for(i=1;i=-1;i++)
if(i<5) break;
printf("%d\n",i);
i was asked to write the output of the following code, i could not understand as the second argument should have been a condition, but here it was an assignment,
output: -1
i cant understand how it is possible, so i tried to experiment with the code
int i=1;
while(i=-1)
{
printf("condition is true\n");
if(i<5) break;
}
printf("%d\n",i);
the output of the following code is
output: condition is true
-1
can anyone explain how the above two codes work
and how is while(i=-1) evaluated to TRUE??
The condition is always true. Because the value of an assignment statement is the value assigned. So -1 is non-zero and non-zero value is considered as true in c so it is always true.
The correct usage would be == which compares the value and returns 1 or 0 based on the equality or non-equality.
So here when you did i = -1 and put in the while loop condition - it boils down to
while( -1 ){
...
/* break here */
}
And as -1 is considered as true in c because of it being nonzero - the loop condition evaluates to true.
The break statement here is given here so that this loop doesn't turn to be an infinite loop.
The syntax of a for loop in C is
for(expr1, expr2; expr3)
/* body of loop */
Now, conventionally, expr1 is the loop initialization, and expr2 is the condition under which to keep going, and expr3 is the increment between loops. But that's only a convention -- in actuality, the compiler just arranges to execute expr1 once, then expr2 to decide whether to take another trip through the loop or not, then expr3 at the bottom of the loop. So it's more or less equivalent to
expr1;
while(expr2) {
/* body of loop */
expr3;
}
Or, stated another way:
expr1;
while(1) {
if(!expr2) break;
/* body of loop */
expr3;
}
But then the other key point is that, yes, the expression
i = -1
doesn't look much like a condition; it looks like an assignment. But in C, when you use an expression as a condition (that is, in a context where what we care about is whether the expression is "false" or "true", all we really care about is whether the expression evaluates to zero or to non-zero. And the value of an assignment expression is simply the value that was assigned. So the value of
i = -1
is -1, and that's not zero, so it's interpreted as "true". So if you say
while(i = -1) {
/* body of loop */
}
the condition is always "true", so it will be an infinite loop, unless there's a break statement in the body somewhere (or a return, or a call to exit(), or something like that).
First for loop one does nothing and will be removed from the generated code if the optimisation is on
Second one enters the loop one time. The actual loop will be removed by the optimising compiler and replaced by the puts, initialisation and printf call.
https://godbolt.org/g/T5wgqt
printf with the format string only is replaced by the puts
Related
So I've seen this used before some of my profs code aswel as in some of my friends who have more experience with programming.
int number = 0;
while(number) {
a bunch of code
}
My understanding is that this while loop is essentially running with no condition, i feel like it should be
while(number = 0) {
Isnt this essentially creating an infinite loop? but in the cases I've seen it used it can break out of the loop somehow.
edit:
do while that uses the argument in question. Note that the 2 functions being called in the switch case will call searchpatientdata again once they have completed.
This code is not currently wokring, but was working in a previous build and this function was the same. They also do not change the selection variable either.
The condition in a while loop can be any expression of scalar (numeric or pointer) type. The condition is treated as false if the result of evaluating the expression is equal to zero, true if it's non-zero. (For a pointer expression, a null pointer is equal to zero).
So while (number) means while (number != 0).
As a matter of style, I prefer to use an explicit comparison unless the variable is logically a Boolean condition (either something of type bool or _Bool, or something of some integer type whose only meaning values are true and false) -- but not everyone shares my opinion, and while (foo) is a very common way to write while (foo != 0).
The same applies to the condition in an if, a do-while, or a for statement.
Note that in your example:
int number = 0;
while(number) {
// a bunch of code
}
the body of the loop will never execute, because number is equal to zero when the loop is entered. More realistically, you might have:
int number = some_value;
while (number) {
// a bunch of code *that can change the value of number*
}
Any place in C where a Boolean value is required, any number will be evaluated like this:
zero → false
not zero → true
From C reference
Executes a statement repeatedly, until the value of expression becomes equal to zero. The test takes place before each iteration.
