Hereafter, we use N4140 (C++14 Standard).
According to § 184.108.40.206 Hash requirements,
The value returned shall depend only on the argument
kfor the duration of the program.
[ Note: Thus all evaluations of the expression
h(k)with the same value for
kyield the same result for a given execution of the program. — end note ]
and § 20.9.12 Class template hash says
(1.1) — satisfy the Hash requirements (220.127.116.11) ...
(1.2) — ...
This means a hash value of
hash<decltype(value)>(value)) may take a different value if you restart the program.
But why? This limitation was not in the Standard of C++11, but in the Standard of C++14, C++17 and C++20. As a user (not a STL developer), it would be quite useful if
std::hash were deterministic. Are there any mathematical difficulties in implementing a deterministic hash function? But hash functions we daily use (e.g. deprecated
md5sum or safer
sha256) are all deterministic. Is there a problem of efficiency?