Can anyone tell me why this code crashes? It's simple, if the length of the string is > than 16, ask again for a string. It works if I write control = 1 inside the if statement, but it should work the same without it, 'cause the value of control at that point is 1, am I right?
thans (I'm learning)
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
int
main(void)
{
int control = 1;
char word[16] ;
printf("Enter a word: ");
while(control == 1)
{
scanf("%s", word);
int len = strlen(word);
printf("Lenght is: %d\n", len);
if (len >= 16)
{
printf("Word lenght to long, enter a new one: ");
}
else
{
control = 0;
}
}
printf("This is the word: %s\n", word );
}
char word[16] allocates 16 bytes of store for a string.
scanf() then reads a string into that store.
If you read in more than the amount of allocated store, memory is corrupted after the end of the store.
That's why you crash.
The problem is that if the user types more than the 15 characters which you have allocated space for, then the computer will merrily write all of them in memory past the end of your array. This will result in "undefined behavior" including crashing your program.
As others have noted, your fundamental problem is that you're allocating 16 characters for the string, and scanf will happily allow you to write past those 16 characters into memory that doesn't belong to you.
Be aware that C will allow you to do this with arrays generally, and understand how standard C strings work: you need to null-terminate them, meaning that you'll always need an extra space in the array for a null-terminating character \0.
There is a way to limit scanf with respect to C strings, using a field width specifier with %s, like so:
char input[17]; // room for 16 characters plus null-terminator
// here scanf will stop after reading 16 characters:
scanf("%16s", input);
With this code, you can safely use scanf to fill your string with no more than 16 characters, and scanf will null-terminate the string for you.
But as others have also noted, scanf is pretty poor at handling user input. It's usually better to use fgets and manage the input string on your own, piece-by-piece.
Related
For an instance if I store ABCDE from scanf function, the later printf function gives me ABCDE as output. So what is the point of assigning the size of the string(Here 4).
#include <stdio.h>
int main() {
int c[4];
printf("Enter your name:");
scanf("%s",c);
printf("Your Name is:%s",c);
return 0;
}
I'll start with, don't use int array to store strings!
int c[4] allocates an array of 4 integers. An int is typically 4 bytes, so usually this would be 16 bytes (but might be 8 or 32 or something else on some platforms).
Then, you use this allocation first to read characters with scanf. If you enter ABCDE, it uses up 6 characters (there is an extra 0 byte at the end of the string marking the end, which needs space too), which happens to fit into the memory reserved for array of 4 integers. Now you could be really unlucky and have a platform where int has a so called "trap representation", which would cause your program to crash. But, if you are not writing the code for some very exotic device, there won't be. Now it just so happens, that this code is going to work, for the same reason memcpy is going to work: char type is special in C, and allows copying bytes to and from different types.
Same special treatment happens, when you print the int[4] array with printf using %s format. It works, because char is special.
This also demonstrates how very unsafe scanf and printf are. They happily accept c you give them, and assume it is a char array with valid size and data.
But, don't do this. If you want to store a string, use char array. Correct code for this would be:
#include <stdio.h>
int main() {
char c[16]; // fits 15 characters plus terminating 0
printf("Enter your name:");
int items = scanf("%15s",c); // note: added maximum characters
// scanf returns number of items read successfully, *always* check that!
if (items != 1) {
return 1; // exit with error, maybe add printing error message
}
printf("Your Name is: %s\n",c); // note added newline, just as an example
return 0;
}
The size of an array must be defined while declaring a C String variable because it is used to calculate how many characters are going to be stored inside the string variable and thus how much memory will be reserved for your string. If you exceed that amount the result is undefined behavior.
You have used int c , not char c . In C, a char is only 1 byte long, while a int is 4 bytes. That's why you didn't face any issues.
(Simplifying a fair amount)
When you initialize that array of length 4, C goes and finds a free spot in memory that has enough consecutive space to store 4 integers. But if you try to set c[4] to something, C will write that thing in the memory just after your array. Who knows what’s there? That might not be free, so you might be overwriting something important (generally bad). Also, if you do some stuff, and then come back, something else might’ve used that memory slot (properly) and overwritten your data, replacing it with bizarre, unrelated, and useless (to you) data.
In C language the last of the string is '\0'.
