3) Callgrind is working like dynamic translator, which instruments orginal code with counting instrument code. Instrumenting is done for each memory access instruction in the code (for cache simulation), and (i suggest) for each jmp-like instruction to track exec. count of every basic block.
I have a small sampling profiler, which acts just like debugger; It does inject a setitimer()
profiling counter into the application and then it does intercept all SIGALRM and prints current $eip
value.
There were some sampling profilers with setitimer
approach earlier, also there is a profil()
for something like. This is used by glibc/gmon/gmon.c
and gprof -p
(to be exact, by gcc -pg
). profil()
function is able to profile single contonous code fragment with sampling a virtual cpu time each 1 or 10 millisecond. There is also sprofil()
function.
Check also LD_PRELOAD=/lib/libpcprofile.so PCPROFILE_OUTPUT=output.file - but I don't know does it work or how it work
For numbered questions:
2) "Callgrind is an extension to Cachegrind. It provides all the information that Cachegrind does, plus extra information about callgraphs." - So it can provide any stuff that is in cachegrind, but also it allow user to turn off cache simulation: --simulate-cache=no
(it is the default value)
For speed: According to http://www.valgrind.org/docs/manual/nl-manual.html - manual of Nul valgrind tool (aka nulgrind), which does no additional instrumentation, slowdown is 5 times. It is because program is dynamically translated by valgrind itself. So, there can be no tool for valgrind, which can work faster then nulgrind.