@nwp It seems like Effective Modern C++ isn't a superset of everything in Effective C++ though
I'm skimming through books and trying to figure out a better way for a colleague to get up to speed than "read this pile of books and lots of online stuff"
but I'm pretty sure there's no one book that can do it, not that their should necessarily be, C++ is pretty sophisticated
there*, oops. Wish there wasn't a time limit on editing
@Vaillancourt I wish comments didn't have an edit limit either, quite often I had to delete and re-add a comment because I found some error or something
@CrashMan123 Hmmm nah. It ended up being a complete rewrite. But you had undefined behaviour as I pointed out. If you undelete I can post the explanation as a proper answer
@CrashMan123 Only when it's been a while - so I don't get "plinked" to death. I often use the reply-to arrows that disambiguate what a response is to (and that "plinks" as well)
I'm actually just writing an answer to the newer question based on the code. I noticed that you added some deduplication logic. I will suggest another simplification that makes that take a change of 2 letters :)
I did end up being able to read in a graph now, and I can access the "name" using two maps that have eachothers value as their key. I feel like this is a very unefficient way to link these values, but at the same time the most efficient way to store them and have them be searchable
I'm actually struggling a bit with the details on the edge centrality, so don't worry about having troubles here :)
@CrashMan123 It is similar, but has a richter interface, in that it keeps redundant collections of adjacencies so certain operations can be faster. Basically it keeps adjacencies in both directiones for each vertex
So, if you don't need that rich interface, undirectedS is strictly cheaper.
Yes. The key point was that you need an iterator that is valid for the number of edges. These constructors are a bit "unsafe" in the sense that they use raw iterators and hence they aren't checked.
BGL is showing some age there.
Actually just copy-pasting this bit in the answer :)
Wow, this is beautiful. I'm currently testing the code. My code would segfault if I used more than 260 vertices in the input file. I just ran it with 100000 vertices and it worked like a charm :)
when reading in the graph, why is numEdges unsigned?
also, what would be the implications for using push_back instead of emplace_back on the edge_array for this code. I looked it up and somewhat understand it, but it wouldnt make a different in this situation right?
@CrashMan123 because then your loop didn't have a mixed-sign comparison. If you enable compiler warnings, the compiler will warn you of problems like these. They are bug sources.
@CrashMan123 No functional difference, just less expensive. (Also, shorter)
Okay, I just posted the simplified graph reading code.
In your current question I see the new edge_arrayNoDuplicates variable name, which suggests that you went to some extents to remove duplicate edges.
As a pro-tip let me suggest that you can have the same effect without any manual work by choo...
And there's the centrality answer. I threw in the top-N query
I understand that its inserting the src vertex as a string, and the mappings.size() just gives each vertex a unique value, but what is Mappings::value_type doing. Also what is .first->get_right();
@CrashMan123 Some of the time :) Had to make dinner and family time for a bit
In C++ a `map<K,V>` is conceptually a container of `pair<K, V>`. Sequence containers have a nested typedef `value_type` So in the case of associative coontainers `value_type` is a shorthand for `pair<K [const], V>` (or a similar implementation type)
@PeterT So in the end the debugger in qt creator hanged up and still does. Mac OS seems to be a really hostile OS for development, at least if you don't to it the Apple way and/or pay them for it.
I mean, I'm aware that lldb is a startup project, but not to such an extent..
You could probably write Mappings::value_type as std::pair(in C++17) or std::pair<std::string, int> BUT you might incur some unexpected conversion overhead when the implementation type is subtly different
what does the .first->get_right() mean, that is the part that is confusing me. I would interpret this as the std::pair(src, mappings.size()) are both being stored in .first
Now, .first->second is a bit too much for the single line of code, now that you asked. So let's consider this your code review, and we're going to fix the code to be less dense:
auto map_name = [&mappings](std::string name) {
auto [iterator, inserted] = mappings.insert(
Mappings::value_type(std::move(name), mappings.size()));
return iterator->get_right();
};
int s = map_name(src);
int t = map_name(tgt);
@CrashMan123 This was the corresponding hint: link
> That's two letters changed, and done. Actually, for performance you may still want to keep vecS, but you should probably see what your profiler tells you. If it's fast enough, I wouldn't bother.