How it works?
entry control loop
condition is checked before loop execution
never execute loop
if condition is false there is no semicolon at the end of while
statement
Come to point as per OP's question yes
While (Variable_name) evaluated as True
In below Example While loop executes until condition is true
Example:
#include <stdio.h>
#include <stdbool.h>
int main(void)
{
int num=1;
while(true)
{
if(num==5)
{
break;
}
printf("%d\n",num);
num++;
}
return 0;
}
I am beginner in C and I was experimenting with for loop and I came across a infinite loop which should not be a infinite loop, can anyone help me understand why it is a infinite loop
void main()
{
int i;
for(i=1,printf("Initialization");i++ <=5,printf("\nCondition");printf("%d",i))
printf("\nInside the loop :");
}
while this is not a infinite loop
void main()
{
int i;
for(i=1,printf("Intialization");printf("\nCondition"),i++<= 5;printf("%d",i))
printf("\nInside the loop\n");
}
The reason is that your loop conditions (between two semicolons) look like this:
i++ <=5, printf("\nCondition") // First loop
printf("\nCondition"), i++<= 5 // Second loop
Both conditions are comma expressions, meaning that only the last part matters in terms of generating the value (both parts are good for their side effects, though).
In the first case, the overall condition result is what printf("\nCondition") returns. It always returns non-zero*, interpreted as "true", so the loop is infinite.
In the second case, the overall result is what i++<=5 returns, which starts off as "true", and becomes "false" after five iterations. That is when the second loop terminates.
* Specifically, printf returns the number of characters printed, so in your case that would be 10. This is not essential to understanding why the loop is infinite, though.
you have 2 conditions remember that printf returns number of characters printed and that is always non zero hence results in infinite loop
Simple comma operator realizes all side effects in operands, discards result of it's first operand, and then evaluates it's second one. So, in first snippet, althought i++ will be realized, condition <= result will be discarted, so effective condition in for will be result of printf("\nCondition"), that's 10=true. In second snippet first operand result printf(...) = 10 will be discard, and will be used as pure condition just i<=5.
Here some doc :
https://en.wikipedia.org/wiki/Comma_operator,
https://uvesway.wordpress.com/2012/11/02/c-loops-for-and-the-comma-operator/
If we write more than one condition in for loop condition portion compiler will check all conditions but it will consider the right most condition to check whether the condition is TRUE/FALSE.
In your first program you write two conditions one is i++<5,printf("\ncondition").
printf always return number of printable characters in that function.so every time printf returning 9 in your program for that only condition never become false.
But in your second program you write i++<5 is right most condition for that when ever i value becomes 5 condition becomes false so control will come out side of the loop.
If you want to check whether printf returning number of printable characters then try this.
enter code here
unsigned int a=printf("HAI");
in this case printf will return 3 to the integer variable a
How this for loop is working
int main(){
char i=0;
for(i<=5 && i>=-1; ++i ;i>0)
printf("%d \n",i);
printf("\n");
return 0;
}
Ahh thanks for the clarification.
Your asking why the for loop in your example is executing, even though the increment operand and loop condition have been swapped, and the fact that the variable is a char. Lets consider the proper structure of a for loop:
for (initialise variable; for condition; increment variable)
{
//Do stuff
}
The answer to your question is simple:
Your condition increases i by 1, but as you have pointed out, i is a char. Using operands on a char can convert it to another type, including int (refer C comparison char and int)
A loop will continue until its condition == false.
Your loop will continue running until i=0, which means it will continue to increase by 1 until it reaches 128, at which point it will overflow to -128 and continue to increase until it reaches 0 again.
Lets name parts of the for loop:
for( Expr1; Expr2; Expr3 )
DoStuff;
This is how a for loop works:
1. It executes Expr1 first. in your loop does nothing in fact, since it doesn't check the result of this execution.
Then it executes Expr2 and treat it's result as a condition if it's 0 terminates the loop, if it's "not 0" go to step 3. In your loop this means that i will be incremented, thus it's now 1, so result is true.
Then it runs the DoStuff part, in your case print out i value
Next it executes Expr3, no check, just run it, in your case does nothing again, since it's a condition and its result isn't used.
Next it goes back to Expr2 executes it and check it's result. now i is 2, still a true condition.
Again execute the DoStuff part and go to step 4
The loop will stop once i value changes back to 0.
