I couldn't seem to figure out how to run a cmd program in a C program.
This is my code:
#include <stdio.h>
#include <stdlib.h>
int main()
{
char educode[100];
printf("Welcome To ACE-IT Edu Software!\n");
printf("\nPlease Type An Educator Code and then press enter.");
printf("\nEducator Code: ");
gets(educode);
if(educode == 5678){
system("mkdir test");
} else {
printf("\nSorry, thats not a valid Educator Code. To buy an Educator Code, go to https://www.ace-it.edu");
}
return 0;
}
Thanks to the bad if-comparison (you can't compare strings with integers) your system call is never run.
Wrong:
gets(educode);
if(educode == 5678){
Try:
gets(educode);
if(strcmp(educode, "5678") == 0 ){
Remember to add #include <string.h> to the top as well.
Also, never use gets() -- it was removed from the C standard in 2011.
Try fgets(), after reading up on how to use it.
The problem with this code is you are comparing a pointer to a string and an integer, in this line.
if (educode == 5678)
5678 is an int type, and you are determining whether or not it equals a pointer to a string of chars. C is an explicitly-typed language, so comparisons like these don't work like that. You will want to use this instead.
if (atoi(educode) == 5678)
system("mkdir test");
Use the stdlib function atoi() to convert your string to an integer value.
Side note: Using the system() function is the same way to run shell commands across all platforms (Windows, Linux, Mac). However, not all of these commands are the same. For instance, what del does in DOS-based environments, is rm in Linux/Unix. On Windows, you would use rename or move for the same action that mv does on Linux. This program is simple enough, you might just want to use a Batch file, if you're confident this code is only for Windows.
Try the solution in this link:
Calling 'ls' with execv
Make these changes:
args[0] = "/bin/mkdir"
args[1] = "new_directory"
I believe you asking for win platform
you could use the system() function available in process.h to run commands.
//Program to run dos commands through a C program.
#include <stdio.h>
#include <process.h>
int main()
{
int choice=0;
printf("\n***************************************\n");
printf("1. Open Notepad...\n");
printf("2. Get Ip Address...\n");
printf("3. Shut down the computer...\n");
printf("** Enter your choice :");
scanf("%d",&choice);
switch(choice)
{
case 1:
system("notepad");
break;
case 2:
system("ipconfig");
system("pause");
break;
case 3:
system("SHUTDOWN -S");
system("pause");
break;
default:
printf("\n Invalid choice !!!");
}
return 0;
}
In the next code:
#include <stdio.h>
int main(void) {
int c;
while ((c=getchar())!= EOF)
putchar(c);
return 0;
}
I have to press Enter to print all the letters I entered with getchar, but I don't want to do this, what I want to do is to press the letter and immediately see the the letter I introduced repeated without pressing Enter. For example, if I press the letter 'a' I want to see an other 'a' next to it, and so on:
aabbccddeeff.....
But when I press 'a' nothing happens, I can write other letters and the copy appears only when I press Enter:
abcdef
abcdef
How can I do this?
I am using the command cc -o example example.c under Ubuntu for compiling.
This depends on your OS, if you are in a UNIX like environment the ICANON flag is enabled by default, so input is buffered until the next '\n' or EOF. By disabling the canonical mode you will get the characters immediately. This is also possible on other platforms, but there is no straight forward cross-platform solution.
EDIT: I see you specified that you use Ubuntu. I just posted something similar yesterday, but be aware that this will disable many default behaviors of your terminal.
#include<stdio.h>
#include <termios.h> //termios, TCSANOW, ECHO, ICANON
#include <unistd.h> //STDIN_FILENO
int main(void){
int c;
static struct termios oldt, newt;
/*tcgetattr gets the parameters of the current terminal
STDIN_FILENO will tell tcgetattr that it should write the settings
of stdin to oldt*/
tcgetattr( STDIN_FILENO, &oldt);
/*now the settings will be copied*/
newt = oldt;
/*ICANON normally takes care that one line at a time will be processed
that means it will return if it sees a "\n" or an EOF or an EOL*/
newt.c_lflag &= ~(ICANON);
/*Those new settings will be set to STDIN
TCSANOW tells tcsetattr to change attributes immediately. */
tcsetattr( STDIN_FILENO, TCSANOW, &newt);
/*This is your part:
I choose 'e' to end input. Notice that EOF is also turned off
in the non-canonical mode*/
while((c=getchar())!= 'e')
putchar(c);
/*restore the old settings*/
tcsetattr( STDIN_FILENO, TCSANOW, &oldt);
return 0;
}
You will notice, that every character appears twice. This is because the input is immediately echoed back to the terminal and then your program puts it back with putchar() too. If you want to disassociate the input from the output, you also have to turn of the ECHO flag. You can do this by simply changing the appropriate line to:
newt.c_lflag &= ~(ICANON | ECHO);
On a linux system, you can modify terminal behaviour using the stty command. By default, the terminal will buffer all information until Enter is pressed, before even sending it to the C program.
