When I run the following code and input a sentence I am not given any output. The cursor just goes to a new line.
I copied this straight off the book and double checked it for mistakes (1st edition C programming language by kernighan & ritchie)
#include <stdio.h>
int main()
{
int c,i,nwhite,nother;
int ndigit[10];
nwhite=nother=0;
for(i=0;i<10;++i)
ndigit[i] = 0;
while (( c=getchar()) != EOF)
if(c>= '0' && c<= '9')
++ndigit[c-'0'];
else if (c==' ' || c == '\n' || c == '\t')
++nwhite;
else
++nother;
printf("digits =");
for( i=0; i<10; ++i)
printf("%d",ndigit[i]);
printf(", white space = %d, other = %d\n", nwhite,nother);
return 0;
}
Since you are testing a program copied from another source, I suppose that you don't want to change it, but understanding it.
getchar() obtains exactly 1 character from the standard input, which is a file named stdin in the standard header <stdio.h>.
The standard input, stdin, is considered a file.
Formally speaking, the end-of-file is a "mark" and not a "character".
However, in general, a specific "character" is used to mark the "end-of-file" of a text file.
In Windows the "end-of-file" mark is the character CTRL-Z (whose ASCII code is 26).
In Linxu the mark is CTRL-D (whose ASCII code is 4).
On the other hand, the standard input commonly has the following behaviour:
Wait for user enter characters until an Intro/Enter key is pressed.
If the user does not press Enter, then the standard input does not give back the control to the program. This happens even if you enter an "end-of-file" character (say, CTRL-Z).
However, other behaviours are possible.
For example, in Ubuntu console I obtain that CTRL-D is recognized without waiting for the Enter key be pressed.
In any case, you must explicitely type the end-of-file mark in the console of your system.
So, CTRL-Z (perhaps followed by Enter) or CTRL-D have to be pressed for yourself.
ABOUT ENTER and EOF
After Enter is pressed, your program test for EOF, that is, the "end-of-file" mark in your system.
However, the Enter keyword does not prints "end-of-file" marks, but only "end-of-line" ones, which corresponds to the standard character newline '\n'.
Thus, if it is desired that the while() loop terminates after pressing Intro/Enter, the test must be done against '\n', and not EOF.
AN OBSERVATION
It can be observed that getchar() doesn't retrieve the character CTRL-Z, because the ASCII code for CTRL-Z is 26, but getchar() retrieves a negative value (in general -1).
This means that getchar() recognizes the character ASCII 26 as and end-of-file mark, and then it converts to a value with meaning in C, provided by the macro EOF, which is not 26.
What I mean is that EOF is not CTRL-Z, and then one cannot naively send EOF under the assumption that the ASCII 26 (CTRL-Z) will be sent to a text file.
Summarizing, I think that it is important to delucidate the abstract concept of "end-of-file", the role of EOF, and the difference between a "mark" and a "character".
(Another example: in Windows the "mark" for "end-of-line" is the couple of characters CTRL-M CTRL-J, which is not only 1 character, but 2).
Quoted from the standard:
The getchar function returns the next character from the input stream pointed to by
stdin. If the stream is at end-of-file, the end-of-file indicator for the stream is set and
getchar returns EOF. If a read error occurs, the error indicator for the stream is set and
getchar returns EOF.
Related
I am confused by a program mentioned in K&R that uses getchar(). It gives the same output as the input string:
#include <stdio.h>
main(){
int c;
c = getchar();
while(c != EOF){
putchar(c);
c = getchar();
}
}
Why does it print the whole string? I would expect it to read a character and ask again for the input.
And, are all strings we enter terminated by an EOF?
In the simple setup you are likely using, getchar works with buffered input, so you have to press enter before getchar gets anything to read. Strings are not terminated by EOF; in fact, EOF is not really a character, but a magic value that indicates the end of the file. But EOF is not part of the string read. It's what getchar returns when there is nothing left to read.
There is an underlying buffer/stream that getchar() and friends read from. When you enter text, the text is stored in a buffer somewhere. getchar() can stream through it one character at a time. Each read returns the next character until it reaches the end of the buffer. The reason it's not asking you for subsequent characters is that it can fetch the next one from the buffer.
If you run your script and type directly into it, it will continue to prompt you for input until you press CTRL+D (end of file). If you call it like ./program < myInput where myInput is a text file with some data, it will get the EOF when it reaches the end of the input. EOF isn't a character that exists in the stream, but a sentinel value to indicate when the end of the input has been reached.