When? since it's type is char, after reaching 127 it will overflow to -128 and then increment back to -1 and then 0. and stop.
Whenever you want to understand for loop in this kind of situation you can convert for loop into while to understand it.
The for syntax is:
for (initialization; condition; operation)
...
It can be converted into while as:
initialization;
while (condition) {
...
operation;
}
So in your case
i <= 5 && i >= -1; // Initialization
while(++i) { //condition
printf("%d \n", i);
i > 0; // operation
}
Initialization part will be execute once it will check for condition.Here in your case it is ++i so increment every time.Here i>0 means if i==0 then loop will stop it does not matter i is positive or negative Thumb rule to remember in this kind of situation is if (i == 0 ) then true else false. i>0 remains true)in every case after that so loop is infinite.
To understand for loop best answer I have seen in SO is this
There's not rule about the order of for loop condition and increment operation, the latter even don't need to be an increment operation. What it's expected to do is determined by you. The code is just same as the following semantically.
char i = 0;
i <= 5 && i >= -1; // Run before the loop and only once. No real effect here.
while (++i) { // Condition used to determine the loop should continue or break
printf("%d \n", i);
i > 0; // Run every time inside the loop. No real effect here.
}
BTW: It'll be an infinite loop (because ++i is a nonzero value until overflow).
can anyone explain the working of the for loop in the following code:
#include<stdio.h>
#include<conio.h>
int main()
{
char i=0;
for(i<=5&&i>=-1;++i;i>0)
printf("%d\n",i);
getch();
}
Let's break the for statement down, we have three phases, the initialiser, the test, and the modifier:
for(<Initialiser>; <Test>; <Modifier>)
<content>;
In your case:
for(i<=5&&i>=-1;++i;i>0)
// initialiser: i<=5&&i>=-1;
// test: ++i;
// modifier: i>0
The initialiser is done first. Here no assignment is done. Two boolean expressions (denoted by the >= and <= operators are compared in a logical &&. The whole initialiser returns a boolean value but it doesn't do anything. It could be left as a blank ; and there would be no change.
The test uses the pre-increment operator and so returns the result of i+1. If this result is ever 0 it evaluates as false and the loop will terminate. For any non-zero value it evaluates to true and continues. This is often used when i is initialised to a value less than zero and so the test will increment i until i+1 results in a zero, at which point the loop terminates.
Finally we have the modifier, which in this case simply uses the > operator to evaluate to a boolean value. No assignment is done here either.
The fact is that you've gotten the test and the modifier confused and put them in the wrong positions but before we sort that out let's see how it would work…
We begin with:
char i = 0;
…and for all intents and purposes this does the same thing as our for loops initialiser would do in normal circumstances. The next thing to be evaluated is the for loop's initialiser:
i<=5 && i>=-1;
Because i is 0 it is less-than-or-equal-to 5 and it is greater-than-or-equal-to -1. This expression evaluates to 1 but nothing is done with that value. All we've done is waste a bit of time with an evaluation.
Next up is the modifier to test whether or not the for loop's inner block should be executed:
++i;
This evaluates to 1 and also assigns that value to i. Now, as it's evaluated to a non-zero number, the loop executes:
printf("%d\n",i);
And the digit 1 is printed to the screen... Now it's the modifier that gets executed:
i>0
Well, i is 1 so that is greater-than 0. This evaluates to 1 (or true). Either way, this is ignored. The purpose of the modifier isn't to test or check anything. It's there so that you can change the state of the program each time the for loop iterates. Either way, the loop repeats and it will do this for a very long time. Why? Because ++i is going to evaluate to a non-zero number for a while. Whether or not it will ever terminate depends on how your system deals with integer overflows.
This is what you meant to do:
#include<stdio.h>
#include<conio.h>
int main()
{
for(char i=0; i<=5&&i>=-1; ++i)
printf("%d\n",i);
}
Do you see the difference? Our initialiser now starts the loop with the state of i as zero. We then test if it's within the bounds of -1 to 5 and each time we iterate we increment i by 1. This loop will output:
0
1
2
3
4
5
This snippet:
for(i<=5&&i>=-1;++i;i>0)
printf("%d\n",i);
Does the same as this:
i<=5 && i>=-1; //statement with no effect
while(++i)
{
printf("%d\n",i);
i>0; //statement with no effect
}
So, it's going to print i until ++i evaluates to 0. This will happen after i overflows and becomes negative, then incrementing towards 0. That will take 255 iterations to happen, since chars can store up to 256 different values.
for ( variable initialization; condition; variable update ) {
}
the variable initialization phase is done only once when the for loop starts.
the condition is checked everytime before running code inside the loop. if the condition is false then the loop is exited.
the variable update is done after the first iteration, from the second iteration it is done before the condition check.
