# Why shouldn't I use “Hungarian Notation”? [closed]

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I know what Hungarian refers to - giving information about a variable, parameter, or type as a prefix to its name. Everyone seems to be rabidly against it, even though in some cases it seems to be a good idea. If I feel that useful information is being imparted, why shouldn't I put it right there where it's available?

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## closed as not constructive by Leigh, KatieK, dystroy, Firo, Eric J.Jan 14 at 18:26

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## Apps Hungarian is Greek to me--in a good way

As an engineer, not a programmer, I immediately took to Joel's article on the merits of Apps Hungarian: "Making Wrong Code Look Wrong". I like Apps Hungarian because it mimics how engineering, science, and mathematics represent equations and formulas using sub- and super-scripted symbols (like Greek letters, mathematical operators, etc.). Take a particular example of Newton's Law of Universal Gravity: first in standard mathematical notation, and then in Apps Hungarian pseudo-code:

``````frcGravityEarthMars = G * massEarth * massMars / norm(posEarth - posMars)
``````

In the mathematical notation, the most prominent symbols are those representing the kind of information stored in the variable: force, mass, position vector, etc. The subscripts play second fiddle to clarify: position of what? This is exactly what Apps Hungarian is doing; it's telling you the kind of thing stored in the variable first and then getting into specifics--about the closest code can get to mathematical notation.

Clearly strong typing can resolve the safe vs. unsafe string example from Joel's essay, but you wouldn't define separate types for position and velocity vectors; both are double arrays of size three and anything you're likely to do to one might apply to the other. Furthermore, it make perfect sense to concatenate position and velocity (to make a state vector) or take their dot product, but probably not to add them. How would typing allow the first two and prohibit the second, and how would such a system extend to every possible operation you might want to protect? Unless you were willing to encode all of math and physics in your typing system.

On top of all that, lots of engineering is done in weakly typed high-level languages like Matlab, or old ones like Fortran 77 or Ada.

So if you have a fancy language and IDE and Apps Hungarian doesn't help you then forget it--lots of folks apparently have. But for me, a worse than a novice programmer who is working in weakly or dynamically typed languages, I can write better code faster with Apps Hungarian than without.

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• They're a humongous eyesore
• Your IDE should be able to tell you all you need to know about a variable's type
• Good names (which HN gets in the way of) should communicate to you everything else you need to know about a variable.
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Hungarian is bad because it takes precious characters away from variable names in exchange for what, some type information?

First of all, in a strongly typed language, the compiler will warn you if you do any truly stupid.

Second, if you believe in good modularized code and don't do too much work in any 1 function, you're variables are probable declared just above the code they are used in anyway (so you have the type right there).

Third, if you prefix every pointer with p and every class with C, your really screwing up your nice modern IDE's ability to do intellisense (you know that feature where it guesses as you type what class name your typing and as soon as it gets it right you can hit enter and it completes it for you? well, if you prefix every class with C, you always have at least 1 extra letter to type)...

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I cannot find a link but I remember reading somewhere (which I agree with) that avoiding Hungarian notation results in better programming style.

When you program a statement of your program, you should not be thinking about "what type this object is" before calling its method, but rather you should think "what do I want to do with it", "which message to send to it".

Kind of vague concept to explain, but I think it works.

For example, if you have customer name stored in variable customerName, you should not care if it is a string or some other class. More important to think what do you want from this object. Do you want it to print(), getFirstName(), getLastName(), convertToString() etc. Once you make it an instance of String class and take it as granted, you limit yourself and your design since you have to build up all other logic you need elsewhere in the code.

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For years I used Hungarian notation in my programming. Other than some visual clutter and the task of changing the prefix when I changed the data type, no one could convince me otherwise. Until recently--when I had to combine existing C# and VB.NET assemblies in the same solution.

The result: I had to pass a "fltSomeVariable" to a "sngSomeVariable" method parameter. Even as someone who programs in both C# and VB.NET, it caught me off guard and made me pause for a moment. (C# and VB.NET sometimes use different names to represent the same data type--float and single, for example.)

Now consider this: what if you create a COM component that's callable from many languages? The VB.NET and C# "conversion" was easy for a .NET programmer. But what about someone that develops in C++ or Java? Does "dwSomeVariable" mean anything to a .NET developer not familiar with C++?

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If you don't know the type of a variable without being told, you probably shouldn't be messing with it anyways

The type might also not be that important. If you know what the methods do, you can figure out what is being done with the variable and then you'll what the program is doing

There may be times you want it; when type is important and the declaration isn't near or the type can't be inferred with ease. But it should never be seen as absolute

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