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Since I started programming Java, I've noticed that everyone was using && and || instead of & and |. What is the reason for this? I've been using && and || all this time because I didn't know you can use & and | on booleans.
class A{static{
boolean t = true;
boolean f = false;
System.out.println("&ff " + (f&&f) + " " + (f&f));
System.out.println("&ft " + (f&&t) + " " + (f&t));
System.out.println("&tf " + (t&&f) + " " + (t&f));
System.out.println("&tt " + (t&&t) + " " + (t&t));
System.out.println("|ff " + (f||f) + " " + (f|f));
System.out.println("|ft " + (f||t) + " " + (f|t));
System.out.println("|tf " + (t||f) + " " + (t|f));
System.out.println("|tt " + (t||t) + " " + (t|t));
}}
As far as I can tell, they are the same:
$ javac A.java && java A
&ff false false
&ft false false
&tf false false
&tt true true
|ff false false
|ft true true
|tf true true
|tt true true
Exception in thread "main" java.lang.NoSuchMethodError: main
Does using || and && improve my code in any way?
As a simple test, I replaced hundreds of occurrences with the short form, and all of my unit tests still pass.
|| and && uses short circuit evaluation
From same article
Short-circuit evaluation, minimal evaluation, or McCarthy evaluation
denotes the semantics of some Boolean operators in some programming
languages in which the second argument is only executed or evaluated
if the first argument does not suffice to determine the value of the
expression
Consider you have an object and you want to check one of its property for some value if you do:
if(obj != null & obj.ID == 1)
If your object obj is null you will get a null reference exception, since you used single &, the first condition evaluate to false, but it will still continue to the next condition and raising null reference exception.
If you used && then the second condition will never get evaluated, thus no exception.
if(obj != null && obj.ID == 1)
With your code you will not see any difference, but using bitwise | or & with multiple conditions would result in no short circuiting at all.
More Explanation.
consider that you following code:
Boolean conditionA = 2 > 1; //some condition which returns true
if(conditionA | obj.SomeTimeConsumingMethod()){
}
Now in above code snippet, suppose you have an object with a method SomeTimeConsumingMethod which takes a lot of time in processing and returns true or false. If you use single | it would evaluate both the conditions, since first conditionA is true it will process obj.SomeTimeConsumingMethod as well. End result will be true for the whole if statement since | (OR) is used.
If your condition is using double || (OR Logical operator)
if(conditionA || obj.SomeTimeConsumingMethod())
Then the second condition obj.SomeTimeConsumingMethod() will not be evaluated. This is short circuiting and that just saved you from executing some time consuming method. Still the end result is true regardless of what was returned from obj.SomeTimeConsumingMethod().
As has already been pointed out, && and || do short-circuit evaluation. & and |, with boolean operands, do the same operations but evaluate both operands regardless of the value of the first operand.
There are cases where it matters which you use, such as when the left operand is a pre-condition for exception-free evaluation of the right hand operand.
In most cases, it does not matter. I use && and || in those cases for readability, because that is the commoner choice. Using & or | with boolean operands would tend to make most Java programmers have to stop and think, and ask themselves whether there is some specific reason for it. I suspect it may be so common because of the inheritance from C and C++.
|| is logical or, where | is the bitwise operation or. Same with && and &. Use && and || if you're in an if statement, and | or & if you're doing bit operations.
While you may get the "correct" result using the bit-wise operators, understand they do NOT represent the same thing. For instance, this works
public static void main(String[] args){
int x = 5;
int y = 9;
System.out.println(x&y); // prints "1"
}
However, this won't
public static void main(String[] args){
int x = 5;
int y = 9;
System.out.println(x&&y); // Compile error: java: operator && cannot
// be applied to int,int
}
The reason you don't use bit-wise operators for boolean logic is so that it's clear what the code is trying to do (as well as knowing that it actually works). Bit-wise operators are for manipulating bit values, where as boolean operators are for evaluating first-order logic statements.
While not the same, it is along the same reasoning for using .equals() vs == for comparison -- You don't want readers guessing as to what you meant to do. It may work in some instances (like comparing constant, hard-coded strings with ==), but it is poor form because what it says is that you are asking for instance equality as opposed to value equality, which is usually implied. And using bit-wise operators implies you want to do bit manipulation, not first-order logic evaluation.
Arguing that short circuit evaluation is mandatory because of performance is weak. You can make an argument that is almost as weak: that short circuit evaluation encourages extra nondeterminism and side channels. Random optimizations or random loss of nondeterminism/side channels, I'd prefer the latter.
The only remaining argument is this: If your code base relies on short circuit behaviour, e.g., the trick described by Habib (if (obj != null && obj.ID == 1)), then it may not be a good idea to start mixing in &, because programmers might get it confused with &&. i.e., if you use &/| everywhere, but only use && in a few places where you rely on short circuit evaluation, someone might make an error and put only &, it may be hard to spot. In this case, if you relied on && for performance instead of something like null checking, it may be harder to spot when someone accidentally puts & alone, since there would be no stacktrace.
Does using || and && improve my code in any way?
Let me demonstrate two examples on how the conditional boolean operators may improve your code. Compare
if (a != null && a.equals("b") || z != null && z.equals("y"))
System.out.println("correct");
with
boolean b1 = a != null, b2 = z != null;
if (b1) b1 = b1 & a.equals("b");
if (b2) b2 = b2 & z.equals("y");
if (b1 | b2) System.out.println("correct");
which is the best way I can think of relying solely on the logical boolean operators.
Second, say you have two tests to perform: simpleTest() and heavyTest(), where the latter involves making an HTTP request and parsing the response. You have
if (simpleTest() & heavyTest()) System.out.println("success");
else throw new IllegalStateException();
and want to optimize it. What would you rather do, this:
if (simpleTest()) {
if (heavyTest()) System.out.println("success");
else throw new IllegalStateException("operation could not be completed");
} else throw new IllegalStateException("operation could not be completed");
this:
boolean b = simpleTest();
if (b) b = b & heavyTest());
if (b) System.out.println("success");
else throw new IllegalStateException("operation could not be completed");
or this:
if (simpleTest() && heavyTest()) System.out.println("success");
else throw new IllegalStateException();
Why should I always use || instead of | and && instead of &?
You shouldn't always use them, but you would do yourself a favor by making them your default because in 99.9% of uses they either don't hurt or make your code much better. Reserve the logical operators for that 0.1% of cases where you truly do need their semantics.
