Lounge<C++>

Loïc Faure-Lacroix

00:04

Didn't say it wasn't important for oneself. But algorithm are things that can be learned. You can probably come up with a sort by reasoning but if you're applying for a job, chances are that you'll write a sort from memory. But problem solving is a different whole task when you're asked to solve a question to which you don't have the answer beforehand.

Feeds

Sutter’s Mill: Guy Steele on designing a programming language for library building (OOPSLA ’98 keynote)

posted on July 09, 2019 by Herb Sutter

Classic, and timeless. (HT: Peter Sommerlad) When he says “growing a language” he doesn’t mean literally the language itself — it’s not a talk about language evolution. Rather, he means about enabling users to write rich and powerful abstractions in that language without asking their language designer to build them into the core compiler every … Continue read…

Mikhail

02:11

I hate to admit my previous experience solving and implementing algorithms makes it easier for me to implement related ones. Mostly because I can understand the reasoning behind the code I'm stealing. That being said, most coders aren't nearly as cool as I.

Mikhail

02:23

What I don't like about the coding interview is the depth, rather than breath. Also the timming. For example, ive had no trouble explaining to people that a certain kind of de Bru Jen graph solver will take two weeks to implement.

I'm also fortunate that a big part of my coding work experience is consulting, so I've never had to prove to anybody thjat I know what I'm talking about.

The other thing that bugs me about the coding interview is that it is possible to have a good one. Its not hard to screen good candidates. For certain reasons this isn't done. One big reason is that many companies believe they can train people on the coding, therefore the interview should be intrinsic potential. This off-course doesn't work if you don't have the resources to train people :-)

Captain Giraffe

@LoïcFaure-Lacroix The entire point of the introductory of sorting is to get a grasp of the complexity of stuff. Problem solving without a foundation is creating problems.

@LoïcFaure-Lacroix It's like have the argument "But c++ is faster"

Mikhail

@JerryCoffin Terrible, can you provide an answer to this quesiton that is up to date? stackoverflow.com/questions/4286670/…

Rick

I back CaptainGiraffe 100% on everything.

Mikhail

He's full of shit, everybody knows that ++c is faster

3

Rick

yeah right
+
+
c
is faster

Mikhail

02:44

So I've been working for way too long but I'm stuck on this bug, anybody know whats going on here. Should be easy to spot: pastebin.com/raw/q3Ld6iBq

Rick

02:57

does not look like a bug

Mikhail

So, whats wrong with it

Loïc Faure-Lacroix

03:12

@CaptainGiraffe Not arguing that foundation is important. But testing the foundation doesn't tell me anything about a person considering that most people that have some kind of education in the field already have that covered if they have a diploma.

Rick

@Mikhail it returns you an address and you are expecting a container

Mikhail

@Rick I put an item into a container. It looks like the container changed the item.

1 0

sorry to interrupt you guys.

I have a doubt on binary search

Mikhail

If you're going to interrupt me, you better have something good in AH

1 0

what if we set ceilling value instead of floor value computing of middle index of subarray

Mikhail

03:19

look up golden section search

1 0

@Mikhail ??

I did not get you, sorry

Mikhail

Golden-section search

The golden-section search is a technique for finding the extremum (minimum or maximum) of a strictly unimodal function by successively narrowing the range of values inside which the extremum is known to exist. The technique derives its name from the fact that the algorithm maintains the function values for triples of points whose distances form a golden ratio. The algorithm is the limit of Fibonacci search (also described below) for a large number of function evaluations. Fibonacci search and golden-section search were discovered by Kiefer (1953) (see also Avriel and Wilde (1966)). == Basic... ==

but FYI, inserting an element into a map is harder than writing a golden section search algorithm

AnArrayOfFunctions

09:16

Hello

Can you please approve my edit for the uwp tag so this question gets more attention:

https://stackoverflow.com/questions/52854770/is-there-a-way-of-getting-connectionstatus-from-ivpnprofile-in-a-uwp-application

Mgetz

12:47

@Mysticial thoughts on whatever the crap this garbage is?