I am experimenting about what can be put into a for loop declaration in C and how it can be used. I tried the following:
#include <stdio.h>
int stupid(int a)
{
if(a == 3)
return 1;
else
return 3;
}
int main(void)
{
int i, j;
for(i=0; stupid(i)==3,i<10; i++)
printf("%d\n", i);
return 0;
}
When I run the program it just prints the number from 1 to 10, and if I use && instead of comma between the stupid(i)==3 and i<10, then the program just prints the numbers up to 3. Why?
I don't really understand how this works and I was expecting the loop to pass all numbers and "skip" 3, but continue up to 10 and that's not really happening. Why does this happen? Is there some site where this is more clearly explained?
The second clause in the for loop (in your case stupid(i)==3,i<10) is a conditional that is evaluated prior to each entry of the loop body. If it evaluates to true then the loop body is executed. If it evaluates to false then the loop ends and execution continues after the loop body.
With the comma (stupid(i)==3,i<10), the code evaluates stupid(i)==3, forgets the result, and then evaluates i<10, and uses that result for the loop condition. So you get the numbers from 0 to 9.
stupid(i)==3 && i<10 will evaluate to true only if both parts of the expression are true, so when i=3, stupid(i)==3 is false, and the loop exits.
The comma operator evaluates the part before the comma, discards the result, evaluates the part after the comma, and returns that. So in your for loop the part after the comma is i < 10 and this is what is returned as condition for the for loop. That is why it prints the numbers 1 to 10 if you have the comma operator in it.
If you put the && operator in it, it means that both conditions before and after the && have to be met. Otherwise the loop terminates. So if i == 3 the left part evaluates to false and your loop ends.
The comma operator evaluates both, but then overall returns the value of its second operand. Since stupid() doesn't have any side effects, that means nothing much of use really happens here and you're overall just checking to see if i<10.
When you change it to && then both functions must return true (non-zero) for the iteration to continue. On the first pass through, on which the statement evaluates to false, the for loop halts and control continues past it.
The for loop will only continue if the conditions are met. If you place an if statement within the for loop to verify that stupid(i) is equal to three, the for loop will continue.
Using the , operator expands to each line being run. The last line is expected to return a Boolean expression that indicates whether the next iteration should be executed.
In this case, while stupid() does get called, it only checks the return value from the expression i < 10 to decide further execution.
In the for loop, there are three expressions needed, and they are separated by semicolons.
The first is an initializer, and it is run one time before the loop starts. It usually initializes the loop variables.
The second is a condition, and it is run right after the initializer and then before each subsequent iteration. If it is true, the loop statements are run. If it is false, the loop is over.
The third is an expression that is run right after each iteration and right before the condition is checked before the next iteration. It usually progresses the loop by changing the loop variable.
Your condition stupid(i)==3,i<10 uses the comma operator. The comma operator runs each side, but it returns only the value of the right hand side. The value of stupid(i)==3 is completely ignored. The condition stupid(i)==3 && i<10 is true only if both sides are true.
Remember, when the condition is false, the loop is over -- the iteration is not just skipped, the entire loop is over. To get what you want, use
for(i=0; i < 10; ++i) {
if (stupid(i)==3) {
printf("%d\n",i);
}
}
This will go through 0-9, but skip the code if stupid(i) is not 3.
Use:
int main(void)
{
int i,j;
for(i=0; i<10; i++, i+=i == 3)
printf("%d\n", i);
return 0;
}
The limit condition on can only terminate the loop when the condition comes true, not skip iterations. If you want to skip some value, you have to do it at the counting part of for(), or do this with if().
i+=i==3 adds 1 to i when i becomes 3, as i==3 evaluates to 1 if the condition is met and to 0 otherwise (and adding 0 simply does not make any difference).