It has been mentioned elsewhere on this page that relying on the conditional evaluation of the right operand makes for counterintuitive code. I refuse to accept such a view on intuition because, by definition, intuition is a learned skill. It is a facility bestowed to you by evolution to recognize a pattern in situations you encounter often, and to quickly (and subconciously) cut through to the correct conclusions. One of the most important aspects of learning a language is acquiring the right intuitions. The argument that a language feature is bad because it is counterintuitive to someone who looks at it for the first time cannot be taken seriously.
In Java (and C/C++ if I remember correctly) the single "|" and "&" are bit-wise operators, not logical operators, they are used for completely different things.
You use the "&&" and "||" for boolean statements
You use the "&" and "|" for bit operations, given the following are binary numbers
dont make assumption so fast. It because this wont compile:
static boolean f(boolean a) {
boolean x = (true|a) ? a : x;
return x;
}
Bro.java:6: variable x might not have been initialized
boolean x = (true|a) ? a : x;
^
and this will:
static boolean f(boolean a) {
boolean x = (true||a) ? a : x;
return x;
}
&& and || are short cut operators. For example:
A && B
Condition B will not be evaluated if condition A is false
A || B
Condition B will not be evaluated if condition A is true
You should always use shortcut operators for multiple conditions evaluation. | or & are used for bit-wise operations.
This question already has answers here:
What is the Java ?: operator called and what does it do?
(17 answers)
Closed 9 years ago.
I came across this syntax:
System.out.println(boolean_variable ? "print true": "print false");
What is this syntax with two dots : called?
Where can I find info about it?
Does it work just for booleans or is it implemented in other different ways?
? : is the conditional operator. (It's not just the : part - the whole of the method argument is one usage of the conditional operator in your example.)
It's often called the ternary operator, but that's just an aspect of its nature - having three operands - rather than its name. If another ternary operator is ever introduced into Java, the term will become ambiguous. It's called the conditional operator because it has a condition (the first operand) which then determines which of the other two operands is evaluated.
The first operand is evaluated, and then either the second or the third operand is evaluated based on whether the first operand is true or false... and that ends up as the result of the operator.
So something like this:
int x = condition() ? result1() : result2();
is roughly equivalent to:
int x;
if (condition()) {
x = result1();
} else {
x = result2();
}
It's important that it doesn't evaluate the other operand. So for example, this is fine:
String text = getSomeStringReferenceWhichMightBeNull();
int usefulCharacters = text == null ? 0 : text.length();
It's the conditional operator, often called ternary operator because it has 3 operands: An example would be:
int foo = 10;
int bar = foo > 5 ? 1 : 2; // will be 1
int baz = foo > 15 ? 3 : 4; // will be 4
So, if the boolean expression evaluates to true, it will return the first value (before the colon), else the second value (after the colon).
You can read the specifics in the Java Language Specification, Chapter 15.25 Conditional Operator ?
It's a ternary operator, meaning that instead of having two operands like many other operators, it has three. Wikipedia on Ternary Operation and how it's used in Java. What it boils down to: the boolean operation (or just a variable) is evaluated. If it evaluates to true, the operator returns the value / executes the code before the :, otherwise the one after it.
That's an if statement.
What's to the left of ? is the condition, what's between the ? and : is the result if the condition is true, and what's to the right of : is the result if the condition is false.
This is ternary operator (http://en.wikipedia.org/wiki/?:). It can be used anywhere when you need a small if expression.
For your questions:
The ?: (both characters together) are called conditional operator (or ternary operator). Only both together will work.
Search for java ternery operator
It only works for boolean
In principle the ternery operator is a shortened if/else. The boolean will be the condition to the if, the part between ? and : is the if branch and the part after this is the else branch.
Please note that the return type of the conditional operator is determined by the first branch.
It's the ternary operator and it works with booleans. It can be used as a shorthand for if-else in some cases, but shouldn't be used for too complicated things as it can be difficult to read.
An example would be assigning value to a variable depending on a condition:
String message = doOperation() ? "Success" : "Error occurred";
System.out.println(message);
In this case, if doOperation returns a boolean telling whether it succeeded or not, the message to be shown can be assigned on a single line.
Please note that this example does not represent good programming practices.
Its ternary operator.
The ternary operator or ?, is a shorthand if else statement. It can be used to evaluate an expression and return one of two operands depending on the result of the expression.
boolean b = true;
String s = ( b == true ? "True" : "False" );
This will set the value of the String s according to the value of the boolean b. This could be written using an if else statement like this:
boolean b = true;
String s;
if(b == true){
s = "True";
}else{
s = "False";
}
Its a short form of if-else statement.
It works in this way
(yourCondition ? STATEMENT1 : STATEMENT2)
The compiler checks for the condition.
IF it returns TRUE then STATEMENT1 will be executed.
ELSE STATEMENT2 will be executed.
The question mark followed by a colon (two dots) is a ternary operator usually called inline if.
In this case it returns a string depending on the value of boolean_variable.
http://en.wikipedia.org/wiki/%3F:
See here. The ternary operator is similar to an if expression but differs in that it is an expression - it has a return value, while if expressions don't. Sometimes you want to use it to make your code a little less cluttered.
I'm just wondering why we usually use logical OR || between two booleans not bitwise OR |, though they are both working well.
I mean, look at the following:
if(true | true) // pass
if(true | false) // pass
if(false | true) // pass
if(false | false) // no pass
if(true || true) // pass
if(true || false) // pass
if(false || true) // pass
if(false || false) // no pass
Can we use | instead of ||? Same thing with & and &&.
If you use the || and && forms, rather than the | and & forms of these operators, Java will not bother to evaluate the right-hand operand alone.
It's a matter of if you want to short-circuit the evaluation or not -- most of the time you want to.
A good way to illustrate the benefits of short-circuiting would be to consider the following example.
Boolean b = true;
if(b || foo.timeConsumingCall())
{
//we entered without calling timeConsumingCall()
}
Another benefit, as Jeremy and Peter mentioned, for short-circuiting is the null reference check:
if(string != null && string.isEmpty())
{
//we check for string being null before calling isEmpty()
}
more info
| does not do short-circuit evaluation in boolean expressions. || will stop evaluating if the first operand is true, but | won't.
In addition, | can be used to perform the bitwise-OR operation on byte/short/int/long values. || cannot.
