread-local variables is assigned to it. These variables can be accessed by all threads, but any modifications made to a particular thread-local variable are only visible to the thread that created it.
Thread-local variables add a new storage duration category to the existing ones:
- Automatic (exists within a function or block)
- Static (exists for the lifetime of the program)
- Dynamic (allocated on the heap)
- Thread-local (exists for the lifetime of a specific thread)
Avoidance of Thread Interference
Thread-local variables are beneficial in scenarios where sharing data across threads could lead to interference. For example, consider a random number generator that needs to maintain a separate seed for each thread. Using thread-local variables ensures that each thread generates its own unique random number sequence.
Common Use Cases
Some common use cases for thread-local variables include:
- Maintaining per-thread state for tokenization operations
- Preventing different threads from modifying a shared global variable prematurely
- Isolating thread-specific errors and exception handling
In summary, thread_local provides a mechanism for creating variables that are both accessible and modifiable by a specific thread, enhancing thread safety and isolating thread-dependent data.
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