Let's say you have counties or states and you have a representatives body that has X1..Xn mandates for each of these states/counties. What if we gave each of the states/counties number of mandates based on rounded up logarithm of their population?
That would still give more mandates to bigger states/counties but they would not completely dwarf the smallest ones.
@Borgleader I think there is an FAQ or similar on SO that says how to become a master at python stackoverflow.com/questions/2573135/… . So its actually a duplicate!
Blackballing is a rejection in a traditional form of secret ballot, where a white ball or ballot constitutes a vote in support and a black ball signifies opposition. This system is typically used where a club's rules provide that one or two objections, rather than an at-least-50% share of votes, are sufficient to defeat a proposition. Since the seventeenth century, these rules have commonly applied to elections to membership of many gentlemen's clubs and similar institutions such as Freemasonry and fraternities.
A large supply of black and white balls is provided for voters. Each voter audibly...
synchronized { // begin synchronized block
std::cout << i << " -> ";
++i; // each call to f() obtains a unique value of i
std::cout << i << '\n';
return i; // end synchronized block
}
I can see synchronized being a useful debugging tool. But not something that should be given to someone who doesn't know what they're doing. Though the same thing can be said about the majority of C++ features.
From experience, std::cout can be shockingly slow, it takes milliseconds to write characters - typically the performance is masked by a buffer, but if you repeatedly call it or require it to finish printing you're going to be sad. Which is why we can't have a lock on it.
@Mikhail I agree. There's a publication where someone was comparing a C# implementation of computing various constants to a lot of digits. They noted that they were able to beat my program when the # of digits was less than 10000.
Mainly because of the overhead of all the printing (with colors) in my program.
@Mysticial So, from personal experience std::cout is insanely slow, but writing to a file stream is as-expected. Maybe if you wrote to those fancy characters to a file you'd be fine...
John Carmack tweeted,
I can send an IP packet to Europe faster than I can send a pixel to the screen. How f’d up is that?
And if this weren’t John Carmack, I’d file it under “the interwebs being silly”.
But this is John Carmack.
How can this be true?
To avoid discussions about what exact...
@Mgetz That helps but the times are still on the order of milliseconds to write single characters. There is a ~20x difference between the speed of std::cout and writing to the same data to a piece of spinning metal.
Well, I linked against the console subsystem, so not much control as to the terminal emulator on Windows... Although my micro-benchmarks showed similar performance on the KDE plasma terminal. The per character performance seems to be exactly the NTAPI's thread response time, which is 0.5ms. My only thought is that its calling _sleep() after each character :-)
Well, that would hint that the terminal runs in a separate process - which feels like bad design given that on windows you're literally linking against some terminal library.
#MakeTerminalGreatAgain
I got this brilliant idea, lets write a terminal emulator that renders using OpenGL and is written in some shiny language like Rust. But no text selection.
The stuff you print to the console is something that a human should be able to read. If you just want an event logger that captures everything, make that a separate thing and does its own local buffering and flushing to disk.
Here is a use case. I need to acquire 256 images, each one takes 2ms to capture and process. The log gives useful information, such as if there were any acquisition failures (which is not a critical error), it would be nice if I could log as I was acquiring. Instead I need to log on a dedicated separate thread...
I'm not writing that much, its just that writing slows down the acquisition process
Other motivation for faster terminals included noisy build processes.
Well, I did roll my own thing, but it makes me sad that in 2017, 60 years after the first terminals, you need to roll your own to get reasonable performance.
Micro-benchmark time for each character is almost the same as the IPC passing time. Although for a typical use case there seems to be some buffering that overlaps this operation.
the first was "what are the indices changed by performing extract-max?" and the second was "use the ford fulkerson algorithm to find the maximum flow for the following flow network:"
I've written dozens of exam questions with defects. I always premier answers that acknowledge the problems and try to work around them. I'm quite sure your Prof will do something similar.
Also if a question is sufficiently defect, I just subtract it from the total but let the awarded points remain.
Or rather incorrect compilation has much more serious consequences then a couple Linux guys bitching about C++11 support and accepting code without template and this-> inserted everywhere.
What I find shocking is the lack of testing done by vendors. One of the national labs has this test where they check if the compiler version breaks one of ~15 popular HPC codes. I have no clue why MS can't get their shit straight and setup such a test suite.
@Mikhail I suppose it’s sort of the point of pre-releases, but otoh there’s not much that usually gets fixed in-between the pre-release and the actual thing is there?
I really regretted not following GCC head more closely during the process leading up to GCC6, a big regression was introduced right at the end of the development cycle that could only be fixed for 6.2
@Mysticial something like inheriting or automatically generated constructors not working right, so you couldn’t use move-only types with things such as optional and so on
The following code doesn't compile GCC 6.1, but works in Clang 3.8.0 and Visual Studio 2015:
#include <memory>
class base {
public:
base(std::unique_ptr<int>) {}
};
class derived : public base {
public:
using base::base;
};
int main() {
derived df(std::make_unique<int>());
}
Wit...
@Mikhail for starters the former is false for non-arithmetic types while the latter is not sensible (i.e. no corresponding std::numeric_limits<NonArith> specialization exists)
oh that was premature
I’m not 100% sure about the meaning of std::numeric_limits<T>::is_signed but I’m going to venture that they always agree