As an extra warning, I believe getchar() will also return EOF if it encounters an error, so you'll want to check ferror(). Example below (not tested, but you get the idea).
main() {
int c;
do {
c = getchar();
if (c == EOF && ferror()) {
perror("getchar");
}
else {
putchar(c);
}
}
while(c != EOF);
}
Strings, by C definition, are terminated by '\0'. You have no "C strings" in your program.
Your program reads characters (buffered till ENTER) from the standard input (the keyboard) and writes them back to the standard output (the screen). It does this no matter how many characters you type or for how long you do this.
To stop the program you have to indicate that the standard input has no more data (huh?? how can a keyboard have no more data?).
You simply press Ctrl+D (Unix) or Ctrl+Z (Windows) to pretend the file has reached its end.
Ctrl+D (or Ctrl+Z) are not really characters in the C sense of the word.
If you run your program with input redirection, the EOF is the actual end of file, not a make belief one
./a.out < source.c
getchar() reads a single character of input and returns that character as the value of the function. If there is an error reading the character, or if the end of input is reached, getchar() returns a special value, represented by EOF.
According to the definition of getchar(), it reads a character from the standard input. Unfortunately stdin is mistaken for keyboard which might not be the case for getchar. getchar uses a buffer as stdin and reads a single character at a time. In your case since there is no EOF, the getchar and putchar are running multiple times and it looks to you as it the whole string is being printed out at a time. Make a small change and you will understand:
putchar(c);
printf("\n");
c = getchar();
Now look at the output compared to the original code.
Another example that will explain you the concept of getchar and buffered stdin :
void main(){
int c;
printf("Enter character");
c = getchar();
putchar();
c = getchar();
putchar();
}
Enter two characters in the first case. The second time when getchar is running are you entering any character? NO but still putchar works.
This ultimately means there is a buffer and when ever you are typing something and click enter this goes and settles in the buffer. getchar uses this buffer as stdin.
#include <stdio.h>
/* count characters in input; 2nd version */
main()
{
double nc;
for (nc = 0; getchar() != EOF; ++nc)
;
printf("%.0f\n", nc);
}
When I compile and run the program and type in a character (example: abcd), hit enter, then hit the escape character CTRL+Z, it says 5. Is that because of the "hidden" newline character or does it count the EOF command? Because when I type the EOF command alone it stays as 0.
Yes.
getchar waits for you to enter "something"; and Enter is 'something' (that is, it has a defined character value; other keys, Shift for example, may not).
By that same token, the key combo Ctrl+Z would be "something" as well -- the value 26 on most systems -- but the standard input/output library you are using treats this particular code as a special command: EOF. On my OS, Mac OSX, that would be Ctrl+D (for reasons unknown to me, other than "historically, Ctrl+D is used to signal EOF on Unix-like systems").
The 'newline character' is by no means "hidden" or "invisible", it's just another number that gets read and stored into a variable or string if you instruct it to do so. The reason you cannot see it is because putchar and other text printing functions do something else than "display the associated character": it moves the cursor to the next line. That also is part of the standard functionality, and a good thing it is too. After all you wouldn't want to press Space to "move to the next line". (In fact it's such a common function of this code that most fonts don't even bother to have a displayable item for it.)
See also What does getchar() exactly do? for more background information.
I'm reading The C Programming Language and have understood everything so far.
However when I came across the getchar() and putchar(), I failed to understand what is their use, and more specifically, what the following code does.
main()
{
int c;
while ((c = getchar()) != EOF)
putchar(c);
}
I understand the main() function, the declaration of the integer c and the while loop. Yet I'm confused about the condition inside of the while loop. What is the input in this C code, and what is the output.
This code can be written more clearly as:
main()
{
int c;
while (1) {
c = getchar(); // Get one character from the input
if (c == EOF) { break; } // Exit the loop if we receive EOF ("end of file")
putchar(c); // Put the character to the output
}
}
The EOF character is received when there is no more input. The name makes more sense in the case where the input is being read from a real file, rather than user input (which is a special case of a file).
[As an aside, generally the main function should be written as int main(void).]
getchar() is a function that reads a character from standard input. EOF is a special character used in C to state that the END OF FILE has been reached.
Usually you will get an EOF character returning from getchar() when your standard input is other than console (i.e., a file).
If you run your program in unix like this:
$ cat somefile | ./your_program
Then your getchar() will return every single character in somefile and EOF as soon as somefile ends.
If you run your program like this:
$ ./your_program
And send a EOF through the console (by hitting CTRL+D in Unix or CTRL+Z in Windows), then getchar() will also returns EOF and the execution will end.