A quick, dirty, and not-particularly-portable example to change the behaviour from within the program itself:
#include<stdio.h>
#include<stdlib.h>
int main(void){
int c;
/* use system call to make terminal send all keystrokes directly to stdin */
system ("/bin/stty raw");
while((c=getchar())!= '.') {
/* type a period to break out of the loop, since CTRL-D won't work raw */
putchar(c);
}
/* use system call to set terminal behaviour to more normal behaviour */
system ("/bin/stty cooked");
return 0;
}
Please note that this isn't really optimal, since it just sort of assumes that stty cooked is the behaviour you want when the program exits, rather than checking what the original terminal settings were. Also, since all special processing is skipped in raw mode, many key sequences (such as CTRL-C or CTRL-D) won't actually work as you expect them to without explicitly processing them in the program.
You can man stty for more control over the terminal behaviour, depending exactly on what you want to achieve.
getchar() is a standard function that on many platforms requires you to press ENTER to get the input, because the platform buffers input until that key is pressed. Many compilers/platforms support the non-standard getch() that does not care about ENTER (bypasses platform buffering, treats ENTER like just another key).
I/O is an operating system function. In many cases, the operating system won't pass typed character to a program until ENTER is pressed. This allows the user to modify the input (such as backspacing and retyping) before sending it to the program. For most purposes, this works well, presents a consistent interface to the user, and relieves the program from having to deal with this. In some cases, it's desirable for a program to get characters from keys as they are pressed.
The C library itself deals with files, and doesn't concern itself with how data gets into the input file. Therefore, there's no way in the language itself to get keys as they are pressed; instead, this is platform-specific. Since you haven't specified OS or compiler, we can't look it up for you.
Also, the standard output is normally buffered for efficiency. This is done by the C libraries, and so there is a C solution, which is to fflush(stdout); after each character written. After that, whether the characters are displayed immediately is up to the operating system, but all the OSes I'm familiar with will display the output immediately, so that's not normally a problem.
I like Lucas answer, but I would like to elaborate it a bit. There is a built-in function in termios.h named cfmakeraw() which man describes as:
cfmakeraw() sets the terminal to something like the "raw" mode of the
old Version 7 terminal driver: input is available character by
character, echoing is disabled, and all special processing of
terminal input and output characters is disabled. [...]
This basically does the same as what Lucas suggested and more, you can see the exact flags it sets in the man pages: termios(3).
Use case
int c = 0;
static struct termios oldTermios, newTermios;
tcgetattr(STDIN_FILENO, &oldTermios);
newTermios = oldTermios;
cfmakeraw(&newTermios);
tcsetattr(STDIN_FILENO, TCSANOW, &newTermios);
c = getchar();
tcsetattr(STDIN_FILENO, TCSANOW, &oldTermios);
switch (c) {
case 113: // q
printf("\n\n");
exit(0);
break;
case 105: // i
printf("insert\n");
break;
default:
break;
Since you are working on a Unix derivative (Ubuntu), here is one way to do it - not recommended, but it will work (as long as you can type commands accurately):
echo "stty -g $(stty -g)" > restore-sanity
stty cbreak
./your_program
Use interrupt to stop the program when you are bored with it.
sh restore-sanity
The 'echo' line saves the current terminal settings as a shell script that will restore them.
The 'stty' line turns off most of the special processing (so Control-D has no effect, for example) and sends characters to the program as soon as they are available. It means you cannot edit your typing any more.
The 'sh' line reinstates your original terminal settings.
You can economize if 'stty sane' restores your settings sufficiently accurately for your purposes. The format of '-g' is not portable across versions of 'stty' (so what is generated on Solaris 10 won't work on Linux, or vice versa), but the concept works everywhere. The 'stty sane' option is not universally available, AFAIK (but is on Linux).
You could include the 'ncurses' library, and use getch() instead of getchar().
"How to avoid pressing Enter with getchar()?"
First of all, terminal input is commonly either line or fully buffered. This means that the operating system stores the actual input from the terminal in a buffer. Usually, this buffer is flushed to the program when e.g. \n was signalized/provided in stdin. This is f.e. made by a press to Enter.
getchar() is just at the end of the chain. It has no ability to actually influence the buffering process.
"How can I do this?"
Ditch getchar() in the first place, if you donĀ“t want to use specific system calls to change the behavior of the terminal explicitly like well explained in the other answers.
There is unfortunately no standard library function and with that no portable way to flush the buffer at single character input. However, there are implementation-based and non-portable solutions.