PeterT

12:59

Uh fewer NaNs, I like that

and no signed Zero. I can't say that I wouldn't want it. But I don't know how much harder it would be to implement in hardware compared to IEEE

ratchet freak

@Mgetz the bit about 64 float being replaceable by 32 posit in most cases counts just as much for replacing them with 32 bit float and is not an argument

and the variable split between mantissa and exponent would only complicate the FPUs, not simplify

Mgetz

@ratchetfreak Is that based on bitness or actual mathematical knowledge of how both systems work?

ratchet freak

13:14

mathematical knowledge, very few calculations that I know of actually require 53 significant bits throughout

most can get away with dropping to "just" 24

it may be just really bad reporting but pure pigeon stuffing should show that 32 bits of total representation can never beat 53 bits of significant bits in terms of accuracy and rounding error

ratchet freak

13:35

ok looking at the linked paper it reads like the guy is horribly arrogant

Mgetz

@ratchetfreak completely not surprised

ratchet freak

> If a programmer or user feels the need for the other three modes that floats support [...], that means the application calls for valids, not posits, or perhaps just a decent debugging tool.

Jerry Coffin

14:10

@ratchetfreak Most likely true, but it could improve throughput on large calculations anyway. It could be well worth extra silicon in the FPU if (and it is a big if) you could usually use floats of half the size so you only need half the memory bandwidth per operand.

Mgetz

@JerryCoffin which is why some GPUs support half

Jerry Coffin

@Mgetz Part of why. Since half uses fixed-size mantissa/exponent, you don't get the same penalty as with floating sizes. Additionally, however, they can gain speed in the computation itself because they don't need to produce as many bits of precision (e.g., division normally produces N bits of precision per iteration, so half as many bits means half as many iterations).

And yes, I realize that's probably not news to you...

Mysticial

15:43

@Mgetz tl;dr atm

ratchet freak

16:37

@Mysticial tl;dr: new floating point format where the exponent part is made flexible by virtue of a variable length "regime" section

claims to simplify FPUs

Mikhail

17:19

Somebody should remind them of dead Silicon and how a large part of the chip exists for cooling.

Half precision is interesting because the application isn't traditional fpu. Its not possible to do physics simulation. It's for optimization problems where you are off the global minima.

Mgetz

17:34

@Mikhail on what dies? last I checked Intel dies didn't have a ton of dead silicon unless it was a lower bin part

Mysticial

@Mgetz Client Skylake has ton of empty space where the upper-half of the SIMD register file is supposed to be.

But it's still not a lot.

@ratchetfreak ah. So it's like a "floating" floating-point type?

Mgetz

@Mysticial I didn't think they did that? All the die shots I've seen are very tight

Mysticial

@Mgetz I think the "ton" is actually still quite small.

Mgetz

@Mysticial you referring to the AVX512 register file?

I didn't think that was on the die at all?

Etienne de Martel

Are you serious? This community has so many toxic people in it. Elitists. -4 votes just to help someone out? Ridiculous. — Treewallie 1 min ago

Mysticial

17:47

@Mgetz It's been shown that the 512-bit register file is the same size as the 256-bit one. So the upper half has to be disabled on the client chips.

Initially, I suspected that the 512-bit register file was half the size by pairing up the 256-bit ones. But somebody proved me wrong.

Mgetz

@Mysticial why would they bother? wouldn't it be better to just have left it enabled?

or was the original skylake implementation so crap they couldn't?

Mysticial

That upper-half might not be filler. It could still be manufactured as part of the same design and just never used.

Mgetz

Dunno I've been thinking for while that Intel should use cache and the iGPU to space things out a bit for thermals for awhile... but that screws them on power based on how the pin layout works

Ryzen less so because it shares the pain everywhere

Mysticial

@Mgetz As in the # of 256-bit registers is the same as the # of 512-bit registers.

Client and server Skylake are the same except that the server has the extra FMAs and cache attached to the side.

The core is identical between the two.

Mgetz

@Mysticial I thought client skylake was the mobile die?

Mysticial

17:52

Since they have the same # of physical SIMD registers, half of it must be unused on the client die.

Mgetz

That just doesn't make sense though... why would intel do that to themselves?

Mysticial

@Mgetz So they can reuse the same core for client and server.

Mgetz

That shows L3 up there not dead silicon

Mysticial

@Borgleader

-5

Q: How do I solve this 2.25x=4.5?

I'm tried solving this equation and getting the answer as 5 but the actual answer is 2. Can someone help me to get the correct answer

feature-request

Mgetz

Yeah it feels more like there is other funny business going on

I'm pretty sure they wouldn't do that to themselves. I suspect that the AVX512 unit wholesale replaces the AVX unit

Mysticial

18:00

@Mgetz Do what to themselves?

The AVX512 isn't a replacement. It's just an add-on:

The client chips really just have the AVX512 ripped out from the decoders and the upper-half of the register file disabled or dead silicon.

Why they would take AVX512 out of client Skylake is up to speculation. Maybe it wasn't ready at the time. Or perhaps market segmentation.

Or perhaps they expected Cannonlake to come to the market quickly (which has AVX512). But of course that didn't happen because of 10nm.

