Programming in C Input Output 72809 stdin stdout

Programming in C Input / Output 7/28/09

stdin, stdout, stderr • When your C program begins to execute, three input/output devices are opened automatically. • stdin – The “standard input” device, usually your keyboard • stdout – The “standard output” device, usually your monitor • stderr – The “standard error” device, usually your monitor • Some C library I/O functions automatically use these devices 7/28/09

Formatted Console Output • In Java, formatted output is created using System. out. printf( ). • In C formatted output is created using the printf( ) function. • printf( ) outputs text to stdout • The basic function call to printf( ) is of the form printf( format, arg 1, arg 2, … ) where the format is a string containing literals to be printed and conversion specifications 7/28/09

printf( ) conversions Conversions specifications begin with % and end with a conversion character. Between the % and the conversion character MAY be, in order • • A minus sign specifying left-justification The minimum field width A period separating the field width and precision The precision that specifies • Maximum characters for a string • Number of digits after the decimal for a floating point • Minimum number of digits for an integer • An h for “short” or an l (letter ell) for long See K&R section 7. 2 and appendix section B 1. 2 7/28/09

Common printf( ) Conversions • %d -- the int argument is printed as a decimal number • %u -- the int argument is printed as an unsigned number • %s -- prints characters from the string until ‘’ is seen or the number of characters in the (optional) precision have been printed • %f -- the double argument is printed as a floating point number • %x, %X -- the int argument is printed as a hexadecimal number • %c - the int argument is printed as a single character • %p - the pointer argument is printed (implementation dependent) 7/28/09

printf( ) Examples #define NAME “Bob” int an. Int = 5678; double a. Double = 4. 123; /* what is the output from each printf( ) statement? */ printf(“Jim said %sn”, “Hello Bob”); printf(“Jim said Hello %sn”, NAME); printf(“Jim said %sn”, “Hello NAME”); printf (“%8 d is a large numbern”, an. Int); printf (“%-8 d is a large numbern”, an. Int); printf( “The sum of %d and %8. 4 f is %5. 2 fn”, an. Int, a. Double, an. Int + a. Double); 7/28/09

Formatted Output Example • Use field widths to align output in columns int i; for (i = 1 ; i < 5; i++) printf("%2 d %10. 6 f %20. 15 fn", i, sqrt(i)); 12 12345678901234567890 1 1. 00000000000 2 1. 414214 1. 414213562373095 3 1. 732051 1. 732050807568877 4 2. 00000000000 7/28/09

Keyboard Input In C, keyboard input is accomplished using the scanf( ) function. scanf reads user input from stdin Calling scanf( ) is similar to calling printf( ) scanf( format string, arg 1, arg 2, . . . ) The format string has a similar structure to the format string in printf( ). The arguments are the addresses of the variables into which the input is store. Recall that the name of an array is synonymous with the array’s address. See K & R section 7. 4 and Appendix section B 1. 3 for a detailed description of scanf( ) 7/28/09

scanf( ) format string The scanf( ) format string usually contains conversion specifications that tell scanf( ) how to interpret the next input field. An “input field” is a string of non-whitespace characters. The format string usually contains – Blanks or tabs which are ignored – Ordinary characters which are expected to match the next (non-whitespace) character input by the user – Conversion specifications usually consisting • % character indicating the beginning of the conversion • An optional h, l (ell) or L • A conversion character which indicates how the input field is to be interpreted. 7/28/09

Common scanf( ) conversions • %d -- a decimal (integer) number • %u - an unsigned decimal (integer) number • %x -- a hexadecimal number – The matching argument is the address of an int – May be preceded by h to indicate that the argument is the address of a short or by l (ell) to indicate that the argument is the address of a long rather than an int • %s -- a word (a string delimited by white space, not a line) – The matching argument is the address of a char or the name of a char array – The caller must insure the array is large enough to for the input string and the terminating character • %f, %e -- a floating point number with optional sign, optional decimal point, and optional exponent – The matching argument is the address of a float – May be preceded by l (ell) to indicate the argument is of the address of a double rather than a float • %c - a single character – The matching arguments is the address of a char – Does not skip over white-space 7/28/09

scanf( ) examples int age; double gpa; char name[42]; printf(“Input your age: “); scanf( “%d”, &age ); printf(“ input your gpa: “); scanf (“%lf”, &gpa ); printf(“Input your name: “); scanf( “%s”, name ); 7/28/09 /* note & */ /* no “&” */

gets( ) to read a line The gets( ) function is used to read a line of input from stdin until the n character is encountered. Caller must insure that the char array is big enough to hold the input string #include <stdio. h> char my. String[ 101 ]; gets( my. String ); 7/28/09

Unix input redirection • By default, stdin is associated with the user’s keyboard, but Unix allows us to redirect stdin to read data from a file when your program is executed. All scanf( ) statements in your program read from this file instead of the user’s keyboard, otherwise your program is unaffected. • Redirecting input from a file is useful for debugging -- you don’t have to continually retype your input. • Suppose your program’s name is Project 1 and you wish to get your input from a file named data 1. To redirect stdin to read from data 1, use the command Project 1 < data 1 at the Unix prompt 7/28/09