In Windows/MS-DOS, there are the getch() and getche() functions in the conio.h header file, which do exactly the thing you want - read a single character without the need to wait for the newline to flush the buffer.
The main difference between getch() and getche() is that getch() does not immediately output the actual input character in the console, while getche() does. The additional "e" stands for echo.
Example:
#include <stdio.h>
#include <conio.h>
int main (void)
{
int c;
while ((c = getche()) != EOF)
{
if (c == '\n')
{
break;
}
printf("\n");
}
return 0;
}
In Linux, a way to obtain direct character processing and output is to use the cbreak() and echo() options and the getch() and refresh() routines in the ncurses-library.
Note, that you need to initialize the so called standard screen with the initscr() and close the same with the endwin() routines.
Example:
#include <stdio.h>
#include <ncurses.h>
int main (void)
{
int c;
cbreak();
echo();
initscr();
while ((c = getch()) != ERR)
{
if (c == '\n')
{
break;
}
printf("\n");
refresh();
}
endwin();
return 0;
}
Note: You need to invoke the compiler with the -lncurses option, so that the linker can search and find the ncurses-library.
yes you can do this on windows too, here's the code below, using the conio.h library
#include <iostream> //basic input/output
#include <conio.h> //provides non standard getch() function
using namespace std;
int main()
{
cout << "Password: ";
string pass;
while(true)
{
char ch = getch();
if(ch=='\r'){ //when a carriage return is found [enter] key
cout << endl << "Your password is: " << pass <<endl;
break;
}
pass+=ch;
cout << "*";
}
getch();
return 0;
}
I've had this problem/question come up in an assignment that I'm currently working on.
It also depends on which input you are grabbing from.
I am using
/dev/tty
to get input while the program is running, so that needs to be the filestream associated with the command.
On the ubuntu machine I have to test/target, it required more than just
system( "stty -raw" );
or
system( "stty -icanon" );
I had to add the --file flag, as well as path to the command, like so:
system( "/bin/stty --file=/dev/tty -icanon" );
Everything is copacetic now.
This code worked for me. Attention : this is not part of the standard library, even if most compilers (I use GCC) supports it.
#include <stdio.h>
#include <conio.h>
int main(int argc, char const *argv[]) {
char a = getch();
printf("You typed a char with an ASCII value of %d, printable as '%c'\n", a, a);
return 0;
}
This code detects the first key press.
Can create a new function that checks for Enter:
#include <stdio.h>
char getChar()
{
printf("Please enter a char:\n");
char c = getchar();
if (c == '\n')
{
c = getchar();
}
return c;
}
int main(int argc, char *argv[])
{
char ch;
while ((ch = getChar()) != '.')
{
printf("Your char: %c\n", ch);
}
return 0;
}
By default, the C library buffers the output until it sees a return. To print out the results immediately, use fflush:
while((c=getchar())!= EOF)
{
putchar(c);
fflush(stdout);
}
you can use _getch() instead of getch() from <conio.h>
I have a C program, that I would like to print its output from swift, and when it scans I can give it input through Swift. Is such thing possible? I tried this with a simple function, and it worked, but how can someone do so with many different functions that call other functions?
I know the question is a bit vague, but can someone point me into the right direction?
Example of code:
int main(int argc, char **argv) {
int i;
int hitme;
char ch;
prelim();
if (argc > 1) { // look for -f option
if (strcmp(argv[1], "-f")== 0) {
coordfixed = 1;
argc--;
argv++;
}
}
if (argc > 1) {
fromcommandline = 1;
line[0] = '\0';
while (--argc > 0) {
strcat(line, *(++argv));
strcat(line, " ");
}
}
else fromcommandline = 0;
while (TRUE) { /* Play a game */
setup();
if (alldone) {
score(0);
alldone = 0;
}
else makemoves();
skip(2);
stars();
skip(1);
if (tourn && alldone) {
printf("Do you want your score recorded?");
if (ja()) {
chew2();
freeze(FALSE);
}
}
printf("Do you want to play again?");
if (!ja()) break;
}
skip(1);
prout("May the Great Bird of the Galaxy roost upon your home planet.");
return 0;
}
Yes.
This is extensively covered in Using Swift with Cocoa and Objective-C. Objective-C is a superset of C, so all the instructions for Objective-C work equally well for C.
The short version is that you just add the C code to your project, import its header in your Objective-C Bridging Header, and then the C functions will be available in Swift (using various automatic translations).
That said, if you really want to read the output (i.e. the results of these printf) calls, that's a bit different problem. I'd avoid it if you can. Otherwise you'd need to do something like build the C program as its own executable and use NSTask within Swift to call it and capture the output, or you'd have to hijack stdout with something like fdopen. It's a pain to do that completely correctly.