If you print with the below function, you can see the last character of the string.
scanf("%s", c); add the last character, '\0'.
So, if you use another function, getc, getch .., you should consider adding the laster character by yourself.
#include<stdio.h>
#include<string.h>
int main(){
char c[4+1]; // You should add +1 for the '\0' character.
char *p;
int len;
printf("Enter your name:");
scanf("%s", c);
len = strlen(c);
printf("Your Name is:%s (%d)\n", c, len);
p = c;
do {
printf("%x\n", *(p++));
} while((len--)+1);
return 0;
}
Enter your name:1234
Your Name is:1234 (4)
31
32
33
34
0 --> last character added by scanf("%s);
ffffffae --> garbage
I'm new to C and I'm trying to write a program that prints the ASCII value for every letter in a name that the user enters. I attempted to store the letters in an array and try to print each ASCII value and letter of the name separately but, for some reason, it only prints the value of the first letter.
For example, if I write "Anna" it just prints 65 and not the values for the other letters in the name. I think it has something to do with my sizeof(name)/sizeof(char) part of the for loop, because when I print it separately, it only prints out 1.
I can't figure out how to fix it:
#include <stdio.h>
int main(){
int e;
char name[] = "";
printf("Enter a name : \n");
scanf("%c",&name);
for(int i = 0; i < (sizeof(name)/sizeof(char)); i++){
e = name[i];
printf("The ASCII value of the letter %c is : %d \n",name[i],e);
}
int n = (sizeof(name)/sizeof(char));
printf("%d", n);
}
Here's a corrected, annotated version:
#include <stdio.h>
#include <string.h>
int main() {
int e;
char name[100] = ""; // Allow for up to 100 characters
printf("Enter a name : \n");
// scanf("%c", &name); // %c reads a single character
scanf("%99s", name); // Use %s to read a string! %99s to limit input size!
// for (int i = 0; i < (sizeof(name) / sizeof(char)); i++) { // sizeof(name) / sizeof(char) is a fixed value!
size_t len = strlen(name); // Use this library function to get string length
for (size_t i = 0; i < len; i++) { // Saves calculating each time!
e = name[i];
printf("The ASCII value of the letter %c is : %d \n", name[i], e);
}
printf("\n Name length = %zu\n", strlen(name)); // Given length!
int n = (sizeof(name) / sizeof(char)); // As noted above, this will be ...
printf("%d", n); // ... a fixed value (100, as it stands).
return 0; // ALWAYS return an integer from main!
}
But also read the comments given in your question!
This is a rather long answer, feel free to skip to the end for the code example.
First of all, by initialising a char array with unspecified length, you are making that array have length 1 (it only contains the empty string). The key issue here is that arrays in C are fixed size, so name will not grow larger.
Second, the format specifier %c causes scanf to only ever read one byte. This means that even if you had made a larger array, you would only be reading one byte to it anyway.
The parameter you're giving to scanf is erroneous, but accidentally works - you're passing a pointer to an array when it expects a pointer to char. It works because the pointer to the array points at the first element of the array. Luckily this is an easy fix, an array of a type can be passed to a function expecting a pointer to that type - it is said to "decay" to a pointer. So you could just pass name instead.
As a result of these two actions, you now have a situation where name is of length 1, and you have read exactly one byte into it. The next issue is sizeof(name)/sizeof(char) - this will always equal 1 in your program. sizeof char is defined to always equal 1, so using it as a divisor causes no effect, and we already know sizeof name is equal to 1. This means your for loop will only ever read one byte from the array. For the exact same reason n is equal to 1. This is not erroneous per se, it's just probably not what you expected.
The solution to this can be done in a couple of ways, but I'll show one. First of all, you don't want to initialize name as you do, because it always creates an array of size 1. Instead you want to manually specify a larger size for the array, for instance 100 bytes (of which the last one will be dedicated to the terminating null byte).
char name[100];
/* You might want to zero out the array too by eg. using memset. It's not
necessary in this case, but arrays are allowed to contain anything unless
and until you replace their contents.
Parameters are target, byte to fill it with, and amount of bytes to fill */
memset(name, 0, sizeof(name));
Second, you don't necessarily want to use scanf at all if you're reading just a byte string from standard input instead of a more complex formatted string. You could eg. use fgets to read an entire line from standard input, though that also includes the newline character, which we'll have to strip.