The code written with current C standards should be
#include <stdio.h>
int main(void)
{
int c;
while ((c = getchar()) != EOF)
putchar(c);
}
The loop could be rewritten as
int c;
while (1) {
c = getchar();
if (c != EOF)
putchar(c);
else
break;
}
this reads as
repeat forever
get the next character ("byte") of input from standard input and store it into c
if no exceptional condition occurred while reading the said character
then output the character stored into c into standard output
else
break the loop
Many programming languages handle exceptional conditions through raising exceptions that break the normal program flow. C does no such thing. Instead, functions that can fail have a return value and any exceptional conditions are signalled by a special return value, which you need to check from the documentation of the given function. In case of getchar, the documentation from the C11 standard says (C11 7.21.7.6p3):
The getchar function returns the next character from the input stream pointed to by stdin. If the stream is at end-of-file, the end-of-file indicator for the stream is set and getchar returns EOF. If a read error occurs, the error indicator for the stream is set and getchar returns EOF.
It is stated elsewhere that EOF is an integer constant that is < 0, and any ordinary return value is >= 0 - the unsigned char zero-extended to an int.
The stream being at end-of-file means that all of the input has been consumed. For standard input it is possible to cause this from keyboard by typing Ctrl+D on Unix/Linux terminals and Ctrl+Z in Windows console windows. Another possibility would be for the program to receive the input from a file or a pipe instead of from keyboard - then end-of-file would be signalled whenever that input were fully consumed, i.e.
cat file | ./myprogram
or
./myprogram < file
As the above fragment says, there are actually two different conditions that can cause getchar to return EOF: either the end-of-file was reached, or an actual error occurred. This cannot be deduced from the return value alone. Instead you must use the functions feof and ferror. feof(stdin) would return a true value if end-of-file was reached on the standard input. ferror(stdin) would return true if an error occurred.
If an actual error occurred, the variable errno defined by <errno.h> would contain the error code; the function perror can be used to automatically display a human readable error message with a prefix. Thus we could expand the example to
#include <stdio.h>
#include <errno.h> // for the definition of errno
#include <stdlib.h> // for exit()
int main(void)
{
int c;
while ((c = getchar()) != EOF)
putchar(c);
if (feof(stdin)) {
printf("end-of-file reached\n");
exit(0);
}
else if (ferror(stdin)) {
printf("An error occurred. errno set to %d\n", errno);
perror("Human readable explanation");
exit(1);
}
else {
printf("This should never happen...\n");
exit('?');
}
}
To trigger the end-of-file, one would use Ctrl+D (here displayed as ^D) on a new line on Linux:
% ./a.out
Hello world
Hello world
^D
end-of-file reached
(notice how the input here is line-buffered, so the input is not interleaved within the line with output).
Likewise, we can get the same effect by using a pipeline.
% echo Hello world | ./a.out
Hello world
end-of-file reached
To trigger an error is a bit more tricky. In bash and zsh shells the standard input can be closed so that it doesn't come from anywhere, by appending <&- to the command line:
% ./a.out <&-
An error occurred. errno set to 9
Human readable explanation: Bad file descriptor
Bad file descriptor, or EBADF means that the standard input - file descriptor number 0 was invalid, as it was not opened at all.
Another fun way to generate an error would be to read the standard input from a directory - this causes errno to be set to EISDIR on Linux:
% ./a.out < /
An error occurred. errno set to 21
Human readable explanation: Is a directory
Actually the return value of putchar should be checked too - it likewise
returns EOF on error, or the character written:
while ((c = getchar()) != EOF) {
if (putchar(c) == EOF) {
perror("putchar failed");
exit(1);
}
}
And now we can test this by redirecting the standard output to /dev/full - however there is a gotcha - since standard output is buffered we need to write enough to cause the buffer to flush right away and not at the end of the program. We get infinite zero bytes from /dev/zero:
% ./a.out < /dev/zero > /dev/full
putchar failed: No space left on device
P.S. it is very important to always use a variable of type int to store the return value of getchar(). Even though it reads a character, using signed/unsigned/plain char is always wrong.
Maybe you got confused by the fact that entering -1 on the command line does not end your program? Because getchar() reads this as two chars, - and 1. In the assignment to c, the character is converted to the ASCII numeric value. This numeric value is stored in some memory location, accessed by c.
Then putchar(c) retrieves this value, looks up the ASCII table and converts back to character, which is printed.
