Hi folks 0/ - Can anyone give me a vague (even just conceptual) estimate of the relative performance benefit of using POD types over non-POD types (with respect to trivial types and/or standard layout types), under the assumption that a large number of a given object will stored in large quantities?
user2411267
Hey guys can I get some opinions on this? I need to test my wcf, the problem is the actual data is huge 21k tests are needed I've tried different things but I feel like I'm heading the wrong way, looking for a way to build a unit tests around the data where each data entry is considered a test on its own and failure in one test won't stop the execution of the rest
Also, I know that rust can optimise out unnecessary copies in method calls (and thereby reduce the need for making params references instead of straight up values), when the source of the param is garaunteed not to change during method execution. Will C++ compilers generally perform similar optimisations for POD types?
@Ali.B Can you script it taking inputs from a directory and comparing to stored expected outputs from another?
user2411267
@sehe yes already did the reading input / calculating, the problem is declaring individual tests for each input. so that if one fails it doesn't affect the execution of others.
@Ali.B Either use separate processes, or use a test framework that affords this. I have experience with Boost Test which has no problem with tests that segfault, and just carries on with the rest. I suspect Google Test to have a similar facility.
The purpose is to print this information when the program starts. The program is actually a dynamically linked library which provides some functions. By printing the version and what not, the end user can know how the function will behave (because the function calls a standard library function)
I have run into a bug with gcc v3.4.4 and which to put an #ifdef in my code to work around the bug for only that version of the compiler.
What are the GCC compiler preprocessor predefined macros to detect the version number of the compiler?
Hmm, I want to implement a stack based FSM like so: https://gamedevelopment.tutsplus.com/tutorials/finite-state-machines-theory-and-implementation--gamedev-11867 (Scroll down a bit..)
If I understood right... I would need my stack to accept a void function pointers? How do I pass that type to std::stack<T> ? (as in what would T be?)
@JerryCoffin then why does the example use std::gmtime(&ts.tv_sec)? std::gmtime takes std::time_t as an argument and that example passes the number of seconds from some undefined epoch.
@Yashas I think it probably came from the UNIX timeval, which has a tv_sec and tv_usec. They changed the structure name because they now to nanoseconds, but retained the (now misleading) tv_ prefix.
@Yashas Actually, rereading it, I don't think it does require any extra-standard definitions. They passTIME_UTC when they call timespec_get, and that does (at least sort of) define an epoch.
main.cpp: In member function 'void (* Entity::popState())()':
main.cpp:30:26: error: void value not ignored as it ought to be
return entityStates.pop();
I have run into a bug with gcc v3.4.4 and which to put an #ifdef in my code to work around the bug for only that version of the compiler.
What are the GCC compiler preprocessor predefined macros to detect the version number of the compiler?