auto map_name = [&mappings](std::string name) {
auto [iterator, inserted] = mappings.insert(
Mappings::value_type(std::move(name), mappings.size()));
return iterator->get_right();
};
int s = map_name(src);
int t = map_name(tgt);
@CrashMan123 About that: the relevant standard documentation shows a return type std::pair<iterator, bool>. Since that's a std::pair like` value_type` it is likely the cause of confusion
@CrashMan123 Those are structured bindings. They're a fancy way saying all of:
By the way, I commend you for looking at these and asking all the questions you have. That's the best way to learn. Too many people might just go "Oh nice this works" but will realize they didn't fully understand the code wwhen they need to write the next thin. Very good
The point is that setS makes the internal datastructure a set. So, you don't have to. You can just add duplicate edges, and because of how the internal set works, they won't actually be added as a duplicate
I must admit I can't readily find that access method using the relation iterator myself. The library has too many ways of using it :/ A boost library disease :)
But you can of course write it using two maps. I just don't like doing the extra work.
auto map_name = [&mappings](std::string name) {
auto [iterator, inserted] = mappings.insert(
Mappings::value_type(std::move(name), mappings.size()));
return mappings.left.at(name);
};
int s = map_name(src);
int t = map_name(tgt);
Does exactly the same thing, but much less efficient.
return iterator->get_rght() uses the iterator just returned by insert. The alternative return mappings.left.at(name); does exactly the same but looking it up again.
@CrashMan123 May I suggest removing the complexity by removing the bimap space optimization?
Is someone interested in a small job? I have an asio auth server for my game, and i'm having some bugs.. Tried all methods to search for a developer to fix.. upwork etc.. all places :(
@IrinelIovan Yup. I'll try to give a quick assessment then
@CrashMan123 Uhoh. Another optimization :) Just ignore the std::move (and please consider the habit of keeping std::. (stackoverflow.com/questions/1452721/…)
just so I can play around with the previous version a little longer, what would it look like if you combined the .left.at(name) with the original way, can you simply replace .get_right() with .left.at(name)?
When i fist start auth process everything works fine after few logins users start to get this error https://prnt.sc/10qephl https://image.prntscr.com/image/5HF8g-MbQ8iZHILPWl8L4w.png BESAMEKEY the server part is made from 2 cores db/game/and now auth auth need be connected with db core m_dbClient it's the connection with db it drops after 1s connection with db There are 3 types of packets game->db db->game client->game game->client and now since auth db->auth auth->db (edited) client->auth auth->client
@IrinelIovan mmm do you think there's a chance that this is just the tip of the ice berg? I'm wondering if stress testing hasn't been done it might uncover many other issues.
@IrinelIovan I see that client version is 25. Is this a a new version of a "stable" game already? In that case, was the bug introduced in the last version?
So I'm wanting to fill a matrix full of the edge connections in a certain graph. I know that a graph is technically just an edge matrix, so theoretically could I just create a copy of the graph and I would have the matrix of all the connections?
Oh wait, I'm just realizing its an adjacency list not a matrix.
It can, but you'd have the matrix datastructure on the side, effectively. Here'w tih matrix, though: http://coliru.stacked-crooked.com/a/d5028c9d26004f7c The centrality values are different, I didn't llook into why
@IrinelIovan the test server cannot really have worked, or (likely) GServer has been made enable_shared_from_this recently (more recently than the tester has been used).
documentation says edges(g) Returns an iterator-range providing access to all the edges in the graph g. Return type: std::pair<edge_iterator, edge_iterator>
does this mean it returns an iterator to the front and the back?
I'm not convinced. The way I read the situation is that there's a heisenbug only repro in scalability context. From experience I wouldn't be surprised if the best shot at catching it wouldbe to grok how all parts fit together and predict the bottleneck. Otherwise, wouldn't we run into a shit ton of inscrutable logs that change every run?
Other question. There are four possible sources of the BESAMEKEY condition. Are you positive it's (always) the one you screenshotted?
So, the problem is the connection to the db core, which I don't have. Are we sure the problem is on this end (and not e.g. the db core closing the connetion)?
I'm more at home grokking code. But then when I get hypothesis, I'd typically test with tracing (and since there's no actual db core run that on the test vps)
IOW, for me it's too early to start adding uninformed tracing. You can always go brute force if all else failed
