Program to print Sierpinski triangle

i was just looking Wikipedia pages and i found this Sierpinski triangle

i want to create this triangle by java,c,scala etc.

1
111
11111
1111111
111111111
11111111111
1111111111111
111111111111111
1               1
111             111
11111           11111
1111111         1111111
111111111       111111111
11111111111     11111111111
1111111111111   1111111111111
111111111111111 111111111111111
1                               1
111                             111
11111                           11111
1111111                         1111111
111111111                       111111111
11111111111                     11111111111
1111111111111                   1111111111111
111111111111111                 111111111111111
1               1               1               1
111             111             111             111
11111           11111           11111           11111
1111111         1111111         1111111         1111111
111111111       111111111       111111111       111111111
11111111111     11111111111     11111111111     11111111111
1111111111111   1111111111111   1111111111111   1111111111111
111111111111111 111111111111111 111111111111111 111111111111111

i just create simple program like we create simple pattern in c i wrote this in scala

def ft(n: Int) = {
for (i <- 1 to n) {
for (j <- n to i by -1) {
print(" ")
}
for (k <- 1 to 2 * i - 1) {
print("1")

}
print("\n")
}
}

to print this

1
111
11111
1111111
111111111

and this :

def triangle = {
for (i <- 1 to 5) {
for (j <- 1 to 5) {
if (j <= i)
print("1")
else
print(" ")
}
for (j <- 5 to 1 by -1) {
if (j <= i)
print("1");
else
print(" ");
}
print("\n");
}
}

how to create this Sierpinski triangle ?

just give me idea to solve this ?

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You have tagged 5 languages. In which language do you want the solution? –  user1990169 Nov 25 '13 at 7:35
i am just looking for logic to solve this triangle. You can provide in any language –  Rahul Kulhari Nov 25 '13 at 7:38
The logic is to use recursion. Each triangle can be split into four smaller ones. Leave the middle one blank and call yourself recursively on the other three. At some arbitrary point stop the recursion and use your routine to draw normal triangles. –  john Nov 25 '13 at 7:40
@RahulKulhari: The tools you use do tend to "colour" the approach you use to solve this problem. Java, for example, is an OO-only language, C is anything but OO. Solving this in Scheme/lisp will be an all-function-effort, as will JavaScript, whereas using Perl will yield code-golfing style answers... –  Elias Van Ootegem Nov 25 '13 at 7:40

I don't know Scala or Java, but it seems that the language doesn't matter to you. Here's a solution in PostScript:

/Sierp {    % x1 y1 x2 y1 x3 y3 depth
13 dict begin
/D exch def
/Y3 exch def
/X3 exch def
/Y2 exch def
/X2 exch def
/Y1 exch def
/X1 exch def

D 0 le {
newpath
X1 Y1 moveto
X2 Y2 lineto
X3 Y3 lineto
fill
} {
/X12 X1 X2 add 0.5 mul def
/Y12 Y1 Y2 add 0.5 mul def
/X23 X2 X3 add 0.5 mul def
/Y23 Y2 Y3 add 0.5 mul def
/X31 X3 X1 add 0.5 mul def
/Y31 Y3 Y1 add 0.5 mul def

X1 Y1 X12 Y12 X31 Y31 D 1 sub Sierp
X12 Y12 X2 Y2 X23 Y23 D 1 sub Sierp
X31 Y31 X23 Y23 X3 Y3 D 1 sub Sierp
} ifelse

end
} bind def

/Sierpinski {   % xc yc radius depth
4 dict begin
/D exch def
/R exch def
/Y exch def
/X exch def

X
D
Sierp
end
} bind def

300 400 250 6 Sierpinski
showpage
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I have written Sierpinski triangle program in JavaScript. This JavaScript code runs in Chrome.

