Read a string, 3x3 characters at a time

So imagine this string:

``````    _  _     _  _  _  _  _
| _| _||_||_ |_   ||_||_|
||_  _|  | _||_|  ||_| _|
``````

What would be the easiest / nicest way of splitting this string so that each number could be handled by it self?

I'm thinking of something like

``````public string[] SplitIntoNumbers(string input)
``````

where the result would be like

``````["     |  |", " _  _||_ ", " _  _| _|", ...]
``````

Any ideas?

Edit
For thous wanting some more information - The problem comes from the BankOCR-kata over at CodingDojo. I realize that there are multiple ways of 'just get the job done'-solutions, but I felt that there had to be a more 'fancy' way of solving it. Something clojure-alike.

-
Do you have to use string input, or can you use a Nx3 array of chars, then split off each group in a 3x3 char struct? What's the reasoning for strings here (they're really meant to work with one dimensional strings where each char represents one character). – ssube Aug 29 '11 at 20:44
what is (input) parameter looks like? Can you write an example ? – Tigran Aug 29 '11 at 20:47
– csharptest.net Aug 30 '11 at 1:26

What would be the easiest / nicest way of splitting this string so that each number could be handled by it self?

... I think you may be approaching this from a little too much of an OO perspective. What your talking about is really a 'font' more than it is a collection of characters. I would frankly just wrap up the logic into a single class and define the character data exactly as you did for this post. It's easy to see, edit, and maintain.

I didn't understand from your original post if your ultimate goal was just rendering, or if it was parsing. Anyway I couldn't just stop at only numbers ;)

``````    static void Main()
{
LineBuffers lb = new LineBuffers(80 / 3);
lb.Write(0, "-_ 1234567890");
Console.WriteLine(String.Join(Environment.NewLine, lb.Lines.ToArray()));
Console.WriteLine();

lb.Clear();
lb.Write(0, "abcdefghijklm");
Console.WriteLine(String.Join(Environment.NewLine, lb.Lines.ToArray()));
Console.WriteLine();

lb.Clear();
lb.Write(0, "nopqrstuvwxyz");
Console.WriteLine(String.Join(Environment.NewLine, lb.Lines.ToArray()));
Console.WriteLine();

lb = new LineBuffers(" _     _  _  _ ", "|_| _ |  |_ |_|", @"|\ |_||_-|_ |\ ");

}

public class LineBuffers
{
private static string Characters = " -0123456789_abcdefghijklmnopqrstuvwxyz";
private static readonly string[] Format =
(
@".   .   . _ .   . _ . _ .   . _ . _ . _ . _ . _ .   . _ .   . _ .   . _ . _ . _ .   . _ .  _.   .   .   .   .   . _ . _ . _ . _ .___.   .   .   .   .   .__ ." + "\n" +
@".   . _ .| |.  |. _|. _|.|_|.|_ .|_ .  |.|_|.|_|.   .|_|.|_ .|  . _|.|_ .|_ .|  .|_|. | .  |.|/ .|  .|\|.|\|. _ .|_|.|_|.|_|./_ . | .| |.| |.|||. \/. \/. / ." + "\n" +
@".   .   .|_|.  |.|_ . _|.  |. _|.|_|.  |.|_|. _|.___.| |.|_|.|_ .|_|.|_ .|  .|_-.| |. | . _|.|\ .|_ .|||.| |.|_|.|  .  |.|\ . _/. | .|_|.|/ .|/|. /\. | ./_ ."
).Split('\n');

public LineBuffers(int charWidth)
{
_lines = new char[3][] {new char[charWidth*3], new char[charWidth*3], new char[charWidth*3]};
Clear();
}

public LineBuffers(string line1, string line2, string line3)
: this(line1.ToCharArray(), line2.ToCharArray(), line3.ToCharArray()) { }

public LineBuffers(char[] line1, char[] line2, char[] line3)
{
if (line1 == null || line2 == null || line3 == null
|| line1.Length != line2.Length || line2.Length != line3.Length)
throw new ArgumentException();

_lines = new char[3][] {
line1, line2, line3
};
}

public int Count { get { return _lines[0].Length / 3; } }
public IEnumerable<string> Lines { get { return _lines.Select(chars => new String(chars)); } }

public void Clear()
{
for (int i = 0; i < Count; i++)
Write(i, ' ');
}

public void Write(int position, IEnumerable<Char> character)
{ foreach (char ch in character) Write(position++, ch); }

public void Write(int position, Char character)
{
int charIx = Characters.IndexOf(Char.ToLower(character));
if (charIx < 0)
throw new ArgumentOutOfRangeException("character");
if (position >= Count)
throw new ArgumentOutOfRangeException("position");

int offset = charIx*4 + 1;
for(int line=0; line <3; line++)
Array.Copy(Format[line].ToCharArray(offset, 3), 0, _lines[line], position * 3, 3);
}

{
if (position >= Count)
throw new ArgumentOutOfRangeException("position");

IEnumerable<int> found = Find(Format[0], _lines[0], position*3)
.Intersect(Find(Format[1], _lines[1], position*3))
.Intersect(Find(Format[2], _lines[2], position*3));

int[] result = found.ToArray();
if (result.Length != 1)
throw new FormatException();
return Characters[result[0]];
}

IEnumerable<int> Find(string findIn, char[] text, int charIx)
{
for(int i=1; i < findIn.Length; i += 4)
{
if (findIn[i] == text[charIx] && findIn[i + 1] == text[charIx + 1] && findIn[i + 2] == text[charIx + 2])
yield return i/4;
}
}

{
char[] text = new char[Count];
for (int ix = 0; ix < Count; ix++)
return new String(text);
}
}
``````