I will focus on the second part of your question, how to interact with C code that uses the standard IO facilities:
The obvious choice as Rob Napier pointed out is just compiling the C code into an executable and using something akin to popen(3) to read and write to its standard IO facilities, the same way you would read/write any other FILE*.
Another way would be to seek out places where stdio is used and change these functions. For example you could use
#ifdef STANDALONE
#define print printf
#else
#define print passToSwift
#endif
Then you can change all the printfs to prints and just #define which mode you want your C code to operate in. In case STANDALONE is left undefined, you will have to provide a passToSwift function that will connect your C and Swift functionality.
One more way without having to change all printfs is using funopen(3) or friends, particularly fwopen(3). With fwopen(3) (man fwopen) you can provide a passToSwift function to be called whenever something is written to stdout.
#include <stdio.h>
int passToSwift(void * cookie, const char * buffer, int len)
{
(void)cookie;
// do stuff with the buffer you recieved
return len;
}
int main(void)
{
fflush(stdout);
stdout = fwopen(NULL, passToSwift);
printf("Hey\n");
}
The assignment to stdout is not portable, but works for me on OS X. I am not aware of any other way to achieve it. (dup2 gives EBADF for funopend streams, freopen expects an entry in the filesystem).
I am adressing a quite similar problem.
I have a solution open to discussion on codereview: C hack: replace printf to collect output and return complete string by using a line buffer
Maybe you could use that (or a part of it) for your text game as well ...
The improved version of C hack: replace printf to collect output and return complete string by using a line buffer is now availabe on github as Xcode 7 project swift-C-string-passing (and standalone gcc version).
Especially look at the #define preprocessor statements to make use of the bridge to swift (similar to a3f's answer).
My solution is able to pass strings in and out to the C code. But how are the answers retrieved from the user? I.e. what does the ja() function do?
Code snippet (Full code here.) :
int Process (void)
{
for (;;)
{
unsigned char Char_Fore = getch();
if (Char_Fore == 0xE0)
{
unsigned char Char_Back = getch();
switch (Char_Back)
{
case 0x48:
Up();
break;
case 0x50:
Down();
break;
}
}
else if (Char_Fore == 0x0D)
Enter();
}
return 0;
}
This code can run properly on some machine, but some can't because of the getch() function.
getch() or _getch() is a function declared in conio.h , and the return value would vary if your keyboard is not IBM set 2, or the different compiler were chosen (not Mingw-gcc).
Is there a better way to analyze the key which was pressed in C without printing on the screen and without using a deprecated function like getch() or _getch() in console?
I know this isn't really an answer, but I don't have enough reputation to comment.
I recall using a header called termios.h, and using it I could turn off echoing of characters, now this was on a UNIX system, but I'd imagine there's a Windows equivalent.
Here's the pressanykey code with windows.h, perhaps you could adjust it to your needs?
http://www.cplusplus.com/forum/articles/7312/#msg33734
Check out curses or ncurses, sounds like kind of thing you want to be using.
PDCurses seems to be the Windows option - Is ncurses available for windows?
I'm using C. I wrote a very simpe program which prints back the input, using getchar() and putchar() or printf(). Is there any way to make it so as soon as the user types one key, the program registers it, without waiting for an Enter? Let me show:
Currently, if the user types "abc" and then presses Enter, the program prints "abc" and a newline and keeps waiting for more input. I want to make it so as soon as the user types "a", the program prints "a" and waits for more input. I'm not sure whether this has to be done inside the source code or if something has to be changed in the Windows command line.
Just in case, here's the source code:
#include <stdio.h>
int main()
{
int c;
while ((c = getchar()) != EOF) {
putchar(c);
}
return 0;
}
if you are using Visual Studio, there is a library called conio (#include <conio.h>) which defines a kbhit() function and getch().
otherwise, on Windows, there is still the possibility of using functions from the Windows SDK (ReadConsoleInput() and the like), but that would require a little bit more code (although, once done and if done properly, it can be reused any time you want)
If you're using Visual Studio, you can use getch().
In this simple case, the other answers should suit you fine.
The general solution is to disable line buffering. This depends on the particular console; the following example is Windows-only (untested):
#include <windows.h>
int main() {
HANDLE hConsole = GetStdHandle(STD_INPUT_HANDLE);
DWORD mode;
GetConsoleMode(hConsole, &mode);
SetConsoleMode(hConsole, mode & ~ENABLE_LINE_INPUT);
// ...
}
I assume that the standard C library functions are implemented in terms of ReadConsole and friends; if not, this might not even work. (I'm currently on Linux, so I cannot test this.)
On Linux you can take over the terminal:
#include <stdio.h>
#include <ctype.h>
#include <termios.h>
system("stty raw"); /* raw output to terminal, direct feedback */
system("clear"); /* clear screen */
printf("Press a key");
answer = getchar();
system("stty cooked"); /* revert back*/