/* The parameters are target to write to, bytes to write, and file to read from.
fgets writes a null terminator automatically after the string, so we will
read at most sizeof(name) - 1 bytes.
*/
fgets(name, sizeof(name), stdin);
Now you've read the name to memory. But the size of name the array hasn't changed, so if you used the rest of the code as is you would get a lot of messages saying The ASCII value of the letter is : 0. To get the meaningful length of the string, we'll use strlen.
NOTE: strlen is generally unsafe to use on arbitrary strings that might not be properly null-terminated as it will keep reading until it finds a zero byte, but we only get a portable bounds-checked version strnlen_s in C11. In this case we also know that the string is null-terminated, because fgets deals with that.
/* size_t is a large, unsigned integer type big enough to contain the
theoretical maximum size of an object, so size functions often return
size_t.
strlen counts the amount of bytes before the first null (0) byte */
size_t n = strlen(name);
Now that we have the length of the string, we can check if the last byte is the newline character, and remove it if so.
/* Assuming every line ends with a newline, we can simply zero out the last
byte if it's '\n' */
if (name[n - 1] == '\n') {
name[n - 1] = '\0';
/* The string is now 1 byte shorter, because we removed the newline.
We don't need to calculate strlen again, we can just do it manually. */
--n;
}
The loop looks quite similar, as it was mostly fine to begin with. Mostly, we want to avoid issues that can arise from comparing a signed int and an unsigned size_t, so we'll also make i be type size_t.
for (size_t i = 0; i < n; i++) {
int e = name[i];
printf("The ASCII value of the letter %c is : %d \n", name[i], e);
}
Putting it all together, we get
#include <stdio.h>
#include <string.h>
int main() {
char name[100];
memset(name, 0, sizeof(name));
printf("Enter a name : \n");
fgets(name, sizeof(name), stdin);
size_t n = strlen(name);
if (n > 0 && name[n - 1] == '\n') {
name[n - 1] = '\0';
--n;
}
for (size_t i = 0; i < n; i++){
int e = name[i];
printf("The ASCII value of the letter %c is : %d \n", name[i], e);
}
/* To correctly print a size_t, use %zu */
printf("%zu\n", n);
/* In C99 main implicitly returns 0 if you don't add a return value
yourself, but it's a good habit to remember to return from functions. */
return 0;
}
Which should work pretty much as expected.
Additional notes:
This code should be valid C99, but I believe it's not valid C89. If you need to write to the older standard, there are several things you need to do differently. Fortunately, your compiler should warn you about those issues if you tell it which standard you want to use. C99 is probably the default these days, but older code still exists.
It's a bit inflexible to be reading strings into fixed-size buffers like this, so in a real situation you might want to have a way of dynamically increasing the size of the buffer as necessary. This will probably require you to use C's manual memory management functionality like malloc and realloc, which aren't particularly difficult but take greater care to avoid issues like memory leaks.
It's not guaranteed the strings you're reading are in any specific encoding, and C strings aren't really ideal for handling text that isn't encoded in a single-byte encoding. There is support for "wide character strings" but probably more often you'll be handling char strings containing UTF-8 where a single codepoint might be multiple bytes, and might not even represent an individual letter as such. In a more general-purpose program, you should keep this in mind.
If we need write a code to get ASCII values of all elements in a string, then we need to use "%d" instead of "%c". By doing this %d takes the corresponding ascii value of the following character.
If we need to only print the ascii value of each character in the string. Then this code will work:
#include <stdio.h>
char str[100];
int x;
int main(){
scanf("%s",str);
for(x=0;str[x]!='\0';x++){
printf("%d\n",str[x]);
}
}
To store all corresponding ASCII value of character in a new variable, we need to declare an integer variable and assign it to character. By this way the integer variable stores ascii value of character. The code is:
#include <stdio.h>
char str[100];
int x,ascii;
int main(){
scanf("%s",str);
for(x=0;str[x]!='\0';x++){
ascii=str[x];
printf("%d\n",ascii);
}
}
I hope this answer helped you.....😊
I am trying to understand string's behavior in C and it is bothering me since my following two code snippets result into different output:
(For the sake of this question, Let us assume user enters 12)
int main(void)
{
char L_Red[2];
char temp[] = "I";
printf("Enter pin connected to red: ");
scanf("%s", L_Red);
strcat(temp,L_Red);
printf("%s \n", temp);
return 0;
}
this yields: 12 as output (and not I12) Why ?
int main(void)
{
char L_Red[2];
printf("Enter pin connected to red: ");
scanf("%s", L_Red);
char temp[] = "I";
strcat(temp,L_Red);
printf("%s \n", temp);
return 0;
}
This yields: I12I (and not, I12) Why ?
