std::regex is thread-safe in every respect is a pretty bold statement. The C++11 standard does not make such guarantees for the regex library.
However, looking at the prototype of
std::regex_search shows that it it takes the
basic_regex object as a const argument. This means that it is protected by the standard library's guarantee that the const modifier implies thread-safety of the function with respect to that argument.
In standardese, that is:
This section specifies requirements that implementations shall meet to prevent data races (1.10). Every standard library function shall meet each requirement unless otherwise specified. Implementations may prevent data races in cases other than those specified below.
A C++ standard library function shall not directly or indirectly modify objects (1.10) accessible by threads other than the current thread unless the objects are accessed directly or indirectly via the function’s non-const arguments, including
So, barring a bug in the implementation of the standard library that you use, it appears that calls to
std::regex_search are thread-safe with respect to the
regex object that is passed in.
std::regex_search is re-entrant with respect to its
regex argument does not mean that you are completely out of the water. Performing an operation that modifies a
regex in a non-thread-safe manner at the same time as a thread-safe call such as
std::regex_search is still undefined behaviour.
basic_regex's assignment operator, std::swap, and
basic_regex::imbue come to mind as non-thread-safe functions with respect to the
basic_regex they operate on. Knowing this, it might be better for you to make a copy of the
regex object, which should come at a minimal performance cost, for each thread to use/modify at its leisure.