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I have encountered the ATOM type in the Win32api and also in the Acrobat API there is ASAtom.

As far as I can tell, atoms are keys for a hash table usually of strings to enable fast look up and share data between applications. Is this correct and what is the etymology of the atom type?


After some extensive searching I noticed Prolog uses atoms, so there must be some origin to this word. It seems it used to refer to any single piece of data.

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Yes, there is an origin to the word. It comes from the Greek word ἄτομος (atomos), meaning "indivisible". (tongue in cheek...) – Mehrdad May 10 '12 at 0:44
I think X11 had the Atom concept too - to allow the client app to store a piece of data in the X server. – John3136 May 10 '12 at 0:59
@Mehrdad: That helped out a lot, it would explain why an ATOM is defined as typedef WORD ATOM because a word is the addressable unit by the CPU (i.e. not divisible). – Jesse Good May 10 '12 at 1:00
@JesseGood: Haha yes... except that it should probably instead be a larger type like UINT_PTR, since CPUs nowadays address 32-bit and 64-bit chunks. :) – Mehrdad May 10 '12 at 1:01
@Mehrdad: On Windows its defined as unsigned short (probably because it originated from 16-bit windows, but Acrobat API defines it as unsigned long. – Jesse Good May 10 '12 at 1:03
up vote 8 down vote accepted

ATOM is a 16-bit Windows handle-like primitive. It's value is completely opaque to user-mode. It is not a pointer or an index.

typedef unsigned short ATOM;

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I'm guessing they are generated using some internal hash function? – Jesse Good May 10 '12 at 21:21
No. They are indexes into a handle table in kernel mode. They are deliberately opaque because leaking kernel mode pointers to user-mode is a security violation. – SecurityMatt May 11 '12 at 3:46
Thanks that was helpful. It seems that windows uses atoms internally for efficiently storing and retrieving strings. – Jesse Good May 11 '12 at 3:57
(I linked to the same site in my question) – Jesse Good May 11 '12 at 4:23

The earliest thing I can find about the term "atom" is from the Lisp programming language (source). However, it probably originally came from mathematical logic. In programming they are also called Symbols and at its simplest form are name integers (an enumerated type in C would be an example). However, they are widely used in many programming languages and in the Win32 API and Acrobat API they are identifiers for strings in a table.

Also, as Mehrdad points out, the original meaning in Greek is "indivisible", so they imply a primitive data type which cannot be broken down any further.

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Which is why the name for an atom (the physics/chemistry thing) is arguably incorrect. – Mahmoud Al-Qudsi May 10 '12 at 2:59
A good explanation makes for learning. – Paul Jul 1 '15 at 8:32

As for the etymology of the name ATOM, I know I've once seen it in some old Microsoft Win32 API documentation that it is an acronym of "Access to Memory" or something like that. It is a term used for simple numerical identifiers (other name is "handles") which represent some internal data structures in the system.

From obvious reasons, it wouldn't be smart to give the user direct pointers to these structures. First, because they reside in kernel space, and second, because it violates encapsulation. The user could then just free the memory which doesn't belong to it, or overwrite it, or some other stupid ideas. So the operating system simply gives it some replacement number tag (that's the ATOM), which then could be used to request the data from the system. It's also faster for the user to pass around the little number instead of the whole huge data structure. Users don't need to care about memory allocations & stuff, or accessing some data through pointers which are no longer valid, which could simply crash their programs.

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Users don't need to care about memory allocations... You know that also ATOM tables have limits, this is especially true for the global atom table. – Wolf Feb 23 '15 at 14:06
You've got me wrong. I was not talking about allocation space, but about allocation method. That is, users don't have to care about how to allocate memory for these objects and where, they don't need to deal with all the fuss of allocating, freeing, and checking for invalid pointers. But of course they still need to care about how much memory they allocate for their resources. But I thought this is obvious. – SasQ Feb 24 '15 at 14:38
Yes, that's clear to both of us. Your answer still seems a little too optimistic. Why do you not just name the reduction of the most annoying aspects of memory management (ressource leaks, dangeling pointers)? The allocation itself can fail, and this of course has to be checked. – Wolf Feb 24 '15 at 15:07
Sure, but as I said, those are the unimportant details which are irrelevant to the original question asked. Why to bother stating the obvious at all? If the original poster didn't asked about them, I assume he is smart and aware of these details. He only asks about what is ATOM. But if you think otherwise, why don't you add your own answer? – SasQ Feb 25 '15 at 18:09
Ok. Your approach to this question was not easy to get for me, because I found it (the question) searching for the width of the ATOM type. (sure it's 16 bits, but on purpose? For all future? ... MS itself isn't clear about this) – Wolf Feb 26 '15 at 8:49

The RegisterClass / RegistrClassEx functions (and a few others) return an ATOM data type.

The ATOM uniquely identifies the class being registered, but if the function fails it returns zero, so you can test if the function has failed like this

ATOM a=0;
a = RegisterClassEx(your_window);
if (0==a)
    //code for function failed
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