The preceeding program outputs the following text:

``````             _  _     _  _  _  _  _  _
_         | _| _||_||_ |_   ||_||_|| |
___     ||_  _|  | _||_|  ||_| _||_|

-_ 1234567890
_     _     _  _  _     _   _
|_||_ |   _||_ |_ |  |_| |   ||/ |  |\|
| ||_||_ |_||_ |  |_-| | |  _||\ |_ |||

abcdefghijklm
_  _  _  _ ___               __
|\| _ |_||_||_|/_  | | || |||| \/ \/ /
| ||_||    ||\  _/ | |_||/ |/| /\ | /_

nopqrstuvwxyz
``````
-

Straight to the point:

``````    public static string[] SplitIntoNumbers(string input)
{
List<string> result = new List<string>();
string[] subStrs = input.Split(new char[] { '\r', '\n' }, 3, StringSplitOptions.RemoveEmptyEntries);
for (int it = 0; it < subStrs[0].Length; it += 3)
{
+ subStrs[1].Substring(it, 3)
+ subStrs[2].Substring(it, 3));
}
return result.ToArray();
}
``````

``````    static string str =
@"
_  _     _  _  _  _  _
| _| _||_||_ |_   ||_||_|
||_  _|  | _||_|  ||_| _|";
``````
-
I get `IndexOutOfRangeException` -- add the input string you used, to your question. – Zabba Aug 29 '11 at 21:00

I would use regex to build up a list of matches with a pattern similar to this

``````(.{3})
``````

this would break the input into chunks of 3x1 matches, and depending on how many matches you have would determine the numbers. For example

``````    _  _     _  _  _  _  _
| _| _||_||_ |_   ||_||_|
||_  _|  | _||_|  ||_| _|
``````

would generate 27 matches of 3x1 segments, and since each number is 3 lines high you can just take the 27 / 3 = 9 separate numbers. Then you would just have to loop through the regex matches and combine them into the output that you want.

``````void Main()
{
string input = "    _  _     _  _  _  _  _ \r\n  | _| _||_||_ |_   ||_||_|\r\n  ||_  _|  | _||_|  ||_| _|";

string[] result = SplitIntoNumbers(input);
}

public string[] SplitIntoNumbers(string input)
{
List<string> results = new List<string>();

Regex rx = new Regex("(.{3})");
MatchCollection matches = rx.Matches(input);
int totalNumbers = matches.Count / 3;

for(int i = 0; i < totalNumbers; i++)
{
string s = string.Concat(matches[i].Value, matches[i + totalNumbers].Value, matches[i + (totalNumbers * 2)].Value);

}

return results.ToArray();
}
``````
-
Creative, and I guess it would work, but I'm really tempted to play the old 'now you got two problems'-card on this one :-) – Vegar Aug 30 '11 at 18:36

Assuming you want to keep the array of strings for input, we could loop very simply through the lines pulling 3 chars at a time.

``````    var numbers = new[]
{
"    _  _     _  _  _  _  _ ",
"  | _| _||_||_ |_   ||_||_|",
"  ||_  _|  | _||_|  ||_| _|"
};

// just in case length is off on one, don't want to crash
var length = numbers.Min(line => line.Length);
var results = new List<string>();

// go by groups of three
for (int i = 0; i < length; i += 3)
{
var builder = new StringBuilder();
for (int j = 0; j < numbers.Length; j++)
{
builder.Append(numbers[j].Substring(i, 3));
}

}

// print the results
foreach (var digit in results)
{
Console.WriteLine(digit);
}
``````
-

``````    public static string[] SplitIntoNumbers(this string str)
{
var lines = str.Split(new[] { '\r', '\n' }, StringSplitOptions.RemoveEmptyEntries);
var columns = lines
.Select(x => x.InSetsOf(3).Select(y => new string(y.ToArray())).ToList())
.ToList();
var numbers = Enumerable.Range(0, columns[0].Count)
.Select(x => columns[0][x] + columns[1][x] + columns[2][x])
.ToArray();
return numbers;
}
``````

assuming a compatible implementation of InSetsOf() is available.

usage:

``````        var result = input.SplitIntoNumbers();
``````
-