Mgetz

@Mysticial so that would require changes in the internals of the architecture most likely, unless the decoder microcode is the part that just prevents it from walking off cliffs

Mysticial

But you can see the space of dead space between the server AVX512 squares.

But below it is the same pattern - the other half of the SIMD unit. The space between isn't empty.

Mgetz

@Mysticial they look exactly like the EU's beneath them, the white line is someone else's annotation

Mysticial

@Mgetz The space between the left and right halves.

The bottom half has stuff between. The top half doesn't.

Mgetz

@Mysticial dumb question... does the integer throughput change between AVX2 and AVX 512?

Mysticial

18:10

@Mgetz No.

The only difference is the p5 FMA - which is the upper-half of that 4x4 grid of identical EUs.

Mgetz

@Mysticial could that be the vector integer then?

which wouldn't need to exist in AVX512?

Mysticial

@Mgetz Either that or the p5 shuffle unit.

The integer/x87 64-bit multiplier would likely be similar or greater in size as one of those 16 EUs. That needs to go somewhere as well. But it's not obvious where it is.

So that's also a candidate.

Mgetz

Yeah I don't know how to read silicon well enough to say, that's not dead silicon if you look close. It's just not obvious. My guess would be it's the shuffle unit as it looks like pure logic

Oh... actually it's pretty clear if you look at the architecture block diagram

Mysticial

@Mgetz I also suspect it's the shuffle unit.

No proof though.

Mgetz

@Mysticial I'm going to guess you're right as that would be sitting on port 5

Mysticial

18:18

There aren't a lot of things that would be that big and be "irregular". (cache, register file, would be "regular")

So it's either the shuffle unit or the integer/x87 64-bit multiplier.

Mgetz

@Mysticial so looking at the client block diagram it looks like ports 0 and 1 are the main EU blocks on each side, and port 5 is the central bit

Mysticial

@Mgetz I'm not sure the port numbers imply spatial locality.

On Sunny Cove, they're adding a 256-bit shuffle on port 1.

It's probably just the upper half of the 512-bit shuffle on port 5.

Mgetz

@Mysticial I doubt it, I'm going off the block diagram which has the ALUs for client on 1 and 0 for FP

Mikhail

You also gotta talk about the energy picture. We know that when more of the chip is active it exceeds thermals. This is why AVX has a downclock. If you increase the computational density, you need to reduce the power consumption (downclock). There seems to be an intrinsic limit on the FLOPS per um^2.

Mgetz

Port 5 on client is integer ALU (non-vector) and vector shuffle

so from a functionality perspective it would make sense for the two similar EUs to be the bits that look similar

Mysticial

18:23

@Mgetz The integer ALU is probably so small that you can't see it.

So you can probably hide copies of it everywhere and not notice.

Mgetz

@Mysticial hence why I think the bits in the center are shuffle as that's the only thing that would take space

Mysticial

@Mgetz And the 64-bit multiplier.

Mgetz

@Mysticial integer or float?

Mysticial

@Mgetz The integer one.

Both actually. The 64-bit integer multiply and the x87 fmul probably use the same 64-bit multiplier.

And we know it's separate from the SIMD since it's possible to dual-issue 512-bit FMA + a 64-bit multiply every cycle.

Mgetz

@Mysticial I'm half surprised x87 isn't microcode now

Borgleader

18:27

@Mysticial oh god

Mysticial

@Mgetz but but but... legacy code

Need to make old benchmarks look fast.

Mgetz

@Mysticial fair they got burned bad by doing things like that with the P4

Mysticial

@Mgetz Like the barrel shifter?

Mgetz

@Mysticial or the fact that MMX and x87 were crap?

so games had to switch to SSE

Mysticial

oh

Mgetz

18:34

x87 was an absolute dog on netburst IIRC

I could go check agner but I can't be bothered

Jerry Coffin

19:07

@Mgetz Netburst? Dog? Impossibru!

Mgetz

tbf it was also the last CPU you could literally set on fire with an ordinary stream of instructions... although I still hold out the hope.

Jerry Coffin

@Mgetz Pretty sure at least parts of it always have been. I can't quite imagine that they'd actually do a hardwired implementation of something like fsincos.

Mgetz

@JerryCoffin look up tables

Mikhail

bugreports.qt.io/browse/QTBUG-44056

^ after 5 years qt fixed my bug

I also lost 2 hours due to two bugs where I thought std::map's insert was overwriting. Now I must commit seppuku.

Jerry Coffin

19:50

@Mgetz Seems like lookup tables for 80-bit precision might be a tad on the largish side...