So just to build on the other answers with an example, short-circuiting is crucial in the following defensive checks:
if (foo == null || foo.isClosed()) {
return;
}
if (bar != null && bar.isBlue()) {
foo.doSomething();
}
Using | and & instead could result in a NullPointerException being thrown here.
Logical || and && check the right hand side only if necessary. The | and & check both the sides everytime.
For example:
int i = 12;
if (i == 10 & i < 9) // It will check if i == 10 and if i < 9
...
Rewrite it:
int i = 12;
if (i == 10 && i < 9) // It will check if i == 10 and stop checking afterward because i != 10
...
Another example:
int i = 12;
if (i == 12 | i > 10) // It will check if i == 12 and it will check if i > 10
...
Rewrite it:
int i = 12;
if (i == 12 || i > 10) // It will check if i == 12, it does, so it stops checking and executes what is in the if statement
...
Also notice a common pitfall: The non lazy operators have precedence over the lazy ones, so:
boolean a, b, c;
a || b && c; //resolves to a || (b && c)
a | b && c; //resolves to (a | b) && c
Be careful when mixing them.
In addition to short-circuiting, another thing to keep in mind is that doing a bitwise logic operation on values that can be other than 0 or 1 has a very different meaning than conditional logic. While it USUALLY is the same for | and ||, with & and && you get very different results (e.g. 2 & 4 is 0/false while 2 && 4 is 1/true).
If the thing you're getting from a function is actually an error code and you're testing for non-0-ness, this can matter quite a lot.
This isn't as much of an issue in Java where you have to explicitly typecast to boolean or compare with 0 or the like, but in other languages with similar syntax (C/C++ et al) it can be quite confusing.
Also, note that & and | can only apply to integer-type values, and not everything that can be equivalent to a boolean test. Again, in non-Java languages, there are quite a few things that can be used as a boolean with an implicit != 0 comparison (pointers, floats, objects with an operator bool(), etc.) and bitwise operators are almost always nonsensical in those contexts.
The only time you would use | or & instead of || or && is when you have very simple boolean expressions and the cost of short cutting (i.e. a branch) is greater than the time you save by not evaluating the later expressions.
However, this is a micro-optimisation which rarely matters except in the most low level code.
|| is the logical or operator while | is the bitwise or operator.
boolean a = true;
boolean b = false;
if (a || b) {
}
int a = 0x0001;
a = a | 0x0002;
a | b: evaluate b in any case
a || b: evaluate b only if a evaluates to false
In Addition to the fact that | is a bitwise-operator: || is a short-circuit operator - when one element is false, it will not check the others.
if(something || someotherthing)
if(something | someotherthing)
if something is TRUE, || will not evaluate someotherthing, while | will do. If the variables in your if-statements are actually function calls, using || is possibly saving a lot of performance.
| is the binary or operator
|| is the logic or operator
The operators || and && are called conditional operators, while | and & are called bitwise operators. They serve different purposes.
Conditional operators works only with expressions that statically evaluate to boolean on both left- and right-hand sides.
Bitwise operators works with any numeric operands.
If you want to perform a logical comparison, you should use conditional operators, since you will add some kind of type safety to your code.
A side note: Java has |= but not an ||=
An example of when you must use || is when the first expression is a test to see if the second expression would blow up. e.g. Using a single | in hte following case could result in an NPE.
public static boolean isNotSet(String text) {
return text == null || text.length() == 0;
}
The other answers have done a good job of covering the functional difference between the operators, but the answers could apply to just about every single C-derived language in existence today. The question is tagged with java, and so I will endeavor to answer specifically and technically for the Java language.
& and | can be either Integer Bitwise Operators, or Boolean Logical Operators. The syntax for the Bitwise and Logical Operators (§15.22) is:
AndExpression:
EqualityExpression
AndExpression & EqualityExpression
ExclusiveOrExpression:
AndExpression
ExclusiveOrExpression ^ AndExpression
InclusiveOrExpression:
ExclusiveOrExpression
InclusiveOrExpression | ExclusiveOrExpression
The syntax for EqualityExpression is defined in §15.21, which requires RelationalExpression defined in §15.20, which in turn requires ShiftExpression and ReferenceType defined in §15.19 and §4.3, respectively. ShiftExpression requires AdditiveExpression defined in §15.18, which continues to drill down, defining the basic arithmetic, unary operators, etc. ReferenceType drills down into all the various ways to represent a type. (While ReferenceType does not include the primitive types, the definition of primitive types is ultimately required, as they may be the dimension type for an array, which is a ReferenceType.)
The Bitwise and Logical Operators have the following properties:
These operators have different precedence, with & having the highest precedence and | the lowest precedence.
Each of these operators is syntactically left-associative (each groups left-to-right).
Each operator is commutative if the operand expressions have no side effects.
Each operator is associative.
The bitwise and logical operators may be used to compare two operands of numeric type or two operands of type boolean. All other cases result in a compile-time error.
The distinction between whether the operator serves as a bitwise operator or a logical operator depends on whether the operands are "convertible to a primitive integral type" (§4.2) or if they are of types boolean or Boolean (§5.1.8).
If the operands are integral types, binary numeric promotion (§5.6.2) is performed on both operands, leaving them both as either longs or ints for the operation. The type of the operation will be the type of the (promoted) operands. At that point, & will be bitwise AND, ^ will be bitwise exclusive OR, and | will be bitwise inclusive OR. (§15.22.1)
If the operands are boolean or Boolean, the operands will be subject to unboxing conversion if necessary (§5.1.8), and the type of the operation will be boolean. & will result in true if both operands are true, ^ will result in true if both operands are different, and | will result in true if either operand is true. (§15.22.2)
In contrast, && is the "Conditional-And Operator" (§15.23) and || is the "Conditional-Or Operator" (§15.24). Their syntax is defined as:
ConditionalAndExpression:
InclusiveOrExpression
ConditionalAndExpression && InclusiveOrExpression
ConditionalOrExpression:
ConditionalAndExpression
ConditionalOrExpression || ConditionalAndExpression
&& is like &, except that it only evaluates the right operand if the left operand is true. || is like |, except that it only evaluates the right operand if the left operand is false.
Conditional-And has the following properties:
The conditional-and operator is syntactically left-associative (it groups left-to-right).
The conditional-and operator is fully associative with respect to both side effects and result value. That is, for any expressions a, b, and c, evaluation of the expression ((a) && (b)) && (c) produces the same result, with the same side effects occurring in the same order, as evaluation of the expression (a) && ((b) && (c)).