I have read about string in C and as per my understanding, neither am I allocating temp any fixed size and changing it later to get these vague outputs nor am I using strings like the way they are not supposed to. Is there any other concept at play here ?
The array temp is an array of two characters (the 'I' and the string terminator '\0'). That's it. Attempting to append more characters to that array will write out of bounds and lead to undefined behavior.
You need to make sure that the destination array temp have enough space to fit its original content plus the string you want to append (plus the terminator).
Also, if you want to input more than one character for the "string" L_Red you need to increase its size as well.
I also recommend you use a limit in the format specifier so you can't write out of bounds:
char L_Red[3]; // Space for two characters, plus terminator
scanf("%2s", L_Red); // Read at most two characters of input
You are getting strange answers because your destination string (ie the first argument to strcat) is not long enough to handle both strings plus a null termination character. Also the length of L_Red is too short as it does not have enough space for the null termination character either.
This is my target:
input: string with mixed ASCII characters (uppercase, lowercase, numbers, spaces)
output: string with only uppercase characters
I have this:
#include <stdio.h>
void csere(char s[]){
int i;
for(i=0; s[i]!='\0'; i++){
if('a'<=s[i] && s[i]<='z'){
s[i]-=32;
}
printf("%c", s[i]);
}
}
void main(){
char s[1];
scanf("%s", &s);
csere(s);
}
My problem is:
The function stops at the first 'space' character in the string.
I tried to change the s[i] != '\0' in the 'for' part for i <
strlen(s) or just for s[i], but I still get the same result.
Example: qwerty --> QWERTY, but qwe rty --> QWE
(smaller problem: The program only accepts strings with length less than 12, if i change the 1 to 0 in main function.)
Thanks for help. Sorry for bad English.
scanf only scans non-whitespace characters with the %s modifier. If you want to read everything on a string you should use fgets with stdin as the third parameter:
fgets(s, sizeof s, stdin);
If you really need to use scanf for homework or something, you should use something like:
scanf("%128[^\n]", s);
Also, take note you are not allocating enough space for the string, the fact that it has not crashed is just pure coincidence... you should allocate the space on your array:
char s[128]; // change 128 for max string size
Actually, the fgets() usage I wrote earlier would only read 1 character (including the terminator string) since you only put 1 character on the array... change the array size and it should work.
You could also just use toupper() on ctype.h, but I guess this is some kind of homework or practice.
Furthermore, if you are allowed to use pointers, this would be a shorter (and probably more performant although that'd have to be tested... compilers are good these days :-) ) way to convert to uppercase (notice though it changes your original char array, and doesn't print it, although that'd be easy to modify/add, I'll leave it to you):
void strupper(char *sptr) {
while (*sptr) {
if ((*sptr >= 'a' ) && (*sptr <= 'z')) *sptr -= 32;
sptr++;
}
}
From scanf
s
Matches a sequence of bytes that are not white-space characters. The application shall ensure that the corresponding argument is a pointer to the initial byte of an array of char, signed char, or unsigned char large enough to accept the sequence and a terminating null character code, which shall be added automatically.
This means, with %s, scanf reads a string until it encounters the first white space character. Therefore, your function converts the given string only to the first space.
To the second (smaller) problem, the array s must be large enough for the entire string given. Otherwise, you overwrite the stack space and get undefined behaviour. If you expect larger strings, you must increase the size of s, e.g.
char s[100];
I am currently learning C, and so I wanted to make a program that asks the user to input a string and to output the number of characters that were entered, the code compiles fine, when I enter just 1 character it does fine, but when I enter 2 or more characters, no matter what number of character I enter, it will always say there is just one character and crashes after that. This is my code and I can't figure out what is wrong.
int main(void)
{
int siz;
char i[] = "";
printf("Enter a string.\n");
scanf("%s", i);
siz = sizeof(i)/sizeof(char);
printf("%d", siz);
getch();
return 0;
}
I am currently learning to program, so if there is a way to do it using the same scanf() function I will appreciate that since I haven't learned how to use any other function and probably won't understand how it works.