Unix output redirection • By default, stdout is associated with the user’s console, but Unix allows us to redirect stdout to output text to a file when your program is executed. All printf( ) statements in your program output to this file instead of the user’s console, otherwise your program is unaffected. • Suppose your program’s name is Project 1 and you wish to write your output to a file named logfile 1. To redirect stdout to write to logfile 1, use the command Project 1 > logfile at the Unix prompt • Can you redirect both input and output? 7/28/09

Text File I/O • Reading and writing from/to a text file is similar to getting input from stdin (with scanf) and writing to stdout (with printf). • Reading data from a text file is accomplished with the function fscanf( ). This function works the same as scanf( ), but requires an additional parameter which is a “handle” to the file. • Reading a line from a text file is accomplished using the fgets( ) function. This function is similar to gets( ) but requires a “handle” to a file and a max character count. • Similarly, writing to a text file is accomplished with the function fprintf() which works the same as printf( ), but also requires a “handle” to the file to be read. • In fact, printf( ) and scanf( ) are just specialized versions of fprintf( ) and fscanf( ) respectively. 7/28/09

Opening and Closing To read or write from a text file using fscanf( ), fegets( ) or fprintf( ), the file must first be opened using fopen( ). The file should be closed using fclose( ) when all I/O is complete. fopen( ) returns a handle to the file as the type FILE* (a pointer to a FILE struct) which is then used as the argument to fscanf(), fgets( ), fprintf( ) and fclose( ). The return value from fopen( ) should be checked to insure that the file was in fact opened. 7/28/09

fopen( ) • fopen( ) requires two parameters – The name of the text file to be opened – The text file open “mode” • “r” - open the file for reading only • “w” - create the file for writing; if the file exists, discard the its contents • “a” - append; open or create the file for writing at the end • “r+” - open the file for reading and writing • “w+” - create the file for reading and writing; if the file exists, discard its contents • “a+” - open or create the file for reading or writing at the end • See K & R appendix B 1. 1 1/22/10

Using fopen( ) • Open the file named “bob. txt ” for reading “ FILE * my. File = fopen( “bob. txt”, “r”); • If fopen( ) fails, the special value NULL is returned. All calls to fopen should be checked FILE *my. FIle = fopen (“bob. txt”, “r”) If (my. File == NULL) { /* handle the error */ } 1/22/10

fscanf. c #include <stdio. h> #include <stdlib. h> int main ( ) { double x ; FILE *ifp ; /* exit */ /* try to open the file for reading, check if successful */ /* if it wasn't opened exit gracefully */ ifp = fopen("test_data. dat", "r") ; if (ifp == NULL) { printf ("Error opening test_data. datn"); exit (-1); } fscanf(ifp, "%lf", &x) ; /* read one double from the file */ fclose(ifp); /* close the file when finished */ /* check to see what you read */ printf("x = %. 2 fn", x) ; return 0; } 7/28/09

fgets( ) #include <stdio. h> #include <stdlib. h> /* exit */ int main ( ) { double x ; FILE *ifp ; char my. Line[42 + 1 ]; /* + 1 for terminating */ ifp = fopen("test_data. dat", "r") ; fgets(my. Line, 42, ifp ); /* read up to 42 chars*/ fclose(ifp); /* close the file when finished */ /* check to see what you read */ printf(”my. Line = %sn”, my. Line); return 0; } 7/28/09

Detecting end-of-file with fscanf • When reading an unknown number of data elements from a file using fscanf( ), we need a way to determine when the file has no more data to read, i. e, we have reached the “end of file”. • Fortunately, the return value from fscanf( ) holds the key. fscanf( ) returns an integer which is the number of data elements read from the file. If end-of-file is detected the integer return value is the special value EOF 7/28/09

EOF example code /* code snippet that reads an undetermined number of integer student ages from a file and prints them out as an example of detecting EOF*/ FILE *in. File; in. File = fopen( “myfile”, “r” ); /* check that the file was opened */ int age; while ( fscanf(infile, “%d”, &age ) != EOF ) printf( “%dn”, age ); fclose( in. File ); 7/28/09

Detecting EOF with fgets( ) • fgets( ) returns the memory address in which the line was stored (the char array provided). However, when fgets( ) encounters EOF, the special value NULL is returned. FILE *in. File; in. File = fopen( “myfile”, “r” ); /* check that the file was opened */ char string[120 + 1]; while ( fgets(string, 120, in. File ) != NULL ) printf( “%sn”, string ); fclose( in. File ); 7/28/09

fprintf. c /* fprintf. c */ #include <stdio. h> #include <stdlib. h> /* exit */ int main ( ) { double pi = 3. 14159 ; FILE *ofp ; /* try to open the file for writing, check if successful */ /* if it wasn't exit gracefully */ ofp = fopen("test. out", “w") ; if (ofp == NULL) { printf ("Error opening test. outn"); exit (-1); } /* write to the file using printf formats */ fprintf(ofp, “Hello Worldn”); fprintf(ofp, “PI is defined as %6. 5 lfn”, pi); fclose(ofp); return 0; } 7/28/09 /* close the file when finished reading */

fprintf vs printf fscanf vs scanf • Function prototypes are identical except that fprintf and fscanf require FILE* parameter • Format strings identical • fscanf, fprintf are more general • printf can be written using fprintf – fprintf( stdout, . . ) • Similarly, scanf can be written using fscanf – fscanf( stdin, . . ) 7/28/09