Each operand of the conditional-and operator must be of type boolean or Boolean, or a compile-time error occurs.
The type of a conditional-and expression is always boolean.
At run time, the left-hand operand expression is evaluated first; if the result has type Boolean, it is subjected to unboxing conversion (§5.1.8).
If the resulting value is false, the value of the conditional-and expression is false and the right-hand operand expression is not evaluated.
If the value of the left-hand operand is true, then the right-hand expression is evaluated; if the result has type Boolean, it is subjected to unboxing conversion (§5.1.8). The resulting value becomes the value of the conditional-and expression.
Thus, && computes the same result as & on boolean operands. It differs only in that the right-hand operand expression is evaluated conditionally rather than always.
Conditional-Or has the following properties:
The conditional-or operator is syntactically left-associative (it groups left-to-right).
The conditional-or operator is fully associative with respect to both side effects and result value. That is, for any expressions a, b, and c, evaluation of the expression ((a) || (b)) || (c) produces the same result, with the same side effects occurring in the same order, as evaluation of the expression (a) || ((b) || (c)).
Each operand of the conditional-or operator must be of type boolean or Boolean, or a compile-time error occurs.
The type of a conditional-or expression is always boolean.
At run time, the left-hand operand expression is evaluated first; if the result has type Boolean, it is subjected to unboxing conversion (§5.1.8).
If the resulting value is true, the value of the conditional-or expression is true and the right-hand operand expression is not evaluated.
If the value of the left-hand operand is false, then the right-hand expression is evaluated; if the result has type Boolean, it is subjected to unboxing conversion (§5.1.8). The resulting value becomes the value of the conditional-or expression.
Thus, || computes the same result as | on boolean or Boolean operands. It differs only in that the right-hand operand expression is evaluated conditionally rather than always.
In short, as #JohnMeagher has repeatedly pointed out in the comments, & and | are, in fact, non-short-circuiting boolean operators in the specific case of the operands being either boolean or Boolean. With good practices (ie: no secondary effects), this is a minor difference. When the operands aren't booleans or Booleans, however, the operators behave very differently: bitwise and logical operations simply don't compare well at the high level of Java programming.
1).(expression1 | expression2), | operator will evaluate expression2 irrespective of whether the result of expression1 is true or false.
Example:
class Or
{
public static void main(String[] args)
{
boolean b=true;
if (b | test());
}
static boolean test()
{
System.out.println("No short circuit!");
return false;
}
}
2).(expression1 || expression2), || operator will not evaluate expression2 if expression1 is true.
Example:
class Or
{
public static void main(String[] args)
{
boolean b=true;
if (b || test())
{
System.out.println("short circuit!");
}
}
static boolean test()
{
System.out.println("No short circuit!");
return false;
}
}
|| returns a boolean value by OR'ing two values (Thats why its known as a LOGICAL or)
IE:
if (A || B)
Would return true if either A or B is true, or false if they are both false.
| is an operator that performs a bitwise operation on two values. To better understand bitwise operations, you can read here:
http://en.wikipedia.org/wiki/Bitwise_operation
One main difference is that || and && exhibit "short-circuiting", so the RHS will only be evaluated if needed.
For e.g.
if (a || b) {
path1...
} else {
path2..
}
Above if a is true then b will not be tested and path1 is executed. If | was used then both sides would be evaluated even if 'a' is true.
See Here and here, for a little more information.
Hope this helps.
Non short-circuiting can be useful. Sometimes you want to make sure that two expressions evaluate. For example, say you have a method that removes an object from two separate lists. You might want to do something like this:
class foo {
ArrayList<Bar> list1 = new ArrayList<Bar>();
ArrayList<Bar> list2 = new ArrayList<Bar>();
//Returns true if bar is removed from both lists, otherwise false.
boolean removeBar(Bar bar) {
return (list1.remove(bar) & list2.remove(bar));
}
}
If your method instead used the conditional operand, it would fail to remove the object from the second list if the first list returned false.
//Fails to execute the second remove if the first returns false.
boolean removeBar(Bar bar) {
return (list1.remove(bar) && list2.remove(bar));
}
It's not amazingly useful, and (as with most programming tasks) you could achieve it with other means. But it is a use case for bitwise operands.
The basic difference between them is that | first converts the values to binary then performs the bit wise or operation. Meanwhile, || does not convert the data into binary and just performs the or expression on it's original state.
int two = -2; int four = -4;
result = two | four; // bitwise OR example
System.out.println(Integer.toBinaryString(two));
System.out.println(Integer.toBinaryString(four));
System.out.println(Integer.toBinaryString(result));
Output:
11111111111111111111111111111110
11111111111111111111111111111100
11111111111111111111111111111110
Read more: http://javarevisited.blogspot.com/2015/01/difference-between-bitwsie-and-logical.html#ixzz45PCxdQhk
When I had this question I created test code to get an idea about this.
public class HelloWorld{
public static boolean bool(){
System.out.println("Bool");
return true;
}
public static void main(String []args){
boolean a = true;
boolean b = false;
if(a||bool())
{
System.out.println("If condition executed");
}
else{
System.out.println("Else condition executed");
}
}
}
In this case, we only change left side value of if condition adding a or b.
|| Scenario , when left side true [if(a||bool())]
output "If condition executed"
|| Scenario , when left side false [if(b||bool())]
Output-
Bool
If condition executed
Conclusion of || When use ||, right side only check when the left side is false.
| Scenario , when left side true [if(a|bool())]
Output-
Bool
If condition executed
| Scenario , when left side false [if(b|bool())]
Output-
Bool
If condition executed
Conclusion of | When use |, check both left and right side.
| = bitwise or, || = logic or
usually I use when there is pre increment and post increment operator. Look at the following code:
package ocjpPractice;
/**
* #author tithik
*
*/
public class Ex1 {
public static void main(String[] args) {
int i=10;
int j=9;
int x=10;
int y=9;
if(i==10 | ++i>j){
System.out.println("it will print in first if");
System.out.println("i is: "+i);
}
if(x==10 ||++x>y){
System.out.println("it will print in second if");
System.out.println("x is: "+x);
}
}
}
output:
it will print in first if
i is: 11
it will print in second if
x is: 10
both if blocks are same but result is different.
when there is |, both the conditions will be evaluated. But if it is ||, it will not evaluate second condition as the first condition is already true.
