@Rick str_to_int::res , radix_sort::begin1 (you cant delete that distance). A better name would have made that clear. Also you don't need to mix C stuff with c++ like that.
Also if you don't practice the correct coding style you are liable to fail during a code interview. This is especially true of places like MS or Google (fuck them), where they have more candidates then they can accommodate.
For example, the process can yield for a few MS. Anyways, a big part of my work (for a few weeks, a few years ago) was getting this timings under control on Windows.
@CaptainGiraffe do you think we can make it faster, is the algorithm selection good, is there one that's better? any optimization we can do to improve performance?
I don't know if that works, one sec let me pull an example
first tree are numbers IRG29S followed by a number then an S. you can represent the numbers in 4bits but when you get to the actual number it will throw everything off since you will need to convert those as well. and that needs to be done from ascii -> 33258298. Which is what I'm doing
So, concurrency::parallel_for does 30 ms out of the box, compared to std::sort which is around 150ms. So, whatever nonsense you guys felt about parallelism is wrong.
@Mikhail Was that a typo, or are you really comparing parallel_for to std::sort? Doesn't seem like a very meaningful comparison (doing my best to put it much more nicely than it deserves). Perhaps you intended to compare parallel sort to serial sort?
yes it was a typo, the actually code snippet is at the bottom
Also somehow it only uses ~4 threads, even on my cheapo, but ~70 core storage box.
The important part is that these guys are wrong on their intuition about the performance hit from using parallelism. 30 ms is a boat load of time. Modern systems have blazing fast response time for concurrency primitives. Sorting can be efficiently in parallel.
Once again I'm pissed off at nviida. They have this pretty cool compiler that eats machine learning models and creates optimal networks on the GPU. Then they package it in this insane interface. The interface resembles COM, everything is an interface (INetworkDefinition). Interfaces need to be both released() and deleted. Far too many kids I've taught over the years ended up working there.
They should have 3 functions, all of them C-style. build_engine, evaluate_engine, release_engine. Their C-style libraries are less of a cluster fuck. Why did they go so wrong...
I can only conclude these guys are paid per line of code. Its like COM but without the fucking IPC motivation.
I must confess and repent - I have spent some good 10 minutes yesterday midnight watching chicken videos, including one in which woman testing her hen by giving her hen eggs, egg looking like rocks and small oval shaped vegetable/melons and see whether her hen would accept the right ones. Her hen looked displeased.
<rage> Also you can bake model a (similar to how GL shared redeployed) for a specific GPU. Yet the metadata isn't included in the baked model, unlike in similiar things like CUDA. In CUDA if you feed it mismatching code, it recompiles. Here it just crashes. They got it right in CUDA, but not in TensorRT </rage>
Trying to install OpenCV for C++ Windows 10, Running Visual Studio 2017 in administrator mode, as soon as I run the project from Visual Studio after the Cmake steps, I get the error D:\OpenCV\Builds\x64\Release\ALL_BUILD Access is Denied as a popup, the closest I came to finding a similar solution was similar problem when someone was building wireshark, that solution didn't work either
@TelKitty Yes and no--but mostly no. It's not just a matter of the effect simply being too small to notice either. It's a matter of their gravity affecting us and the earth almost equally. So during the day, we're closer to the sun than the center of the earth is, and the sun's gravity (theoretically) reduces our weight a bit. But the sun's gravity is also pulling on the earth, so our weight is reduced (roughly) proportionally to how much closer we are to the sun than the earth is.
To be more precise, it's proportional to how much closer our center of gravity is to the sun than the earth's center of gravity. The earth is about 8000 miles in diameter, so our center of gravity is about 4000 miles closer to the sun than the earth's center of gravity. Oh, but the distance to the sun is about 93 million miles, so a 4000 mile difference works out to about 0.0043 percent. That's (quite a bit) less than the difference in weight from how deep a breath you take.
@fredoverflow Fairly well (assuming you're the person being paid to write them). Maybe I'm being over-hasty though. I've no idea how much such a job pays. Maybe I should run an advertisement to hire one: "Psychic needed. Qualified person knows where to apply."
@Mysticial > If value-initialization in overload (1) is undesirable, for example, if the elements are of non-class type and zeroing out is not needed, it can be avoided by providing a custom Allocator::construct.
at least for near term that'd be what you need to do
@Mgetz The other work-around is to add an empty default constructor to the class. The main problem is that people are just putting large PODs into data structures. We can't do anything about the standard library stuff. (if they're using them anyway, then performance doesn't matter to them) But for our in-house stuff we do have control over that.
The idea being that we disallow no-parameter calls to any sort of emplace-construct function by deleting them. And force the user to call the _default_init version.
But before we jump into that, we're trying to figure out if _default_init is something that's likely to come to the standard libraries. Since we are trying to keep some behavior consistency with it.