@JamesMcNellis Really? I don't think that the hardest part of C++ is the undecidable grammar (as bad as it is); you've still got all of the exciting semantics to implement. Name lookup, overload resolution, implicit template instantiation, exception handling mechancisms, etc., etc. .
@CharlesBailey That's not what I meant; I meant that once you already have a working C++ compiler, building a new parser and integrating it should be relatively easy compared to writing a whole new compiler for a new language.
Here is a real stupid solution:
printf("1 10 11 100 101 110 111 1000\n");
I suppose for the kicks you could use C++
int main() {
std::stringstream iss;
iss << std::bitset<32>(0x12345678);
std::copy(std::istream_iterator< std::bitset<4> >(iss),
std::i...
@James all the advantages wrt the faster parse time are lost then :(
tho i wonder whether parsing taks all that much time anyway?
I don't know how much time is spent parsing. To be honest, I've not been particularly concerned about compilation performance of C++ in a while. New computers, good modular architecture, and incremental linking make it just fast enough.
likely depends on the hosting, but i imagine if you are consuming more than your quota of CPU resources they restart your server, maybe send you a warning
if your server is impacting other clients, they might shut you down for good
@JamesMcNellis I've been in a project where incremental linking brought the link time down to little less than 10mins - if you had only changed one cpp file, that is. You feel cursed having to work that way. Changing some of the template stuff in the headers I was responsible for had you sit back and relax for an hour. Distributed compilation brought everything down to 10-15mins. Still, that only makes three see-think-edit-build-test cycles an hour.
When I read that you can buy and eat testicles I wondered whether I should try it once, since I'm basically open to anything that tastes well. I wonder how I should prepare them. If I buy testicles are they empty or do they still contain the, err, fluid?
How to properly make them up so they are...
Can someone please point me towards some nice resources for understanding and using nested classes? I have some material like Programming Principles and things like this: http://publib.boulder.ibm.com/infocenter/lnxpcomp/v8v101/index.jsp?topic=%2Fcom.ibm.xlcpp8l.doc%2Flanguage%2Fref%2Fcplr061.htm...
Here is a real stupid solution:
printf("1 10 11 100 101 110 111 1000\n");
I suppose for the kicks you could use C++
int main() {
std::stringstream iss;
iss << std::bitset<32>(0x12345678);
std::copy(std::istream_iterator< std::bitset<4> >(iss),
std::i...
