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I am accustomed to write the code as(just an example)

Request.QueryString["xxxx"] != null

Recently someone said that

null != Request.QueryString["xxxx"]

gives a better performance.

I am curious to know as whether it actually brings any difference or not and if so how?

Note~ The above is just an example. To be generically speaking


Constant [Operator] Actual Value (e.g. 1 == Convert.ToInt32(textbox1.text))

is better than

Actual Value [Operator] Constant (e.g. Convert.ToInt32(textbox1.text) == 1)


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4 Answers 4

up vote 3 down vote accepted

No, it's not true in general. Comparison operators need to evaluate both their sides so there is no gain in putting constants on the left. But having them on the left hand side (called Yoda style) reduces coding errors in languages where you are allowed to use assignment operator inside a conditional and you unintentionally mistyped the comparison operator == as a single =:

// What you intended to write
if (a == 6) ...
// What you wrote instead
if (a = 6) ... // --> always true as the value of a is changed to 6
// What if Yoda style is used
if (6 = a) ... // --> compile time error
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This is not the only reason, when comparing to null. In some cases, it can prevent overloaded == operator to fall into an infinite loop when they are miscoded, especially if the class is from a third-party library that you cannot 100% trust. – Kryptos Nov 27 '14 at 14:05


It's a coding style in use for languages with many implicit type conversions (friendly named Yoda from Star Wars character because of his OSV word order). Sometimes it's even enforced and required by project guide-lines to prevent some kind of errors derived from typos. Different languages have different variations and extensions of this style but I'll limit this answer to C and C#.

Why Yes

For example in C you can write:

int a = CalculateValue();
if (a = CalculateAnotherValue()) {
    /* Do something */

This code will assign to a the value returned from CalculateValue() then it'll overwrite the value with the result of CalculateAnotherValue() and if it's not zero then it'll execute the code. Probably it's not what intended to do and the assignment in the if expression is a mistake. From your example with NULL then you may have:

if (pBuffer = NULL)

Again probably it's not what you want (and it's a quite common mistake), you'll assign NULL to the pointer and the condition will be always false. If you write:

if (NULL = pBuffer)

It won't compile (because you can't assign a value to a literal) and you'll get a compile-time error.

This kind of compile time checks are not the only reason to use this coding style, look this C# (very common) code:

if (text != null && text.Equals("something", StringComparison.InvariantCulture)

It could be contracted to:

if ("something".Equals(text, StringComparison.InvariantCulture))

Why No

In C# usually it doesn't matter. It's a practice inherited from C/C++. Because in C# expressions are not converted automatically to bool then following code won't compile:

if (Request.QueryString["PartnerID"] = null)

Then this practice is useless in C# (with the exception pointed out by @IlianPinzon in the comments), nothing about performance it was used only to avoid such kind of mistakes.

About the last example in the Why yes section the problem is readability, to write "something".Equals(text) is like to say "if happy is the guy" instead of "if the guy is happy".


Starting from these functions:

static bool TestRight(object value)
{ return value == null; }

static bool TestLeft(object value)
{ return null == value; }

They produce following IL:

.maxstack 2
.locals init ([0] bool CS$1$0000)
L_0000: nop 
L_0001: ldnull 
L_0002: ldarg.0 
L_0003: ceq 
L_0005: stloc.0 
L_0006: br.s L_0008
L_0008: ldloc.0 
L_0009: ret 

The only difference is in lines L_0001 and L_0002, they're just swapped but order of its operands doesn't change the behavior of ceq. Even if you override Equals() method the JIT compiler will produce the same assembly code for both expressions (because the comparison will be always done by Equals(), null is typeless).

Things can be more complicated if the comparison involves a user defined equality comparer, in this case there is not a rule and it'll depend on the effective op_Equals implementation. For example this == implementation:

public static bool operator==(MyType lhs, MyType rhs)
    if (Object.ReferenceEquals(lhs, rhs))
        return true;

    if (Object.ReferenceEquals(lhs, null))
        return false;

    return lhs.Equals(rhs);

In this case if the first operand is null the execution will be slightly faster (because MyType.Equals() won't be even called) but this performance gain is very small: you save one comparison, few jumps and a virtual function call. Moreover you can rewrite the function to be faster in the opposite case (in case you really matter about this).

Here a small test where MyType.Equals(object) simply returns true for any non null parameter. The test will be looped Int32.MaxValue times:

Operation       Total time (ms)
lhs == null               10521
null == lhs                2346

It seems the "optimized" version that avoid unnecessary call to Equals() is five times faster but note that the loop count is very high and actual implementation of Equals() is empty, a true implementation will reduce the relative overhead of the function call (and probably you'll have something else than this micro-optimization to do). For system classes you can't rely on this details, for example String.Equals() will be always called by operators (no matters the order) but you can't assume one code path is faster and this fact won't change in future versions of the framework (or for different CPU architectures).

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I'm curious, have heard of it but I'm not familiar with C/C++. Why was it common to have the constant on the left side? – Matten May 30 '12 at 7:02
@Adriano: There's one scenario, where you can still get bitten by it in C# though. Try replacing int with bool. But yeah, Yoda conditions are out of fashion in C#. – lonewolf May 30 '12 at 7:04
@IlianPinzon you're right, with bool it has sense but...I did dislike this so much because of readability (personal taste, I know) that I'm ready to pay the price :) – Adriano Repetti May 30 '12 at 7:07
@Matten I added some examples. – Adriano Repetti May 30 '12 at 7:08
+1 for the remark about user overloaded comparison operators. – Hristo Iliev May 30 '12 at 14:20

It's a question of style. Someone prefers to write

if (N == var) ...

just because if you missed one = (common case for beginners)

if (N = var)

where N is constant, compiler will give an error.

In case of

if (var = N)

it may give you a warning and may not (depends on compiler and flags). So sometimes it's hard enough to find where the problem is.

The performance of both variants are the same. Choose your style and follow it.

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Constant [Operator] Actual Value is known as Yoda Conditions because it is like "if it is the blue – this is the sky" or "if that is tall – this is a man."

Usage of this conditions style was popular on C/C++ where you could assign value to variable when typed = instead of ==. In C# it makes no sense to use Yoda Conditions.

Also I have doubts it has better performance. Even if it has some performance benefit, it will be extremely small. Match smaller than readability drawbacks.

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