# Which comes first in a 2D array, rows or columns?

When creating a 2D array, how does one remember whether rows or columns are specified first?

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Java is considered "row major", meaning that it does rows first. This is because a 2D array is an "array of arrays".

For example:

``````int[ ][ ] a = new int[2][4];  // Two rows and four columns.

a[0][0] a[0][1] a[0][2] a[0][3]

a[1][0] a[1][1] a[1][2] a[1][3]
``````

It can also be visualized more like this:

``````a[0] ->  [0] [1] [2] [3]
a[1] ->  [0] [1] [2] [3]
``````

The second illustration shows the "array of arrays" aspect. The first array contains `{a[0] and a[1]}`, and each of those is an array containing four elements, `{[0][1][2][3]}`.

TL;DR summary:

``````Array[number of arrays][how many elements in each of those arrays]
``````

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I enjoyed the visualization provided in this answer. – Donato Jun 13 '15 at 17:35

While Matt B's may be true in one sense, it may help to think of Java multidimensional array without thinking about geometeric matrices at all. Java multi-dim arrays are simply arrays of arrays, and each element of the first-"dimension" can be of different size from the other elements, or in fact can actually store a null "sub"-array. See comments under this question

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This is a real answer. – Luiggi Mendoza Jul 25 '12 at 3:22
+1 for expressing contrast of ARRAY vs MATRIX! Arrays have no geometric definition. If you think a 1D array is vertical then row is first, if you think a 1D array is horizontal then col is first. When using a rectangular 2D array there is no logical distinction, as long as you keep it the same throughout your code. IMPLEMENT ACCORDING TO YOUR USAGE! (don't make yourself traverse the first element of each subarray when you could just traverse the first subarray) – Ron E Feb 21 '14 at 5:45

Instinctively one thinks geometrically: horizontal (X) axis and then vertical (Y) axis. This is not, however, the case with a 2D array, rows come first and then columns.

Consider the following analogy: in geometry one walks to the ladder (X axis) and climbs it (Y axis). Conversely, in Java one descends the ladder (rows) and walks away (columns).

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@Luiggi Please refer to It's OK to Ask and Answer your Own Question In which you will find (among other things): `To be crystal clear, it is not merely OK to ask and answer your own question, it is explicitly encouraged.` – Matt B Jul 25 '12 at 2:58
That applies to questions like this one or this good question. Also, see that both questions are community wiki (the votes doesn't add reputation to these people), they have a good explanation and are done to help people, not to get benefit for themselves. – Luiggi Mendoza Jul 25 '12 at 3:03
@Zéychin This would probably be more appropriate in chat. – Matt B Jul 25 '12 at 3:06
It is OK to imagine the transpose. i.e., if you imagine that columns come first then rows it is really O.K. . and this is common in matrix operations algorithms written in Java . – Muhammad Annaqeeb Oct 29 '13 at 1:24

In Java, there are no multi-dimension arrays. There are arrays of arrays. So:

``````int[][] array = new int[2][3];
``````

It actually consists of two arrays, each has three elements.

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"... each has 3 arrays." did you mean "each has 3 elements." ? – Muhammad Gelbana Jul 25 '12 at 3:09

All depends on your visualization of the array. Rows and Columns are properties of visualization (probably in your imagination) of the array, not the array itself.

It's exactly the same as asking is number "5" red or green?

I could draw it red, I could draw it greed right? Color is not an integral property of a number. In the same way representing 2D array as a grid of rows and columns is not necessary for existence of this array.

2D array has just first dimention and second dimention, everything related to visualizing those is purely your flavour.

When I have char array `char[80][25]`, I may like to print it on console rotated so that I have 25 rows of 80 characters that fits the screen without scroll.

I'll try to provide viable example when representing 2D array as rows and columns doesn't make sense at all: Let's say I need an array of 1 000 000 000 integers. My machine has 8GB of RAM, so I have enough memory for this, but if you try executing `var a = new int[1000000000]`, you'll most likely get OutOfMemory exception. That's because of memory fragmentation - there is no consecutive block of memory of this size. Instead you you can create 2D array 10 000 x 100 000 with your values. Logically it is 1D array, so you'd like to draw and imagine it as a single sequence of values, but due to technical implementation it is 2D.

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Interesting point! I never thought of how an array of arrays would use memory fragmentation. To further drive it home, the first number would represent the number of pointers, and the second number represents the length of the array pointed to by each pointer (which also means the 2D version of the 1D array actually allocates MORE memory for the sake of those pointers). – 4castle May 18 at 3:08
@4castle, you are right, jagged array will use slightly more memory than equivalent fixed size 2D array, but sometimes it may save you from OutOfMemory exception surprisingly. I think it's because of .NET trying to allocate big objects using consecutive memory blocks (not sure why virtual memory blocks mapping doesn't solve the problem). I'm not an expert in .NET memory model though, so don't take it as a fact. – Oleksandr Pshenychnyy May 18 at 9:23
.NET? This was a Java question. Does the Windows JVM use .NET? – 4castle May 18 at 22:57
@4castle, Sorry, I forgot already it's Java question, but I'm pretty sure there is not much differences in .NET and JVM in terms of representing jagged and simple 1-dimentional arrays in memory. – Oleksandr Pshenychnyy May 19 at 9:38

In java the rows are done first, because a 2 dimension array is considered two separate arrays. Starts with the first row 1 dimension array.

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This is in C# not Java. In the Java programming language, a multidimensional array is an array whose components are themselves arrays. So each component arrays may have a different length. This notation you are writing is in C#, which force rectangular 2D array - which java do not have - which is equivalent to forcing all component arrays to have equal length. – Muhammad Annaqeeb Oct 8 '13 at 20:27
Thank You :) Muhammad Annaqeeb – Nour Lababidi Jun 11 '14 at 3:45
Thank You, I didn't know the part about the rectangular 2D array part. That's helpful answer. – Nour Lababidi Jul 29 '15 at 17:39
I've updated my answer to more detailed and correct answer. Thank You, – Nour Lababidi Dec 31 '15 at 20:09