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Can you tell me a usage of #pragma in c with an example.

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'#pragma' is for compiler directives that are machine-specific or operating-system-specific, i.e. it tells the compiler to do something, set some option, take some action, override some default, etc. that may or may not apply to all machines and operating systems.

see msdn for more info

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"that may or may not apply to all machines and operating systems." - and different compilers on the same machine. And which might mean different things on different compilers. – Steve Jessop Oct 24 '08 at 8:22

#pragma is used to do something implementation specific in C, i.e. be pragmatic for the currrent context rather than idealogically dogmatic.

The one I regularly use is #pragma pack(1) where I'm trying to squeeze more out of my memory space on embedded solutions, with arrays of structures that would otherwise end up with 8 byte alignment.

Pity we don't have a #dogma yet. That would be fun ;)

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we would then need #karma to override (run over) the #dogma – Steven A. Lowe Oct 24 '08 at 8:03
LOL, #karma would be way cool. Particularly on those difficult pieces of code, e.g #karma (please work). We should definitely sit on the next language update commitee – Shane MacLaughlin Oct 24 '08 at 8:07
For risky, untrusted, forgotten, unreadable, but critical code sections: #include <cassert> #define karma assert – moala Aug 11 '09 at 22:07
@ShaneMacLaughlin, Doesn't pragma(1) actully improves speed too? See… – Pacerier May 14 '15 at 16:18
@Pacerier, typically not. As per jalfs comments, data that is aligned on a 4 byte boundary for 32 bit processors or 8 byte boundary for 64 bit processors will typically be loaded and stored in a single operation. Data that is aligned on smaller boundaries will take multiple operations to load or store. This is slower. – Shane MacLaughlin May 15 '15 at 7:34

I would generally try to avoid the use of #pragmas if possible, since they're extremely compiler-dependent and non-portable. If you want to use them in a portable fashion, you'll have to surround every pragma with a #if/#endif pair. GCC discourages the use of pragmas, and really only supports some of them for compatibility with other compilers; GCC has other ways of doing the same things that other compilers use pragmas for.

For example, here's how you'd ensure that a structure is packed tightly (i.e. no padding between members) in MSVC:

#pragma pack(push, 1)
struct PackedStructure
  char a;
  int b;
  short c;
#pragma pack(pop)
// sizeof(PackedStructure) == 7

Here's how you'd do the same thing in GCC:

struct PackedStructure __attribute__((__packed__))
  char a;
  int b;
  short c;
// sizeof(PackedStructure == 7)

The GCC code is more portable, because if you want to compile that with a non-GCC compiler, all you have to do is

#define __attribute__(x)

Whereas if you want to port the MSVC code, you have to surround each pragma with a #if/#endif pair. Not pretty.

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So if I want to compile the GCC code on MSVC and need to pack the structure how exactly do I do it? – Shane MacLaughlin Jan 6 '09 at 12:15
For gcc, it's struct __attribute__((__packed__)) PackedStructure – Laurent Debricon Jul 26 '10 at 12:14

#pragma once (not standard c99) this header file will only be included once.

An alternative to include guards (#ifndef MY_FILE #define MYFILE ... #endif)

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what i feel is #pragma is a directive where if you want the code to be location specific .say a situation where you want the program counter to read from the specific address where the ISR is written then you can specify ISR at that location using #pragma vector=ADC12_VECTOR and followd by interrupt rotines name and its description

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My best advice is to look at your compiler's documentation, because pragmas are by definition implementation-specific. For instance, in embedded projects I've used them to locate code and data in different sections, or declare interrupt handlers. i.e.:

#pragma code BANK1
#pragma data BANK2

#pragma INT3 TimerHandler
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All pragmas are implementation-specific -- except the #pragma STDC ... pragmas, which are standardized across all platforms (addition to C99). – Jonathan Leffler Oct 26 '08 at 17:15

This is a preprocessor directive that can be used to turn on or off certain features. It is of two types #pragma startup, #pragma exit and pragma warn.

pragma startup allows us to specify functions called upon program startup.

pragma exit allows us to specify functions called upon program exit.

pragma warn tells the computer to suppress any warning or not.

many other #pragma style that can use to control compiler

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A #pragma is a directive which is used to call a function before the main function and to call another function after the main function. Eg:

#pragma startup func1 #pragma exit func2

Here the function 1 runs before the main function and the function 2 runs after the main function. ORDER: 1.func1 2.main 3.func2

NOTE: This code works only turbo C compiler.If you want to use it in GCC compilers then replace the pragma statements with the below code.

void __attribute__((constructor)) func1();
void __attribute__((destructor)) func2();
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All answers above make nice explanation for #pragma but I want add small example

I just want explain simple OpenMP examlpe that demonstrate some uses of #pragma to do its work

OpenMp briefly is an implementation for multi-platform shared-memory parallel programming (then we may can say its machine-specific or operating-system-specific)

lets go to example

#include <stdio.h>
#include <omp.h>// compile with: /openmp

int main() {
   #pragma omp parallel num_threads(4)
      int i = omp_get_thread_num();
      printf_s("Hello from thread %d\n", i);

the output is

Hello from thread 0
Hello from thread 1
Hello from thread 2
Hello from thread 3

Note that the order of output can vary on different machines.

now let me tell you what #pragma did...

it tells the the OS to run the some block of code on 4 threads

this is just one of many many applications you can do with the little #pragma

sory for the outside sample OpenMP

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