There are many use cases suggesting why should you go for || rather than | . Some use cases have to use | operator to check all the conditions.
For example, if you want to check form validation and you want to show the user all the invalid fields with error texts rather than just a first invalid field.
|| operator would be,
if(checkIfEmpty(nameField) || checkIfEmpty(phoneField) || checkIfEmpty(emailField)) {
// invalid form with one or more empty fields
}
private boolean checkIfEmpty(Widget field) {
if(field.isEmpty()) {
field.setErrorMessage("Should not be empty!");
return true;
}
return false;
}
So with above snippet, if user submits the form with ALL empty fields, ONLY nameField would be shown with error message. But, if you change it to,
if(checkIfEmpty(nameField) | checkIfEmpty(phoneField) | checkIfEmpty(emailField)) {
// invalid form with one or more empty fields
}
It will show proper error message on the each field irrespective of true conditions.
After carefully reading this topic is still unclear to me if using | as a logical operator is conform to Java pattern practices.
I recently modified code in a pull request addressing a comment where
if(function1() | function2()){
...
}
had to be changed to
boolean isChanged = function1();
isChanged |= function2();
if (isChanged){
...
}
What is the actual accepted version?
Java documentation is not mentioning | as a logical non-shortcircuiting OR operator.
Not interested in a vote but more in finding out the standard?!
Both code versions are compiling and working as expected.
|| is a logical or and | is a bit-wise or.
Java operators
| is bitwise or, || is logical or.
Take a look at:
http://java.sun.com/docs/books/tutorial/java/nutsandbolts/operators.html
| is bitwise inclusive OR
|| is logical OR
| is a bitwise operator. || is a logical operator.
One will take two bits and or them.
One will determine truth (this OR that) If this is true or that is true, then the answer is true.
Oh, and dang people answer these questions fast.
I know the rules for && and || but what are & and |? Please explain these to me with an example.
Those are the bitwise AND and bitwise OR operators.
int a = 6; // 110
int b = 4; // 100
// Bitwise AND
int c = a & b;
// 110
// & 100
// -----
// 100
// Bitwise OR
int d = a | b;
// 110
// | 100
// -----
// 110
System.out.println(c); // 4
System.out.println(d); // 6
Thanks to Carlos for pointing out the appropriate section in the Java Language Spec (15.22.1, 15.22.2) regarding the different behaviors of the operator based on its inputs.
Indeed when both inputs are boolean, the operators are considered the Boolean Logical Operators and behave similar to the Conditional-And (&&) and Conditional-Or (||) operators except for the fact that they don't short-circuit so while the following is safe:
if((a != null) && (a.something == 3)){
}
This is not:
if((a != null) & (a.something == 3)){
}
"Short-circuiting" means the operator does not necessarily examine all conditions. In the above examples, && will examine the second condition only when a is not null (otherwise the whole statement will return false, and it would be moot to examine following conditions anyway), so the statement of a.something will not raise an exception, or is considered "safe."
The & operator always examines every condition in the clause, so in the examples above, a.something may be evaluated when a is in fact a null value, raising an exception.
I think you're talking about the logical meaning of both operators, here you have a table-resume:
boolean a, b;
Operation Meaning Note
--------- ------- ----
a && b logical AND short-circuiting
a || b logical OR short-circuiting
a & b boolean logical AND not short-circuiting
a | b boolean logical OR not short-circuiting
a ^ b boolean logical exclusive OR
!a logical NOT
short-circuiting (x != 0) && (1/x > 1) SAFE
not short-circuiting (x != 0) & (1/x > 1) NOT SAFE
Short-circuit evaluation, minimal evaluation, or McCarthy evaluation (after John McCarthy) is the semantics of some Boolean operators in some programming languages in which the second argument is executed or evaluated only if the first argument does not suffice to determine the value of the expression: when the first argument of the AND function evaluates to false, the overall value must be false; and when the first argument of the OR function evaluates to true, the overall value must be true.
Not Safe means the operator always examines every condition in the clause, so in the examples above, 1/x may be evaluated when the x is, in fact, a 0 value, raising an exception.
I know there's a lot of answers here, but they all seem a bit confusing. So after doing some research from the Java oracle study guide, I've come up with three different scenarios of when to use && or &.
The three scenarios are logical AND, bitwise AND, and boolean AND.
Logical AND:
Logical AND (aka Conditional AND) uses the && operator. It's short-circuited meaning: if the left operand is false, then the right operand will not be evaluated. Example:
int x = 0;
if (false && (1 == ++x) {
System.out.println("Inside of if");
}
System.out.println(x); // "0"
In the above example the value printed to the console of x will be 0, because the first operand in the if statement is false, hence java has no need to compute (1 == ++x) therefore x will not be computed.
Bitwise AND:
Bitwise AND uses the & operator. It's used to preform a bitwise operation on the value. It's much easier to see what's going on by looking at operation on binary numbers ex:
int a = 5; // 5 in binary is 0101
int b = 12; // 12 in binary is 1100
int c = a & b; // bitwise & preformed on a and b is 0100 which is 4
As you can see in the example, when the binary representations of the numbers 5 and 12 are lined up, then a bitwise AND preformed will only produce a binary number where the same digit in both numbers have a 1. Hence 0101 & 1100 == 0100. Which in decimal is 5 & 12 == 4.
Boolean AND:
Now the boolean AND operator behaves similarly and differently to both the bitwise AND and logical AND. I like to think of it as preforming a bitwise AND between two boolean values (or bits), therefore it uses & operator. The boolean values can be the result of a logical expression too.
It returns either a true or false value, much like the logical AND, but unlike the logical AND it is not short-circuited. The reason being, is that for it to preform that bitwise AND, it must know the value of both left and right operands. Here's an ex:
int x = 0;
if (false & (1 == ++x) {
System.out.println("Inside of if");
}
System.out.println(x); //"1"
Now when that if statement is ran, the expression (1 == ++x) will be executed, even though the left operand is false. Hence the value printed out for x will be 1 because it got incremented.
This also applies to Logical OR (||), bitwise OR (|), and boolean OR (|)
Hope this clears up some confusion.
The operators && and || are short-circuiting, meaning they will not evaluate their right-hand expression if the value of the left-hand expression is enough to determine the result.