I guess finding the value -1 decimal in the ASCII table is impossible, because the table starts at 0. So getchar() has to account for the different solutions at different platforms. maybe there is a getchar() version for each platform?
I just find it strange that this EOF is not in the regular ascii. It could have been one of the first characters, which are not printable. For instance, End-of-line is in the ASCII.
What happens if you transfer your file from windows to linux? Will the EOF file character be automatically updated?
getchar() function reads a character from the keyboard (ie, stdin)
In the condition inside the given while loop, getchar() is called before each iteration and the received value is assigned to the integer c.
Now, it must be understood that in C, the standard input (stdin) is like a file. ie, the input is buffered. Input will stay in the buffer till it is actually consumed.
stdin is actually the standard input stream.
getchar() returns the the next available value in the input buffer.
The program essentially displays whatever that was read from the keyboard; including white space like \n (newline), space, etc.
ie, the input is the input that the user provides via the keyboard (stdin usually means keyboard).
And the output is whatever we provide as input.
The input that we provide is read character by character & treated as characters even if we give them as numbers.
getchar() will return EOF only if the end of file is reached. The ‘file’ that we are concerned with here is the stdin itself (standard input).
Imagine a file existing where the input that we provide via keyboard is being stored. That’s stdin.
This ‘file’ is like an infinite file. So no EOF.
If we provide more input than that getchar() can handle at a time (before giving it as input by pressing enter), the extra values will still be stored in the input buffer unconsumed.
The getchar() will read the first character from the input, store it in c and printcwithputchar(c)`.
During the next iteration of the while loop, the extra characters given during the previous iteration which are still in stdin are taken during while ((c = getchar()) != EOF) with the c=getchar() part.
Now the same process is repeated till there is nothing left in the input buffer.
This makes it look as if putchar() is returning a string instead of a single character at a time if more than one character is given as input during an iteration.
Eg: if input was
abcdefghijkl
the output would’ve been the same
abcdefghijkl
If you don’t want this behaviour, you can add fflush(stdin); right after the putchar(c);.
This will cause the loop to print only the first character in the input provided during each iteration.
Eg: if input was
adgbad
only a will be printed.
The input is sent to stdin only after you press enter.
putchar() is the opposite of getchar(). It writes the output to the standard output stream (stdout, usually the monitor).
EOF is not a character present in the file. It’s something returned by the function as an error code.
You probably won’t be able to exit from the give while loop normally though. The input buffer will emptied (for displaying to the output) as soon as something comes into it via keyboard and the stdin won't give EOF.
For manually exiting the loop, EOF can be sent using keyboard by pressing
ctrl+D in Linux and
ctrl+Z in Windows
eg:
while ((c = getchar()) != EOF)
{
putchar(c);
fflush(stdin);
}
printf("\nGot past!");
If you press the key combination to give EOF, the message Got past! will be displayed before exiting the program.
If stdin is not already empty, you will have to press this key combination twice. Once to clear this buffer and then to simuate EOF.
EDIT: The extra pair of parenthesis around c = getchar() in while ((c = getchar()) != EOF) is to make sure that the value returned by getchar() is first assigned to c before that value is compared with EOF.
If this extra parenthesis were not there, the expression would effectively have been while (c = (getchar() != EOF) ) which would've meant that c could have either of 2 values: 1 (for true) or 0 (for false) which is obviously not what is intended.
getchar()
gets a character from input.
c = getchar()
The value of this assignment is the value of the left side after the assignment, or the value of the character that's been read. Value of EOF is by default -1.
((c = getchar()) != EOF)
As long as the value stays something other than EOF or, in other words, as long as the condition stays true, the loop will continue to iterate. Once the value becomes EOF the value of the entire condition will be 0 and it will break the loop.
The additional parentheses around c = getchar() are for the compiler, to emphasize that we really wanted to do an assignment inside the condition, because it usually assumes you wanted to type == and warns you.
main() {
int c;
while ((c = getchar()) != EOF)
putchar(c);
}
So the entire code actually echoes back what you input. It assigns the value of the characters to c inside the condition and then outputs it back in the body of the loop, ending only when the end of file is detected.
In a similar manner to the | pipe command above you can use redirection on your system to utilize the above code to display all the character contents of a file, till it reaches the end (EOF) represented by CTRL-Z or CTRL-D usually.
In console:
ProgramName < FileName1.txt
And to create a copy of what is read from FileName1 you can:
ProgramName < FileName1.txt > CopyOfInput.txt
This demonstrates your program in multiple ways to hopefully aid your understanding.
