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Lets say I have an array as:

int a[]={4,5,7,10,2,3,6}

when I access an element, such as a[3], what does it actually happen behind the scene? Why does many algorithm books (such as the Cormen book...) say that it takes a constant time?

(I'm just a noob in low-level programing so I would like to learn more from you guys)

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Just to be complete, "what structure is accessed in linear time?" A Linked List structure is accessed in linear time. To get the n element you have to travel through n-1 previous elements. You know, like a tape recorder or a VHS cassette, where to go to the end of the tape/VHS you had to wait a long time :-)

An array is more similar to an hard disk: every point is accessible in "constant" time :-)

This is the reason the RAM memory of a computer is called RAM: Random Access Memory. You can go to any location if you know its address without traversing all the memory before that location.

Some persons told me that HD access isn't really in constant time (where by access I mean "time to position the head and read one sector of the HD"). I have to say that I'm not sure of it. I have googled around and I haven't found anyone speaking of it. I DO know that the time isn't linear, because it is still accessed randomly. In the end, if you think that HD access isn't constant enough for you (but then, what is constant? the access of the RAM? considering Cache, Prefetching, Data Locality and Compiler optimizations?), feel free to consider the sentence as An array is more similar to an USB disk stick: every point is accessible in "constant" time :-)

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hard disks are a bad example for a random access memory, because that's exactly what they aren't. Maybe use a USB stick or a solid-state disk as example instead? – blubb Sep 4 '11 at 7:41
Yes and no... Technically the "external" part of an HD is faster than the inner part, but we will ignore this. Accessing a file on the HD is done in constant time (or at least not in linear time). If you have one file on an HD or a million files on an HD, accessing one of them will take the same time (not exactly, but it's more a theoretical model than the phisical reality we live in :-) ). – xanatos Sep 4 '11 at 7:44
Can the -1 be explained? I rethought it a little. HD access time is in constant time. Given an HD you have a medium seek time. So seeking the beginning of a file will take that time. – xanatos Sep 4 '11 at 8:05
I did not downvote, but I suspect it is due to the claim that HD access is constant time. If the reading head of a HD is at 3 o'clock on the disc, the time it takes to read another sector is also influenced by the location of said sector. If it's at 9 o'clock it will take considerably longer than if it's adjacent to the sector under the reading head. After all, this is why a lot of fancy optimization strategies have been invented to speed up pseudo-random access on HDs. – blubb Sep 4 '11 at 8:25
When you read something off a spinning hard disk, you first seek to the right track, and then read part or all of the track. The seek time is variable, because it depends on where you start from. That makes hard disk not be accessible in constant time. – Lars Wirzenius Sep 4 '11 at 8:25
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The array, effectively, is known by a memory location (a pointer). Accessing a[3] can be found in constant time, since it's just location_of_a+3*sizeof(int).

In C, you can see this directly. Remember, a[3] is the same as *(a+3) - which is a bit more clear in terms of what it's doing (dereferencing the pointer "3 items" over).

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And because *(a+3) is the same as *(3+a), we can write a[3] also as 3[a], a fact invariably useful in IOCCC and the like. :-) – ShreevatsaR Sep 4 '11 at 7:36
@ShreevatsaR: Yes, but... writing 3[a] doesn't have a lot of practical uses - but using *(a+3) is often useful in real-world scenarios... – Reed Copsey Sep 4 '11 at 7:40
Your explanation would even hold when the index that is used would be a variable, too. But since here it is a constant (3) all computation can even be done by the compiler before hand and at run time the program can access the memory directly. So in fact it is not only constant, but a really small one. – Jens Gustedt Sep 4 '11 at 8:27
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Because arrays are stored in memory sequentially. So actually, when you access array[3] you are telling the computer, "Get the memory address of the beginning of array, then add 3 to it, then access that spot." Since adding takes constant time, so does array access!

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Actually you add 3 multiplied by the size of array elements. – Matteo Sep 4 '11 at 8:14
Well yes, but this is one of those topics that takes a chapter to explain precisely. I was intentionally leaving out details to avoid information overload for a beginner. – Phil Sep 4 '11 at 8:22
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"constant time" really means "time that doesn't depend on the 'problem size'". For the 'problem' "get something out of a container", the 'problem size' is the size of the container.

Accessing an array element takes basically the same amount of time (this is a simplification) regardless of the container size, because a fixed set of steps is used to retrieve the element: its location in memory (this is also a simplification) is calculated, and then the value at that location in memory is retrieved.

A linked list, for example, can't do this, because each link indicates the location of the next one. To find an element you have to work through all the previous ones; on average, you'll work through half the container, so the size of the container obviously matters.

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