& and | provide the same outcome as the && and || operators. The difference is that they always evaluate both sides of the expression where as && and || stop evaluating if the first condition is enough to determine the outcome.
In Java, the single operators &, |, ^, ! depend on the operands. If both operands are ints, then a bitwise operation is performed. If both are booleans, a "logical" operation is performed.
If both operands mismatch, a compile time error is thrown.
The double operators &&, || behave similarly to their single counterparts, but both operands must be conditional expressions, for example:
if (( a < 0 ) && ( b < 0 )) { ... } or similarly,
if (( a < 0 ) || ( b < 0 )) { ... }
source: java programming lang 4th ed
& and | are bitwise operators on integral types (e.g. int): http://download.oracle.com/javase/tutorial/java/nutsandbolts/op3.html
&& and || operate on booleans only (and short-circuit, as other answers have already said).
Maybe it can be useful to know that the bitwise AND and bitwise OR operators are always evaluated before conditional AND and conditional OR used in the same expression.
if ( (1>2) && (2>1) | true) // false!
&& ; || are logical operators.... short circuit
& ; | are boolean logical operators.... Non-short circuit
Moving to differences in execution on expressions. Bitwise operators evaluate both sides irrespective of the result of left hand side. But in the case of evaluating expressions with logical operators, the evaluation of the right hand expression is dependent on the left hand condition.
For Example:
int i = 25;
int j = 25;
if(i++ < 0 && j++ > 0)
System.out.println("OK");
System.out.printf("i = %d ; j = %d",i,j);
This will print i=26 ; j=25, As the first condition is false the right hand condition is bypassed as the result is false anyways irrespective of the right hand side condition.(short circuit)
int i = 25;
int j = 25;
if(i++ < 0 & j++ > 0)
System.out.println("OK");
System.out.printf("i = %d ; j = %d",i,j);
But, this will print i=26; j=26,
If an expression involving the Boolean & operator is evaluated, both operands are evaluated. Then the & operator is applied to the operand.
When an expression involving the && operator is evaluated, the first operand is evaluated. If the first operand evaluates to false, the evaluation of the second operand is skipped.
If the first operand returns a value of true then the second operand is evaluated. If the second operand returns a value of true then && operator is then applied to the first and second operands.
Similar for | and ||.
While the basic difference is that & is used for bitwise operations mostly on long, int or byte where it can be used for kind of a mask, the results can differ even if you use it instead of logical &&.
The difference is more noticeable in some scenarios:
Evaluating some of the expressions is time consuming
Evaluating one of the expression can be done only if the previous one was true
The expressions have some side-effect (intended or not)
First point is quite straightforward, it causes no bugs, but it takes more time. If you have several different checks in one conditional statements, put those that are either cheaper or more likely to fail to the left.
For second point, see this example:
if ((a != null) & (a.isEmpty()))
This fails for null, as evaluating the second expression produces a NullPointerException. Logical operator && is lazy, if left operand is false, the result is false no matter what right operand is.
Example for the third point -- let's say we have an app that uses DB without any triggers or cascades. Before we remove a Building object, we must change a Department object's building to another one. Let's also say the operation status is returned as a boolean (true = success). Then:
if (departmentDao.update(department, newBuilding) & buildingDao.remove(building))
This evaluates both expressions and thus performs building removal even if the department update failed for some reason. With &&, it works as intended and it stops after first failure.
As for a || b, it is equivalent of !(!a && !b), it stops if a is true, no more explanation needed.
I'm just wondering why we usually use logical OR || between two booleans not bitwise OR |, though they are both working well.
I mean, look at the following:
if(true | true) // pass
if(true | false) // pass
if(false | true) // pass
if(false | false) // no pass
if(true || true) // pass
if(true || false) // pass
if(false || true) // pass
if(false || false) // no pass
Can we use | instead of ||? Same thing with & and &&.
If you use the || and && forms, rather than the | and & forms of these operators, Java will not bother to evaluate the right-hand operand alone.
It's a matter of if you want to short-circuit the evaluation or not -- most of the time you want to.
A good way to illustrate the benefits of short-circuiting would be to consider the following example.
Boolean b = true;
if(b || foo.timeConsumingCall())
{
//we entered without calling timeConsumingCall()
}
Another benefit, as Jeremy and Peter mentioned, for short-circuiting is the null reference check:
if(string != null && string.isEmpty())
{
//we check for string being null before calling isEmpty()
}
more info
| does not do short-circuit evaluation in boolean expressions. || will stop evaluating if the first operand is true, but | won't.
In addition, | can be used to perform the bitwise-OR operation on byte/short/int/long values. || cannot.
So just to build on the other answers with an example, short-circuiting is crucial in the following defensive checks:
if (foo == null || foo.isClosed()) {
return;
}
if (bar != null && bar.isBlue()) {
foo.doSomething();
}
Using | and & instead could result in a NullPointerException being thrown here.
Logical || and && check the right hand side only if necessary. The | and & check both the sides everytime.
For example:
int i = 12;
if (i == 10 & i < 9) // It will check if i == 10 and if i < 9
...
Rewrite it:
int i = 12;
if (i == 10 && i < 9) // It will check if i == 10 and stop checking afterward because i != 10
...
Another example:
int i = 12;
if (i == 12 | i > 10) // It will check if i == 12 and it will check if i > 10
...
Rewrite it:
int i = 12;
if (i == 12 || i > 10) // It will check if i == 12, it does, so it stops checking and executes what is in the if statement
...
Also notice a common pitfall: The non lazy operators have precedence over the lazy ones, so:
boolean a, b, c;
a || b && c; //resolves to a || (b && c)
a | b && c; //resolves to (a | b) && c
Be careful when mixing them.
In addition to short-circuiting, another thing to keep in mind is that doing a bitwise logic operation on values that can be other than 0 or 1 has a very different meaning than conditional logic. While it USUALLY is the same for | and ||, with & and && you get very different results (e.g. 2 & 4 is 0/false while 2 && 4 is 1/true).
If the thing you're getting from a function is actually an error code and you're testing for non-0-ness, this can matter quite a lot.
This isn't as much of an issue in Java where you have to explicitly typecast to boolean or compare with 0 or the like, but in other languages with similar syntax (C/C++ et al) it can be quite confusing.
Also, note that & and | can only apply to integer-type values, and not everything that can be equivalent to a boolean test. Again, in non-Java languages, there are quite a few things that can be used as a boolean with an implicit != 0 comparison (pointers, floats, objects with an operator bool(), etc.) and bitwise operators are almost always nonsensical in those contexts.