-Hope that helps.
main(){
int c;
while ((c = getchar()) != EOF)
putchar(c);
}
Actually c=getchar() provides the character which user enters on the console and that value is checked with EOF which represents End Of File . EOF is encountered at last of file. (c = getchar()) != EOF is equivalent to c != EOF . Now i think this is much easier . If you any further query let me know.
I am confused by a program mentioned in K&R that uses getchar(). It gives the same output as the input string:
#include <stdio.h>
main(){
int c;
c = getchar();
while(c != EOF){
putchar(c);
c = getchar();
}
}
Why does it print the whole string? I would expect it to read a character and ask again for the input.
And, are all strings we enter terminated by an EOF?
In the simple setup you are likely using, getchar works with buffered input, so you have to press enter before getchar gets anything to read. Strings are not terminated by EOF; in fact, EOF is not really a character, but a magic value that indicates the end of the file. But EOF is not part of the string read. It's what getchar returns when there is nothing left to read.
There is an underlying buffer/stream that getchar() and friends read from. When you enter text, the text is stored in a buffer somewhere. getchar() can stream through it one character at a time. Each read returns the next character until it reaches the end of the buffer. The reason it's not asking you for subsequent characters is that it can fetch the next one from the buffer.
If you run your script and type directly into it, it will continue to prompt you for input until you press CTRL+D (end of file). If you call it like ./program < myInput where myInput is a text file with some data, it will get the EOF when it reaches the end of the input. EOF isn't a character that exists in the stream, but a sentinel value to indicate when the end of the input has been reached.
As an extra warning, I believe getchar() will also return EOF if it encounters an error, so you'll want to check ferror(). Example below (not tested, but you get the idea).
main() {
int c;
do {
c = getchar();
if (c == EOF && ferror()) {
perror("getchar");
}
else {
putchar(c);
}
}
while(c != EOF);
}
Strings, by C definition, are terminated by '\0'. You have no "C strings" in your program.
Your program reads characters (buffered till ENTER) from the standard input (the keyboard) and writes them back to the standard output (the screen). It does this no matter how many characters you type or for how long you do this.
To stop the program you have to indicate that the standard input has no more data (huh?? how can a keyboard have no more data?).
You simply press Ctrl+D (Unix) or Ctrl+Z (Windows) to pretend the file has reached its end.
Ctrl+D (or Ctrl+Z) are not really characters in the C sense of the word.
If you run your program with input redirection, the EOF is the actual end of file, not a make belief one
./a.out < source.c
getchar() reads a single character of input and returns that character as the value of the function. If there is an error reading the character, or if the end of input is reached, getchar() returns a special value, represented by EOF.
According to the definition of getchar(), it reads a character from the standard input. Unfortunately stdin is mistaken for keyboard which might not be the case for getchar. getchar uses a buffer as stdin and reads a single character at a time. In your case since there is no EOF, the getchar and putchar are running multiple times and it looks to you as it the whole string is being printed out at a time. Make a small change and you will understand:
putchar(c);
printf("\n");
c = getchar();
Now look at the output compared to the original code.
Another example that will explain you the concept of getchar and buffered stdin :
void main(){
int c;
printf("Enter character");
c = getchar();
putchar();
c = getchar();
putchar();
}
Enter two characters in the first case. The second time when getchar is running are you entering any character? NO but still putchar works.
This ultimately means there is a buffer and when ever you are typing something and click enter this goes and settles in the buffer. getchar uses this buffer as stdin.
How do you get to see the last print? In other words what to put in for EOF? I checked the definitions and it says EOF is -1.
And if you enter Ctrl-D you won't see anything.
#include <stdio.h>
int main() {
int c;
while((c = getchar() != EOF)) {
printf("%d\n", c);
}
printf("%d - at EOF\n", c);
}
On Linux systems and OS X, the character to input to cause an EOF is Ctrl-D. For Windows, it's Ctrl-Z.
Depending on the operating system, this character will only work if it's the first character on a line, i.e. the first character after an Enter. Since console input is often line-oriented, the system may also not recognize the EOF character until after you've followed it up with an Enter.
And yes, if that character is recognized as an EOF, then your program will never see the actual character. Instead, a C program will get a -1 from getchar().
You should change your parenthesis to
while((c = getchar()) != EOF)
Because the "=" operator has a lower precedence than the "!=" operator. Then you will get the expected results. Your expression is equal to
while (c = (getchar()!= EOF))
You are getting the two 1's as output, because you are making the comparison "c!=EOF". This will always become one for the character you entered and then the "\n" that follows by hitting return. Except for the last comparison where c really is EOF it will give you a 0.
