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# creating 10.000 connected hexagon page?

I am trying to create 10.000 hexagon connected each other like bee combs.I want to create all of this as a element that after I can import some thing to inside them.But for connecting hexagons together my algorithms stuck after connecting first 6 elements. Here is my algorithm in java. I made in java for testing . And inaddition I want to make them size smaller from before connected.

``````angle= 2*Math.PI/6;
for (int i=0 ;i<6;i++){

double v = i*angle-(15);

pentagon pent = new pentagon(6, 60, a);
a.x=a.x+(int)Math.round(105*Math.cos(v));
a.y=a.y+(int)Math.round(105*Math.sin(v));

``````

and this is my pentagon class

``````import javax.swing.*;
import java.awt.*;
import java.awt.event.*;

/**
*
* @author Meko
*/
public class pentagon extends JPanel {

private int n, r;
private double angle;
public int[] x, y;

Point c;
int posX, posY;

public pentagon(int pieces, int radie, Point center) {

c = center;
n = pieces;
x = new int[n];
y = new int[n];
angle = 2 * Math.PI / n;

posX = c.x + 1024 / 2;
posY = c.y + 1024 / 2;
}

public void drawMe(Graphics g) {

g.drawString("CENTER", posX, posY);
//System.out.print(" xO:  "+x0);
for (int i = 0; i < n; i++) {
double v = i * angle - (6 * 2 * Math.PI / 360) + 15;
x[i] = posX + (int) Math.round(r * Math.cos(v));

//   System.out.print(" x:  "+x[i]);
y[i] = posY + (int) Math.round(r * Math.sin(v));
g.drawString("" + i, x[i], y[i]);
}
g.drawPolygon(x, y, n);

}
``````

}

-
Are you creating HTML or Swing? – Pete Kirkham Sep 10 '10 at 18:29
– mob Sep 10 '10 at 18:37
@Pete Kirkham I will create html but now for trying algorithm I am using java – Ercan Sep 10 '10 at 19:00

Creating a rectangular grid is fairly obvious - just skew a rectangular grid ( either skew it all and get a parallelogram, then use modulo to wrap it, or skew alternate rows/columns to create a rectangular grid ).

Creating a hexagon filled with hexagons is fairly easy too

• in the n th rank, there are 6 bars of n hexes
• the centres of adjacent hexes are displaced twice the distance of the midpoint of one of the faces to the centre

So if you have the x & y co-ordinates of your hexes in two arrays, `polyX` and `polyY`, you get a nested loop:

``````    drawHex ( g, cx, cy, 0 );

for ( int rank = 1; rank < count; ++rank ) {

for ( int bar = 0; bar < 6; ++bar ) {
// x and y are twice midpoint of the previous face * the rank away
// from centre
int x = cx + ( polyX [ ( bar + 4 ) % 6 ] + polyX [ ( bar + 5 ) % 6 ] ) * rank;
int y = cy + ( polyY [ ( bar + 4 ) % 6 ] + polyY [ ( bar + 5 ) % 6 ] ) * rank;

// move by twice the distance of the midpoint of the next face each time
int dx = polyX [ bar ] + polyX [ ( bar + 1 ) % 6 ];
int dy = polyY [ bar ] + polyY [ ( bar + 1 ) % 6 ];

for ( int hex = 0; hex < rank; ++hex ) {
drawHex ( g, x, y, rank );
x += dx;
y += dy;
}
}
}
``````

Full example:

``````import javax.swing.*;
import java.awt.*;

public class Hexagons
{
public static void main ( String...args ) throws Exception
{
SwingUtilities.invokeAndWait ( new Runnable () {
@Override
public void run () {
new Hexagons().run();
}
} );
}

Hexagons ()
{
final JFrame frame = new JFrame();

frame.setDefaultCloseOperation ( JFrame.EXIT_ON_CLOSE );

final JPanel panel = new JPanel () {
@Override
public void paintComponent ( Graphics g ) {
Graphics2D g2D = ( Graphics2D ) g;

g2D.setRenderingHint ( RenderingHints.KEY_ANTIALIASING,
RenderingHints.VALUE_ANTIALIAS_ON );

drawHexes ( g2D, getWidth() / 2, getHeight() / 2 );
}
};

count = 5;

frame.setSize ( 400, 400 );
frame.setVisible ( true );

}

void run () { }

int count;

void drawHexes ( Graphics2D g, int cx, int cy )
{
int count = Math.min ( 20, Math.min ( cx, cy ) / 34 );

drawHex ( g, cx, cy, 0 );

for ( int rank = 1; rank < count; ++rank ) {

for ( int bar = 0; bar < 6; ++bar ) {
int x = ( polyX [ ( bar + 4 ) % 6 ] + polyX [ ( bar + 5 ) % 6 ] ) * rank;
int y = ( polyY [ ( bar + 4 ) % 6 ] + polyY [ ( bar + 5 ) % 6 ] ) * rank;

int dx = polyX [ bar ] + polyX [ ( bar + 1 ) % 6 ];
int dy = polyY [ bar ] + polyY [ ( bar + 1 ) % 6 ];

for ( int hex = 0; hex < rank; ++hex ) {
drawHex ( g, cx + x, cy + y, rank );
x += dx;
y += dy;
}
}
}
}

static int polyX[] = { 20, 10, -10, -20, -10,  10 };
static int polyY[] = {  0, 17,  17,   0, -17, -17 };
static Color fill[] = new Color[20];
static Color line[] = new Color[20];
static BasicStroke stroke = new BasicStroke ( 1.5f );

// make it pretty
static {
for ( int rank = 0; rank < 20; ++rank ) {
double theta0 = rank * 2 * Math.PI / 20;
double theta1 = theta0 + Math.PI * 2.0/3.0;
double theta2 = theta1 + Math.PI * 2.0/3.0;

fill [ rank ] = new Color (
( int ) ( 128 + 64 * Math.sin ( theta0 ) ),
( int ) ( 128 + 64 * Math.sin ( theta1 ) ),
( int ) ( 128 + 64 * Math.sin ( theta2 ) ) );
line [ rank ] = new Color (
( int ) ( 64+ 32 * Math.sin ( theta0 ) ),
( int ) ( 64 + 32 * Math.sin ( theta1 ) ),
( int ) ( 64+ 32 * Math.sin ( theta2 ) ) );
}
}

void drawHex ( Graphics2D g, int cx, int cy, int rank ) {
g.translate ( cx, cy );
g.setPaint ( fill [ rank ] );
g.fillPolygon ( polyX, polyY, 6 );
g.setColor ( line [ rank ] );
g.setStroke ( stroke );
g.drawPolygon ( polyX, polyY, 6 );
g.translate ( -cx, -cy );
}
}
``````
-
+1 Very pretty. – trashgod Sep 10 '10 at 21:31
That is pretty good. But is there any way to make hexes different size? Like center will be bigger? near hexes will be a little smaller.But I think there will be spaces.is there any way to solve it? – Ercan Sep 10 '10 at 21:33
@Meko: You might look at the 7^3 tiling: en.wikipedia.org/wiki/… – trashgod Sep 10 '10 at 23:53

You may get an inspiration from Sergey Malenkov's Hexagonal Tile Map applet.

-
Java applets? im surprised those ancient objects still exist. lol – OTZ Sep 10 '10 at 21:26
Also consider a hybrid approach. – trashgod Dec 13 '12 at 21:00