Mysticial

@JerryCoffin I was going to make some joke about it needing more space than someone's mom's event horizon. But then I realized even that isn't big enough.

Mgetz

@JerryCoffin software.intel.com/en-us/articles/…

Jerry Coffin

@Mikhail "... it seems that you used groupbox to 'group' stuff." How foolish of you! Who would be so silly as to use a groupbox to group things?

Mgetz

@JerryCoffin software.intel.com/en-us/forums/intel-math-kernel-library/topic/…

so sort of

Jerry Coffin

@Mgetz At least as I read it, that's just saying that (for reasons unknown) they're using only a 66-bit approximation of Pi when they reduce your input to the correct range. From there they do some normal computation. If there's anything pointing (even generally) toward table lookup, I missed it.

Mikhail

20:03

@JerryCoffin In addition, from what I can tell they've outsourced everything. I've personally been uncertain as to where to find a good Qt design house.

Jerry Coffin

@Mikhail "good Qt design". Still living in dreamland, I see! :-) (Sorry, couldn't resist)

Mikhail

The dream of the 90s

Anyways, I really need somebody to tell me how actual C++ GUI programs are made by small shops. I'm going to be dead before I can get a functional front end up and running.

I think for Android you can pay somebody $300/400 an hour to bring up a GUI

Jerry Coffin

@Mikhail I dunno any more. I haven't written any GUI code in years (but for $400/hour, that's surely open to change).

Mgetz

@JerryCoffin could have sworn it was a look up table, I guess I was wrong

Mikhail

That's the cost for hiring the team, maybe 4 people. Which is around $800,000 a year.

Jerry Coffin

20:12

@Mgetz I'd guess you were thinking of some software or other. Certainly for things like graphics, you can get by with a lookup table--and not even a very big one.

Rick

I could learned android and then forgot it

Jerry Coffin

@Mikhail I can do it for only $600,000/year!

Mgetz

@JerryCoffin maybe either way it looks like it's only partially microcode

Mikhail

@JerryCoffin Hey, stay off my turf. Telling people they can their million dollar projects done for $20k is my job.

Jerry Coffin

@Mgetz At some point, you always have hardware involved... :-)

Rick

20:15

@Mikhail I would actually replace 4 android guys with Jerry. Anyone that knows how to swap using division is top tear

in my book

Jerry Coffin

@Mikhail I'm not gonna try to outbid you into the $20K range for a job a sane person would expect to cost a million...

Mikhail

Is there any way I can convince your company to sponsor my research work by giving me JBOD arrays

Rick

*tier

Jerry Coffin

@Mikhail My (current) company? Not a chance.

Rick

20:53

Anyone know where permutation graphs are used extensively. Specifically, where a permutation graph is preferred over say, a regular graph where all the nodes need to be known and stored ahead of time?

Mikhail

@Rick cs.kent.edu/~dragan/ST-Spring2016/…

aka graph coloring

Rick

@Mikhail you da man! thanks!

It has like one example, and it was something I was already aware of :(

Wael Assaf

21:33

Hello beautiful guys all around the universe.
I am trying to build a Linked List https://pastebin.com/7RReAPiJ
However, I noticed a strange thing.
that the constructor is being called twice? What's wrong with this?

Wael Assaf

22:15

I figured it out. Thank y'all

Rick

22:39

why do they make generating a wasm file from clang so goddam hard

and it does this roundabout thing where it goes to asm before it goes to wasm.

Jerry Coffin

@Rick Apparently nobody's written a proper LLVM module to "lower" directly from LLVM intermediate code to WASM. I honestly can't blame them much though--it's a serious pain in the ass.

Rick

22:58

That does sound like a lot of effort. I thought that some of the infrastructures would have already been there with the V8 C++ bindings.

this might be an opportunity to better understand the C++ compiler and assembly. hmm...

Mikhail

23:24

You sound unemployed

Jerry Coffin

23:37

@Rick Not sure how bindings would matter. The basic idea is pretty simple: WASM defines an instruction set. "Lowering" is the name LLVM gives to taking its intermediate code and generating code for some (possibly virtual) processor. So, to have clang (or any other llvm front-end) generate WASM, you write the module that does lowering to WASM. I believe the current process generates assembly language, then does some sort of object->object translation to get from there to WASM.

Luc Danton

sounds janky (though understandable at the same time)

Rick

@JerryCoffin so it's not some task that would require an army of engineers. So it can it be done by individual effort within a reasonable amount of time

Rick

23:51

@LucDanton they way I'm doing it right now is janky. And it's the only it can be done right now.

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