@CatPlusPlus No, not always. Not even close to always. For a lot of communication, adding even slightly to the power bill (for example) to encrypt data that doesn't need to be is simply throwing away money.
@Nemo Pedantic alert: that was vulgarity, not cursing. :-)
I suppose that servers themselves are the fastest machines and find computation trivial, but they also derive the greatest benefit from reducing computation; it translates directly into a few thousand more connections it can keep up with
Existing infrastructure is a poor argument when we're in process of ripping out non-encrypted streams from wherever we can due to data being increasingly more valuable and dangerous to leak
> On our production frontend machines, SSL/TLS accounts for less than 1% of the CPU load, less than 10KB of memory per connection and less than 2% of network overhead.
@CatPlusPlus Interesting. I knew that it's now faster to compress a stream and decompress on the other side than to send it raw. Apparently there was a point in time when the computation would have been a bottleneck
Yeah, memory and network has increasingly been the bottleneck for everything . It's quite impressive how powerful even basic android phones are, even though they seem puny.
@jaggedSpire Not to do any one upsmanship, but my kids have 4 days off. I, however, get the usual (which is about one hour, by the time my wife is done with things).
He often offered victims nighttime lifts in his police car before taking them to remote locations where he raped and killed them, leaving their naked bodies in woods on roadsides.
> Who exactly is "Uncle Bob"? I've seen articles posted here for years like he's some respected author, but yet every time it seems like the general consensus is that he is talking utter rubbish.
@fredoverflow yes, many people seem to have missed the point
He's not saying power plants should be built and tested later after seeing how they break, he's saying, with a bad example, that you shouldn't simply rely on a system that prevents mistakes but you can turn off that prevention. Either you can never ever do that, or you always can and you just test it properly
@thecoshman there's no point there, it's just an uneducated rant
> The problem with Uncle Bob's post is that he seems stuck in a two-decade-old dichotomy between the popular-but-sucky typed languages and the popular-but-sucky untyped ones.
Bartek is not missing it, he's just ignoring the point because it's nonsense.
In a sensible language you can't just turn off static type safety.
And no proponent of strongly typed languages is saying we shouldn't write tests.
Not even Bartosz is claiming that we currently have the technology to never write tests and always rely on static checks.
The actually important point is that type safety allows you to avoid writing tests that are covered by it, and arguing for doing differently is like arguing to build a car yourself instead of using a ready-made one.
@Griwes Well, some of those tests are practically impossible to write. Like e.g. testing whether a String is "null" in Haskell. If the invalid states can't ever exist, you can't ever express them, even in a test.
@BartekBanachewicz I wasn't talking in the context of Haskell; I was talking about this in the context of the original post from Uncle Bob, who suggested we should wander away from statically type-safe languages.
@Griwes Neither was I. I brought up a Haskell example, but of course this will still stand about pretty much every static invariant.
Uncle Bob said that because one can go around a type system that's "too strict", and is inclined to not write tests because it's strict, they can be left with neither type safety nor tests.
Now obviously for things that you can actually go around in production code, you can test that behaviour. Null safety isn't one of those things in most of the languages though.
It's most certainly not type-safe since C isn't really type safe, but even memory safety goes out the window once you call an unsafe language (in this case, C).
Memory safety is a concern in software development that aims to avoid software bugs that cause security vulnerabilities dealing with random-access memory (RAM) access, such as buffer overflows and dangling pointers.
Computer languages such as C and C++ that support arbitrary pointer arithmetic, casting, and deallocation are typically not memory safe. There are several approaches to find errors in such languages: see the Detection section below.
Most high-level programming languages avoid the problem by disallowing pointer arithmetic and casting entirely, and by enforcing tracing garbage collection...
@Ell It doesn't matter if your wrapper interface for the C interface is type and memory safe if the C function behind the interface is not type and memory safe.
The parameter is a pointer to a list of all the arguments (as described by the programmer), and the return value is a pointer to a list of all the results (as described by the programmer).
@R.MartinhoFernandes well, let's say you have void foo(void* f) which shouldn't be called with f as nullptr, then in the "calling language", you can have your interface look like void foo(NotZeroIntPtr f) or something
then you know that f will never be 0 by the type system, so where do you need to test?
@Griwes why do you need to test that? foos interface according to the programmer says it accepts any f - not one specifically that may not be dereferenced if today is a tuesday
have you ever seen a std::vector crash on assign()? i feel that it'd not be a valid question on SO if i asked "std:vector crashes on assign with a size of 4096"
@wilx Did they give specifics? Something like "The understanding of the law in the talk does not match the understanding of our lawyers and the intended meaning, therefore the points of the talk are invalid".
Our fraction EPP approaches the author's (copyright?) rights responsibly and with interest to rights holders. We resolutely do not identify with the approach of Mrs. Redy.
@iksemyonov First you assume the bug is within your code and don't try to debug std::vector. My guess is that you wrote beyond the bounds of the vector which then crashes when the vector is trying to free the corrupted memory.
@iksemyonov "hard to provide an MCVE" means "hard to debug". Sorry. You are more qualified to solve this than any of us, because you can actually look at your code.
Suppose that I have started a console application which finishes, then shell prompt brings up again. But how can I be sure that it's the real command prompt? What if, for example, the application is a "key logger" which starts a fake prompt when I try to exit?
So, how can I detect that I am actu...
The problem is that it doesn't bring anything special to the table over the general humiliation, waste of time for everyone involved and idiotic tradition
@BartekBanachewicz IMHO, oral examination is harder, i.e., it forces you to at least memorize things, better, to actually understand them and to respond dynamically to given queries.
I have discovered a real life deadlock. We have to use VS2013 because we are dependent on some external lib and the lib writers cannot upgrade because people (us) still use VS2013.
> Then it was time to teach him how to go. I did this by incorporating with it the lesson of how to stop. Knowing how to go without knowing how to stop is bad planning. When I first rode no one taught me how to stop the thing. I’ve remembered the cost of that omission.
lol
anectode: I taught a handful people how to ride my bike. I tried telling them how to stop. "Please, go in a straight line at least a dozen times and get a feel for the brakes. Learn how to stop".
You might try guessing how many people have followed my advice after they've realized that pulling the gas makes them go forward ;)
@Mgetz .dll. One problem is that my program needs Qt and their .dll needs Qt and that the versions need to match, which is a pain. One might be able to write a wrapper to fix this or maybe one can actually link properly with 2 sets of function definitions by telling the linker which to use when.
I did accidentally compile with VS2015 and it told me among other things that the number of parameters that one format string takes does not match the number of arguments passed. VS2013 didn't care. Legacy code with legacy tools is fun.