The question is about the performance of protected type and entry using the GNAT compiler on Linux. Mutex is only used as an example (Ada does not need it).
I compared the performance of Ada Mutex implementation from Rosetta Code (https://rosettacode.org/wiki/Mutex#Ada) to a very simple C/pthread implementation called from Ada using import and C interface.
It turned out the Ada protected type + entry was 36.8x times slower. I know that GNAT may go through its run time library and eventually ends up calling OS primitives s.a. pthread. I excepted some overhead but not that much.
The question is: Why?
Just in case - this is my simple pthread implementation:
-- cmutex.ads
package CMutex is
procedure Lock with
Import => True,
Convention => C,
External_Name => "mutex_lock";
procedure Unlock with
Import => True,
Convention => C,
External_Name => "mutex_unlock";
end CMutex;
// C code
#include <pthread.h>
static pthread_mutex_t mtx = PTHREAD_MUTEX_INITIALIZER;
void mutex_lock()
{
pthread_mutex_lock(&mtx);
}
void mutex_unlock()
{
pthread_mutex_unlock(&mtx);
}
==== EDIT ===
Adding minimal reproachable code. It is a single thread (just for test), the dummy variable is to prevent the optimizer from optimizing the entire loop out.
The test code for the pthread (cmutex) above is:
with Text_IO; use Text_IO;
with CMutex;
procedure test is
dummy : Integer := 0;
begin
for i in 1 .. 100_000_000 loop
CMutex.Lock;
dummy := dummy + 1;
CMutex.Unlock;
end loop;
Text_IO.Put_Line(Integer'image(dummy));
end test;
And the test code for the protected type + entry example is:
with Text_IO; use Text_IO;
with Ada_Mutex;
procedure test1 is
dummy : Integer := 0;
mtx : Ada_Mutex.Mutex;
begin
for i in 1 .. 100_000_000 loop
mtx.Seize;
dummy := dummy + 1;
mtx.Release;
end loop;
Text_IO.Put_Line(Integer'image(dummy));
end test1;
Where Ada_Mutex is a package containing the example form Rosetta code:
package Ada_Mutex is
protected type Mutex is
entry Seize;
procedure Release;
private
Owned : Boolean := False;
end Mutex;
end Ada_mutex;
--------------------------------
package body Ada_Mutex is
protected body Mutex is
entry Seize when not Owned is
begin
Owned := True;
end Seize;
procedure Release is
begin
Owned := False;
end Release;
end Mutex;
end Ada_Mutex;
Running time of the code that using the pthread mutex is (in Intel NUC i7):
$ time ./test
100000000
real 0m0.557s
user 0m0.553s
sys 0m0.005s
And the code that uses protected type and entry: $ time ./test1
100000000
real 0m19.009s
user 0m19.005s
sys 0m0.005s
With no optimization (-O0) times are:
real 0m0.746s
user 0m0.746s
sys 0m0.000s
and
real 0m20.173s
user 0m20.172s
sys 0m0.000s
For pthread and protected type+entry respectively.
Note that the user time ~= real time, which means the processor was busy (it did not idle, or otherwise yield control)