EDIT about EOF: EOF is typically -1, but this is not guaranteed by the standard. The standard only defines about EOF in section 7.19.1:
EOF which expands to an integer
constant expression, with type int and
a negative value, that is returned by
several functions to indicate
end-of-file, that is, no more input
from a stream;
It is reasonable to assume that EOF equals -1, but when using EOF you should not test against the specific value, but rather use the macro.
The value of EOF is a negative integer to distinguish it from "char" values that are in the range 0 to 255. It is typically -1, but it could be any other negative number ... according to the POSIX specs, so you should not assume it is -1.
The ^D character is what you type at a console stream on UNIX/Linux to tell it to logically end an input stream. But in other contexts (like when you are reading from a file) it is just another data character. Either way, the ^D character (meaning end of input) never makes it to application code.
As #Bastien says, EOF is also returned if getchar() fails. Strictly speaking, you should call ferror or feof to see whether the EOF represents an error or an end of stream. But in most cases your application will do the same thing in either case.
Couple of typos:
while((c = getchar())!= EOF)
in place of:
while((c = getchar() != EOF))
Also getchar() treats a return key as a valid input, so you need to buffer it too.EOF is a marker to indicate end of input. Generally it is an int with all bits set.
#include <stdio.h>
int main()
{
int c;
while((c = getchar())!= EOF)
{
if( getchar() == EOF )
break;
printf(" %d\n", c);
}
printf("%d %u %x- at EOF\n", c , c, c);
}
prints:
49
50
-1 4294967295 ffffffff- at EOF
for input:
1
2
<ctrl-d>
EOF means end of file. It's a sign that the end of a file is reached, and that there will be no data anymore.
Edit:
I stand corrected. In this case it's not an end of file. As mentioned, it is passed when CTRL+d (linux) or CTRL+z (windows) is passed.
nput from a terminal never really "ends" (unless the device is disconnected), but it is useful to enter more than one "file" into a terminal, so a key sequence is reserved to indicate end of input. In UNIX the translation of the keystroke to EOF is performed by the terminal driver, so a program does not need to distinguish terminals from other input files. By default, the driver converts a Control-D character at the start of a line into an end-of-file indicator. To insert an actual Control-D (ASCII 04) character into the input stream, the user precedes it with a "quote" command character (usually Control-V). AmigaDOS is similar but uses Control-\ instead of Control-D.
In Microsoft's DOS and Windows (and in CP/M and many DEC operating systems), reading from the terminal will never produce an EOF. Instead, programs recognize that the source is a terminal (or other "character device") and interpret a given reserved character or sequence as an end-of-file indicator; most commonly this is an ASCII Control-Z, code 26. Some MS-DOS programs, including parts of the Microsoft MS-DOS shell (COMMAND.COM) and operating-system utility programs (such as EDLIN), treat a Control-Z in a text file as marking the end of meaningful data, and/or append a Control-Z to the end when writing a text file. This was done for two reasons:
Backward compatibility with CP/M. The CP/M file system only recorded the lengths of files in multiples of 128-byte "records", so by convention a Control-Z character was used to mark the end of meaningful data if it ended in the middle of a record. The MS-DOS filesystem has always recorded the exact byte-length of files, so this was never necessary on MS-DOS.
It allows programs to use the same code to read input from both a terminal and a text file.
#include <stdio.h>
int main() {
int c;
while((c = getchar()) != EOF) { //precedence of != is greater than =, so use braces
printf("%d\n", c);
}
printf("%d - at EOF\n", c);
}
I think this is right way to check value of EOF.
And I checked the output.
For INPUT: abc and Enter I got OUTPUT: 97 98 99 10. ( the ASCII values)
For INPUT Ctrl-D I got OUTPUT: -1 - at EOF.
So I think -1 is the value for EOF.
Try other inputs instead of Ctrl-D, like Ctrl-Z.
I think it varies from compiler to compiler.
to keep it simple: EOF is an integer type with value -1. Therefore, we must use an integer variable to test EOF.
#include <stdio.h>
int main() {
int c;
while((c = getchar()) != EOF) {
putchar(c);
}
printf("%d at EOF\n", c);
}
modified the above code to give more clarity on EOF, Press Ctrl+d and putchar is used to print the char avoid using printf within while loop.
int c;
while((c = getchar())!= 10)
{
if( getchar() == EOF )
break;
printf(" %d\n", c);
}