In c++ code, i ll use system( )to execute shell commands.. is there any way to get the desired output (i.e grep the fields) without using grep/awk.. ? using c++ feature..
Could anyone please tell me how to understand this behavior in printf? If I write printf("Bill is 42% gf 100$", "4");, the answer is Bill is 42 0f 100$, I don't know where the 0 came from. If I write printf("Bill is 42% of 100$", "4");, I get a random garbage value. I'm unable to understand this. (PS: I know how %d, %0.6f, etc. work. I'm just curious about how this single % sign works)
@GaurangTandon Please post the code in its own message, then explanations and questions. Probably people will be able to spot the error without explanation.
@Incomputable there is not much code (or MVCE) as you can see, it's just a single statement. printf("Bill is 42% gf 100$", "4"); gives Bill is 42 0f 100$. printf("Bill is 42% of 100$", "4"); gives a garbage value. I wish to know why.
it doesn't seem like anybody cares about gcc there. The site includes react and other web stuff, which is probably much more popular and easier to maintain
I believe that it is more of an issue with Oracle, than with Java. Java has nice ecosystem though, with all of the tools and stuff. C++ is catching up though, but slowly
@Incomputable it is, but at the same time the legal guarantees of an ISO standard are nice. C# has an ISO standard (that is sadly lagging the implementation by a lot)
@Mgetz does that depend on size of the committee? WG21 got quite a lot of people, and started working in a more productive way. Or is it the approach of TS-es and stuff that impacted it?
@Incomputable It was more that MS lost interest in keeping it up for awhile, and then Nadya took over. They are in the process of getting I think C# 7 standardized right now
you are allowed to create your own java runtime based on the javadoc however it must a complete implementation (including crap like awt, swing and other platform dependent stuff) and passes their compatibility test.
google culled parts of the standard java runtime which I believe is where they got bit
@Incomputable Ah. Actually I misunderstood mutable keyword for lambda. Later I found that by default, local variables captured by value can't be modified in lambda function body.
"In computer programming, undefined behavior (UB) is the result of executing computer code whose behavior is not prescribed by the language specification to which the code adheres, for the current state of the program. This happens when the translator of the source code makes certain assumptions, but these assumptions are not satisfied during execution." Could anyone tell what the bold line means?
@GaurangTandon translator is usually a compiler. Broken assumptions are like buffer overflow, divizion by zero, etc. Compiler assumes programmers knows what they're doing. But often it is not the case
Maybe not necessarily C++ related, but does anyone know how an atomic write is implemented (x86)? Atomic read is generally (without any alignment or alike) smth like "lock cmpxchg (addr, 0, 0)" But what is an atomic write?
I understand that often we first atomically read the value and then just do "cmpxchg (addr, prev, new), but what if I just want to atomically write?
Is it possible to have a pointer to a function like: void foo(int) and to have a foop variable which points to foo(5), and when i do foop(); it calls foo(5)
is that possible
sorry for my idiotic english
but i am kind of tired to type a reasonable english
I wanna assign a function to function ptr but give its parameter already while assigning, not later when i am calling through the ptr
oh true, I was thinking that it would be problem cuz of the reference to the var, but I dont need to do it that way, so its ok, sorry fellas i am sick so my brain is slow here :D
@GaurangTandon It might correctly print % is C too. It's invalid, so do whatever.
The thing is that \ is special in string literals and % is special for printf. And since you pass a string literal to printf you have to obey both overlapping rules.
@GaurangTandon also for console.log("\""); there the quote is escaped by the compiler's lexer, while console.log("\\%"); the string is escaped to hold {'\\', '%'} and the implementation sees the \ and uses it to escape the %
@nwp but is it always guaranteed to be aligned? I thought it's not so I mentioned that one specifically in the question There is a common pattern of cmpxchg(.., 0, 0) at least, I thought there could be smth for write as well
@ledonter According to C++ rules it must always be aligned. You need to do some UB casting before you get an unaligned pointer, and in that case you are screwed either way.
@GaurangTandon because it is much simpler to only account for % as special char and you don't want to reuse \ because that leads to massive multiplication of \ for no real gain
@ratchetfreak " it is much simpler to only account for % as special char" doesn't printf already account for both \ and % as being special characters? Like, \n still works, so `\` is also given special character status
If I remember right if you have unaligned accesses in x86 the processor will silently do 2 accesses and bitshift it to make it work. You lose some performance, but it does the right thing and it is still atomic unless the memory spans across cache line borders.
The proper way to handle it would be to simply use std::atomic<T> and let the compiler worry about such details.
sadly, I guess I have a lot to learn before being able to understand the answer to my question. I'll bookmark the convo for the time being, thanks for the help! ^_^
@GaurangTandon Note that if you want a printf format string to print out a percent sign, you're supposed to double the percent. e.g., printf("%%"); prints one percent sign. No need to deal with back-slashes at all.
Why does Java allow mutation of constant arrays, while C doesn't? See identical reference code - C and Java - one successfully compiles and gives output, other gives error
As far as I had understood it, variables (like char[]) are just references to a specific location, and the reference can stay constant, even while the value at the reference may change. I believe the same should hold for C. But it doesn't :/
@milleniumbug woah
it doesn't
okay, I realize I don't know how arrays work in C and Java - they're probably more different from each other than I think they are
@milleniumbug right, that's why I said mutation. But C doesn't allow even that :(
@milleniumbug okay, that Java statement declared and initialized the array object as well. But that C statement only declared. But, actually, if you do int arr[] = {1, 2, ..., 40};, then C would have to reserve space for the array, as well as create the array object and store its values. Am I right?
@milleniumbug oh. C isn't object oriented. there's no objects in there! :(
okay, so int arr[] = {1, 2, ..., 40};, is just shorthand for declaring forty separate integer variables in C, and a single contiguous memory location (an actual array object) in Java. Am I right?
@VioAriton I dealt with that again and here is the answer of your question. The x variable (which is an lvalue itself) is of type rvalue reference to int. The reference part is in the case of type deducting ignored, this means now only int is deduced to int&. Further T = int & && collapses to lvalue reference int&. So you forward at the end an lvalue reference which results in the invocation of func(int& x).
Sorry, I didn't get the "you can "repoint" at a different array". In Java, I was just "repointing" a single value (at index 1). I was not repointing the whole array.
Hello Everyone. I am trying to convert a C string to C++ std::string. void myfunc(unsigned char * input) { string val = input; } I get invalid conversion from unsigned char * to const char *