The only time you would use | or & instead of || or && is when you have very simple boolean expressions and the cost of short cutting (i.e. a branch) is greater than the time you save by not evaluating the later expressions.
However, this is a micro-optimisation which rarely matters except in the most low level code.
|| is the logical or operator while | is the bitwise or operator.
boolean a = true;
boolean b = false;
if (a || b) {
}
int a = 0x0001;
a = a | 0x0002;
a | b: evaluate b in any case
a || b: evaluate b only if a evaluates to false
In Addition to the fact that | is a bitwise-operator: || is a short-circuit operator - when one element is false, it will not check the others.
if(something || someotherthing)
if(something | someotherthing)
if something is TRUE, || will not evaluate someotherthing, while | will do. If the variables in your if-statements are actually function calls, using || is possibly saving a lot of performance.
| is the binary or operator
|| is the logic or operator
The operators || and && are called conditional operators, while | and & are called bitwise operators. They serve different purposes.
Conditional operators works only with expressions that statically evaluate to boolean on both left- and right-hand sides.
Bitwise operators works with any numeric operands.
If you want to perform a logical comparison, you should use conditional operators, since you will add some kind of type safety to your code.
A side note: Java has |= but not an ||=
An example of when you must use || is when the first expression is a test to see if the second expression would blow up. e.g. Using a single | in hte following case could result in an NPE.
public static boolean isNotSet(String text) {
return text == null || text.length() == 0;
}
The other answers have done a good job of covering the functional difference between the operators, but the answers could apply to just about every single C-derived language in existence today. The question is tagged with java, and so I will endeavor to answer specifically and technically for the Java language.
& and | can be either Integer Bitwise Operators, or Boolean Logical Operators. The syntax for the Bitwise and Logical Operators (§15.22) is:
AndExpression:
EqualityExpression
AndExpression & EqualityExpression
ExclusiveOrExpression:
AndExpression
ExclusiveOrExpression ^ AndExpression
InclusiveOrExpression:
ExclusiveOrExpression
InclusiveOrExpression | ExclusiveOrExpression
The syntax for EqualityExpression is defined in §15.21, which requires RelationalExpression defined in §15.20, which in turn requires ShiftExpression and ReferenceType defined in §15.19 and §4.3, respectively. ShiftExpression requires AdditiveExpression defined in §15.18, which continues to drill down, defining the basic arithmetic, unary operators, etc. ReferenceType drills down into all the various ways to represent a type. (While ReferenceType does not include the primitive types, the definition of primitive types is ultimately required, as they may be the dimension type for an array, which is a ReferenceType.)
The Bitwise and Logical Operators have the following properties:
These operators have different precedence, with & having the highest precedence and | the lowest precedence.
Each of these operators is syntactically left-associative (each groups left-to-right).
Each operator is commutative if the operand expressions have no side effects.
Each operator is associative.
The bitwise and logical operators may be used to compare two operands of numeric type or two operands of type boolean. All other cases result in a compile-time error.
The distinction between whether the operator serves as a bitwise operator or a logical operator depends on whether the operands are "convertible to a primitive integral type" (§4.2) or if they are of types boolean or Boolean (§5.1.8).
If the operands are integral types, binary numeric promotion (§5.6.2) is performed on both operands, leaving them both as either longs or ints for the operation. The type of the operation will be the type of the (promoted) operands. At that point, & will be bitwise AND, ^ will be bitwise exclusive OR, and | will be bitwise inclusive OR. (§15.22.1)
If the operands are boolean or Boolean, the operands will be subject to unboxing conversion if necessary (§5.1.8), and the type of the operation will be boolean. & will result in true if both operands are true, ^ will result in true if both operands are different, and | will result in true if either operand is true. (§15.22.2)
In contrast, && is the "Conditional-And Operator" (§15.23) and || is the "Conditional-Or Operator" (§15.24). Their syntax is defined as:
ConditionalAndExpression:
InclusiveOrExpression
ConditionalAndExpression && InclusiveOrExpression
ConditionalOrExpression:
ConditionalAndExpression
ConditionalOrExpression || ConditionalAndExpression
&& is like &, except that it only evaluates the right operand if the left operand is true. || is like |, except that it only evaluates the right operand if the left operand is false.
Conditional-And has the following properties:
The conditional-and operator is syntactically left-associative (it groups left-to-right).
The conditional-and operator is fully associative with respect to both side effects and result value. That is, for any expressions a, b, and c, evaluation of the expression ((a) && (b)) && (c) produces the same result, with the same side effects occurring in the same order, as evaluation of the expression (a) && ((b) && (c)).
Each operand of the conditional-and operator must be of type boolean or Boolean, or a compile-time error occurs.
The type of a conditional-and expression is always boolean.
At run time, the left-hand operand expression is evaluated first; if the result has type Boolean, it is subjected to unboxing conversion (§5.1.8).
If the resulting value is false, the value of the conditional-and expression is false and the right-hand operand expression is not evaluated.
If the value of the left-hand operand is true, then the right-hand expression is evaluated; if the result has type Boolean, it is subjected to unboxing conversion (§5.1.8). The resulting value becomes the value of the conditional-and expression.
Thus, && computes the same result as & on boolean operands. It differs only in that the right-hand operand expression is evaluated conditionally rather than always.
Conditional-Or has the following properties:
The conditional-or operator is syntactically left-associative (it groups left-to-right).
The conditional-or operator is fully associative with respect to both side effects and result value. That is, for any expressions a, b, and c, evaluation of the expression ((a) || (b)) || (c) produces the same result, with the same side effects occurring in the same order, as evaluation of the expression (a) || ((b) || (c)).
Each operand of the conditional-or operator must be of type boolean or Boolean, or a compile-time error occurs.
The type of a conditional-or expression is always boolean.
At run time, the left-hand operand expression is evaluated first; if the result has type Boolean, it is subjected to unboxing conversion (§5.1.8).
If the resulting value is true, the value of the conditional-or expression is true and the right-hand operand expression is not evaluated.
If the value of the left-hand operand is false, then the right-hand expression is evaluated; if the result has type Boolean, it is subjected to unboxing conversion (§5.1.8). The resulting value becomes the value of the conditional-or expression.
Thus, || computes the same result as | on boolean or Boolean operands. It differs only in that the right-hand operand expression is evaluated conditionally rather than always.
