That's a really neat idea when it's too crowded here to lead a serious discussion: Post a bunch of interesting links and everybody will be off reading.
@sbi It just seems everyone creates this niche languages. I remember in the 90's when ColdFusion was huge and they were looking for people with 5-10 years of experience, when it was just created in 1995.
@Potatoswatter They did connect computers directly to monkeys' brains, but that always fried the brains. Now we have to live with the resulting politicians.
(And I don't like the expression <language> developer)
user402642
I'm using QtCreator IDE to manage a medium size project (~20,000 lines of code). I'm having doubts with the way QtCreator builds/rebuilds files using qmake/make. Is it beneficial to do hand-compilations of modules to compare performance differences? (ie: with -O3 optimizations in gcc, etc)
@CarlodelMundo If you want to customize, you may need to switch to another build system e.g. Cmake. qmake does not allow much customization, it's only really useful for kickstarting,
I know C++ is not recommended in kernel module, however, we have a module written in a mix of C and C++ files, the module works well in 32-bit system (kernel 2.6), now we are trying to port the module to 64-bit system, is C++ not supported at all in 64-bit system?
Thanks,
YH
@EtiennedeMartel When in doubt, leave your monitor and take a walk to think. Why is that mutable there? What did I think when I put it there? Did I think right? Have any of the circumstances changed since I thought that? Is that mutable still be needed? If so, why does it seem to be superfluous? If not, I can delete it.
Yeah, way more complicated than your rule of thumb. But it works better, too.
The kernel developers are highly against using C++ in the kernel, and suggest everyone to port their modules to C. But that doesn't mean it's not feasible.
@kbok Well, that's a bit of a funny reasoning they describe there:
> Is it a good idea to write a new driver in C++? The short answer is no, because there isn't any support for C++ drivers in the kernel.
> Why not add a C++ interface layer to the kernel to support C++ drivers? The short answer is why bother, since there aren't any C++ drivers for Linux.
> However, if you are bold enough to consider writing a driver in C++ and a support layer, be aware that this is unlikely to be well received in the community. Most of the kernel developers are unconvinced of the merits of C++ in general, and consider C++ to generate bloated code. Also, it would result in a confusing mix of C and C++ code in the kernel.
It's very common that people take a C library and make a C++ binding. It was a very important point of design of the language, to make it compatible with C.
You got it a bit wrong:
The C# code forms the source code
That source code is compiled to CIL by a C# compiler and packaged in an assembly
At runtime, your assembly (and any assembly it refers to) is loaded by the CLR
The CLR has a JIT compiler that generates machine code from that CIL
The resu...
@MartinhoFernandes Yes. But that's my gripe with people upvoting his answers :) It's Jon Skeet, so it must be good even after I pointed out the mistake. Oh well
Could someone please translate? I don't speak Englishese : "I read it before ! I mean making a myThread() that simulate a process which give similar result to a real thread "
The first thing that happens when a parent process forks a child process is that the parent initializes a space in the Cygwin process table for the child. It then creates a suspended child process using the Win32 CreateProcess call. Next, the parent process calls setjmp to save its own context and sets a pointer to this in a Cygwin shared memory area (shared among all Cygwin tasks).
It then fills in the child's .data and .bss sections by copying from its own address space into the suspended child's address space. After the child's address space is initialized, the child is run while the parent waits on a mutex. The child discovers it has been forked and longjumps using the saved jump buffer.
The child then sets the mutex the parent is waiting on and blocks on another mutex. This is the signal for the parent to copy its stack and heap into the child, after which it releases the mutex the child is waiting on and returns from the fork call. Finally, the child wakes from blocking on the last mutex, recreates any memory-mapped areas passed to it via the shared area, and returns from fork itself.
@jalf The whole thing is so stupid an argument, it makes my toenails curl. If all else fail, just run the damn thing through the compiler and see where it barks at you.
> Cygwin fork() essentially works like a non-copy on write version of fork() (like old Unix versions used to do). Because of this it can be a little slow. In most cases, you are better off using the spawn family of calls if possible.
I have been asked to take a person in our IT department who has no programming experience but is a smart and capable person and help him move into programming at lets say an entry level developer supporting existing .Net applications. I definitely believe this person can do it but I am looking fo...
I know C++ is not recommended in kernel module, however, we have a module written in a mix of C and C++ files, the module works well in 32-bit system (kernel 2.6), now we are trying to port the module to 64-bit system, is C++ not supported at all in 64-bit system?
Thanks,
YH
You got it a bit wrong:
The C# code forms the source code
That source code is compiled to CIL by a C# compiler and packaged in an assembly
At runtime, your assembly (and any assembly it refers to) is loaded by the CLR
The CLR has a JIT compiler that generates machine code from that CIL
The resu...