Please, FORGET that scanf exists. The problem you are running into, whilst caused mostly by your understandable inexperience, will continue to BITE you even when you have experience - until you stop.
Here is why:
scanf will read the input, and put the result in the char buffer you provided. However, it will make no check to make sure there is enough space. If it needs more space than you provided, it will overwrite other memory locations - often with disastrous consequences.
A safer method uses fgets - this is a function that does broadly the same thing as scanf, but it will only read in as many characters as you created space for (or: as you say you created space for).
Other observation: sizeof can only evaluate the size known at compile time : the number of bytes taken by a primitive type (int, double, etc) or size of a fixed array (like int i[100];). It cannot be used to determine the size during the program (if the "size" is a thing that changes).
Your program would look like this:
#include <stdio.h>
#include <string.h>
#define BUFLEN 100 // your buffer length
int main(void) // <<< for correctness, include 'void'
{
int siz;
char i[BUFLEN]; // <<< now you have space for a 99 character string plus the '\0'
printf("Enter a string.\n");
fgets(i, BUFLEN, stdin); // read the input, copy the first BUFLEN characters to i
siz = sizeof(i)/sizeof(char); // it turns out that this will give you the answer BUFLEN
// probably not what you wanted. 'sizeof' gives size of array in
// this case, not size of string
// also not
siz = strlen(i) - 1; // strlen is a function that is declared in string.h
// it produces the string length
// subtract 1 if you don't want to count \n
printf("The string length is %d\n", siz); // don't just print the number, say what it is
// and end with a newline: \n
printf("hit <return> to exit program\n"); // tell user what to do next!
getc(stdin);
return 0;
}
I hope this helps.
update you asked the reasonable follow-up question: "how do I know the string was too long".
See this code snippet for inspiration:
#include <stdio.h>
#include <string.h>
#define N 50
int main(void) {
char a[N];
char *b;
printf("enter a string:\n");
b = fgets(a, N, stdin);
if(b == NULL) {
printf("an error occurred reading input!\n"); // can't think how this would happen...
return 0;
}
if (strlen(a) == N-1 && a[N-2] != '\n') { // used all space, didn't get to end of line
printf("string is too long!\n");
}
else {
printf("The string is %s which is %d characters long\n", a, strlen(a)-1); // all went according to plan
}
}
Remember that when you have space for N characters, the last character (at location N-1) must be a '\0' and since fgets includes the '\n' the largest string you can input is really N-2 characters long.
This line:
char i[] = "";
is equivalent to:
char i[1] = {'\0'};
The array i has only one element, the program crashes because of buffer overflow.
I suggest you using fgets() to replace scanf() like this:
#include <stdio.h>
#define MAX_LEN 1024
int main(void)
{
char line[MAX_LEN];
if (fgets(line, sizeof(line), stdin) != NULL)
printf("%zu\n", strlen(line) - 1);
return 0;
}
The length is decremented by 1 because fgets() would store the new line character at the end.
The problem is here:
char i[] = "";
You are essentially creating a char array with a size of 1 due to setting it equal to "";
Instead, use a buffer with a larger size:
char i[128]; /* You can also malloc space if you desire. */
scanf("%s", i);
See the link below to a similar question if you want to include spaces in your input string. There is also some good input there regarding scanf alternatives.
How do you allow spaces to be entered using scanf?
That's because char i[] = ""; is actually an one element array.
Strings in C are stored as the text which ends with \0 (char of value 0). You should use bigger buffer as others said, for example:
char i[100];
scanf("%s", i);
Then, when calculating length of this string you need to search for the \0 char.
int length = 0;
while (i[length] != '\0')
{
length++;
}
After running this code length contains length of the specified input.
You need to allocate space where it will put the input data. In your program, you can allocate space like:
char i[] = " ";
Which will be ok. But, using malloc is better. Check out the man pages.