In short, as #JohnMeagher has repeatedly pointed out in the comments, & and | are, in fact, non-short-circuiting boolean operators in the specific case of the operands being either boolean or Boolean. With good practices (ie: no secondary effects), this is a minor difference. When the operands aren't booleans or Booleans, however, the operators behave very differently: bitwise and logical operations simply don't compare well at the high level of Java programming.
1).(expression1 | expression2), | operator will evaluate expression2 irrespective of whether the result of expression1 is true or false.
Example:
class Or
{
public static void main(String[] args)
{
boolean b=true;
if (b | test());
}
static boolean test()
{
System.out.println("No short circuit!");
return false;
}
}
2).(expression1 || expression2), || operator will not evaluate expression2 if expression1 is true.
Example:
class Or
{
public static void main(String[] args)
{
boolean b=true;
if (b || test())
{
System.out.println("short circuit!");
}
}
static boolean test()
{
System.out.println("No short circuit!");
return false;
}
}
|| returns a boolean value by OR'ing two values (Thats why its known as a LOGICAL or)
IE:
if (A || B)
Would return true if either A or B is true, or false if they are both false.
| is an operator that performs a bitwise operation on two values. To better understand bitwise operations, you can read here:
http://en.wikipedia.org/wiki/Bitwise_operation
One main difference is that || and && exhibit "short-circuiting", so the RHS will only be evaluated if needed.
For e.g.
if (a || b) {
path1...
} else {
path2..
}
Above if a is true then b will not be tested and path1 is executed. If | was used then both sides would be evaluated even if 'a' is true.
See Here and here, for a little more information.
Hope this helps.
Non short-circuiting can be useful. Sometimes you want to make sure that two expressions evaluate. For example, say you have a method that removes an object from two separate lists. You might want to do something like this:
class foo {
ArrayList<Bar> list1 = new ArrayList<Bar>();
ArrayList<Bar> list2 = new ArrayList<Bar>();
//Returns true if bar is removed from both lists, otherwise false.
boolean removeBar(Bar bar) {
return (list1.remove(bar) & list2.remove(bar));
}
}
If your method instead used the conditional operand, it would fail to remove the object from the second list if the first list returned false.
//Fails to execute the second remove if the first returns false.
boolean removeBar(Bar bar) {
return (list1.remove(bar) && list2.remove(bar));
}
It's not amazingly useful, and (as with most programming tasks) you could achieve it with other means. But it is a use case for bitwise operands.
The basic difference between them is that | first converts the values to binary then performs the bit wise or operation. Meanwhile, || does not convert the data into binary and just performs the or expression on it's original state.
int two = -2; int four = -4;
result = two | four; // bitwise OR example
System.out.println(Integer.toBinaryString(two));
System.out.println(Integer.toBinaryString(four));
System.out.println(Integer.toBinaryString(result));
Output:
11111111111111111111111111111110
11111111111111111111111111111100
11111111111111111111111111111110
Read more: http://javarevisited.blogspot.com/2015/01/difference-between-bitwsie-and-logical.html#ixzz45PCxdQhk
When I had this question I created test code to get an idea about this.
public class HelloWorld{
public static boolean bool(){
System.out.println("Bool");
return true;
}
public static void main(String []args){
boolean a = true;
boolean b = false;
if(a||bool())
{
System.out.println("If condition executed");
}
else{
System.out.println("Else condition executed");
}
}
}
In this case, we only change left side value of if condition adding a or b.
|| Scenario , when left side true [if(a||bool())]
output "If condition executed"
|| Scenario , when left side false [if(b||bool())]
Output-
Bool
If condition executed
Conclusion of || When use ||, right side only check when the left side is false.
| Scenario , when left side true [if(a|bool())]
Output-
Bool
If condition executed
| Scenario , when left side false [if(b|bool())]
Output-
Bool
If condition executed
Conclusion of | When use |, check both left and right side.
| = bitwise or, || = logic or
usually I use when there is pre increment and post increment operator. Look at the following code:
package ocjpPractice;
/**
* #author tithik
*
*/
public class Ex1 {
public static void main(String[] args) {
int i=10;
int j=9;
int x=10;
int y=9;
if(i==10 | ++i>j){
System.out.println("it will print in first if");
System.out.println("i is: "+i);
}
if(x==10 ||++x>y){
System.out.println("it will print in second if");
System.out.println("x is: "+x);
}
}
}
output:
it will print in first if
i is: 11
it will print in second if
x is: 10
both if blocks are same but result is different.
when there is |, both the conditions will be evaluated. But if it is ||, it will not evaluate second condition as the first condition is already true.
There are many use cases suggesting why should you go for || rather than | . Some use cases have to use | operator to check all the conditions.
For example, if you want to check form validation and you want to show the user all the invalid fields with error texts rather than just a first invalid field.
|| operator would be,
if(checkIfEmpty(nameField) || checkIfEmpty(phoneField) || checkIfEmpty(emailField)) {
// invalid form with one or more empty fields
}
private boolean checkIfEmpty(Widget field) {
if(field.isEmpty()) {
field.setErrorMessage("Should not be empty!");
return true;
}
return false;
}
So with above snippet, if user submits the form with ALL empty fields, ONLY nameField would be shown with error message. But, if you change it to,
if(checkIfEmpty(nameField) | checkIfEmpty(phoneField) | checkIfEmpty(emailField)) {
// invalid form with one or more empty fields
}
It will show proper error message on the each field irrespective of true conditions.
After carefully reading this topic is still unclear to me if using | as a logical operator is conform to Java pattern practices.
I recently modified code in a pull request addressing a comment where
if(function1() | function2()){
...
}
had to be changed to
boolean isChanged = function1();
isChanged |= function2();
if (isChanged){
...
}
What is the actual accepted version?
Java documentation is not mentioning | as a logical non-shortcircuiting OR operator.
Not interested in a vote but more in finding out the standard?!
Both code versions are compiling and working as expected.
|| is a logical or and | is a bit-wise or.
Java operators
| is bitwise or, || is logical or.
Take a look at:
http://java.sun.com/docs/books/tutorial/java/nutsandbolts/operators.html
| is bitwise inclusive OR
|| is logical OR
| is a bitwise operator. || is a logical operator.
One will take two bits and or them.
One will determine truth (this OR that) If this is true or that is true, then the answer is true.
Oh, and dang people answer these questions fast.