Sierpinski triangle . To see the code click in the upper right side a link "edit in JsFiddle". The idea here is to generate data then draw circles for each number.

function Triangle() {}

Triangle.prototype.height = function () {
return this.data.length;
}

Triangle.prototype.scale = function scale(ctx, height) {
ballsfits = this.canvas.width / 2;
ballsgot = height;
var scale = ballsfits / ballsgot;
ctx.scale(scale, scale);
return scale;
}

Triangle.prototype.init = function () {
this.canvas = gCanvas();
var ctx = this.canvas.getContext("2d");
this.canvas.width = this.canvas.width; //clear
ctx.strokeStyle = "#000";
return ctx;
}

Triangle.prototype.generate = function (height) {
//init
this.data = new Array();
this.data.push([1]);
this.data.push(new Array(1, 1));

for (var i = 2; i < height; i++) {
var cRow = [1];
// add each two members of preceeding row
for (var j = 0; j < this.data[i - 1].length - 1; j++)
cRow.push((this.data[i - 1][j] + this.data[i - 1][j + 1]) % 2);
cRow.push(1);
this.data.push(cRow);
}
}

Triangle.prototype.draw = function () {
var h = this.height();
var ctx = this.init();
var scale = this.scale(ctx, h);
for (var y = 0; y < h; y++)
for (var x = 0; x < this.data[y].length; x++)
if (0 != this.data[y][x]) {
ctx.beginPath();
ctx.arc(h - this.data[y].length + x * 2 + 1, y * 2 + 1, 1, 0, Math.PI * 2);
ctx.fill();
}
}
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There are multiple ways to do this by structuring the index in a clever way involving a power of 2 somewhere as expected but as always python has one of the cleanest representation albeit somewhat backward

def sierpinski(n):
d = ["*"]
for i in xrange(n):
sp = " " * (2 ** i)
d = [sp+x+sp for x in d] + [x+" "+x for x in d]
return d

print "\n".join(sierpinski(4))

The trick is to realize it's not printing the * that makes up the triangle but all the spaces as well, change " " in the code to "c" and you will see the following. Idea is it starts with a basic pattern and keeps appending to its head and tail so you start with 2 elements, then 4, then 8, finally 16. and since python prints list with newline delimiters you naturally get the pattern you are looking for.

sp is c
['c*c', '*c*']

sp is cc
['ccc*ccc', 'cc*c*cc', 'c*ccc*c', '*c*c*c*']

sp is cccc
['ccccccc*ccccccc', 'cccccc*c*cccccc', 'ccccc*ccc*ccccc', 'cccc*c*c*c*cccc', 'ccc*ccccccc*ccc', 'cc*c*ccccc*c*cc', 'c*ccc*ccc*ccc*c', '*c*c*c*c*c*c*c*']

sp is cccccccc
['ccccccccccccccc*ccccccccccccccc', 'cccccccccccccc*c*cccccccccccccc', 'ccccccccccccc*ccc*ccccccccccccc', 'cccccccccccc*c*c*c*cccccccccccc', 'ccccccccccc*ccccccc*ccccccccccc', 'cccccccccc*c*ccccc*c*cccccccccc', 'ccccccccc*ccc*ccc*ccc*ccccccccc', 'cccccccc*c*c*c*c*c*c*c*cccccccc', 'ccccccc*ccccccccccccccc*ccccccc', 'cccccc*c*ccccccccccccc*c*cccccc', 'ccccc*ccc*ccccccccccc*ccc*ccccc', 'cccc*c*c*c*ccccccccc*c*c*c*cccc', 'ccc*ccccccc*ccccccc*ccccccc*ccc', 'cc*c*ccccc*c*ccccc*c*ccccc*c*cc', 'c*ccc*ccc*ccc*ccc*ccc*ccc*ccc*c', '*c*c*c*c*c*c*c*c*c*c*c*c*c*c*c*']

ccccccccccccccc*ccccccccccccccc
cccccccccccccc*c*cccccccccccccc
ccccccccccccc*ccc*ccccccccccccc
cccccccccccc*c*c*c*cccccccccccc
ccccccccccc*ccccccc*ccccccccccc
cccccccccc*c*ccccc*c*cccccccccc
ccccccccc*ccc*ccc*ccc*ccccccccc
cccccccc*c*c*c*c*c*c*c*cccccccc
ccccccc*ccccccccccccccc*ccccccc
cccccc*c*ccccccccccccc*c*cccccc
ccccc*ccc*ccccccccccc*ccc*ccccc
cccc*c*c*c*ccccccccc*c*c*c*cccc
ccc*ccccccc*ccccccc*ccccccc*ccc
cc*c*ccccc*c*ccccc*c*ccccc*c*cc
c*ccc*ccc*ccc*ccc*ccc*ccc*ccc*c
*c*c*c*c*c*c*c*c*c*c*c*c*c*c*c*
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