# Image Projection to Equidistant Cylindrical Map Projection (Java)

I need to create a Equidistant Cylindrical projected/transformed image from an image that I have. The formula for the equidistant cylindrical is http://sphotos-e.ak.fbcdn.net/hphotos-ak-ash3/525279_4306756439568_1150093099_n.jpg .

The code I have is adapted from a code of a Mercator projection with formula http://sphotos-g.ak.fbcdn.net/hphotos-ak-ash3/72384_4306756599572_459887390_n.jpg , which I do not fully understand so it outputs the wrong image.

``````import java.awt.image.BufferedImage;
import java.io.File;
import java.io.IOException;
import javax.imageio.ImageIO;

public class EquidistantCylindrical {

public static void main(String args[]) throws IOException {

int[][] rgb = convertTo2DUsingGetRGB(hugeImage);

double minLat = -75.0;
double maxLat = 75.0;

BufferedImage newImage = reprojMerc(hugeImage, minLat, maxLat);

File outputfile = new File("worldmapprojected.jpg");
ImageIO.write(newImage, "jpg", outputfile);

}

public static int[][] convertTo2DUsingGetRGB(BufferedImage image) {
int widthimg = image.getWidth();
int heightimg = image.getHeight();
int[][] result = new int[widthimg][heightimg];

for (int row = heightimg; row > heightimg; row--) {
for (int col = widthimg; col > widthimg; col--) {
result[row][col] = image.getRGB(col, row);
}
}

return result;
}

public static BufferedImage reprojMerc(BufferedImage img, double minlat, double maxlat) {
// Convert the coords into a sensible format.
minlat *= Math.PI / 180;
maxlat *= Math.PI / 180;
double dlat = maxlat - minlat;
System.out.println(dlat);
// Convert to cylindrical
double minmerc = Math.cos(minlat);
double maxmerc = Math.cos(maxlat);
double dmerc = maxmerc + minmerc;
System.out.println(dmerc);

// Setting dimensions of new image
int width = img.getWidth();
int height = img.getHeight();
int projected_width = (int)(width*dmerc/dlat)*10;
System.out.println(projected_width);
int projected_height = height;
BufferedImage pimg = new BufferedImage(projected_width, projected_height, img.getType());

// Copy the lines.
for (int py = 0; py < projected_height; py++) {
double merc = maxmerc - dmerc * ((double) py) / projected_height;
double lat = 2 * Math.atan(Math.exp(merc)) - Math.PI / 2;
int gy = (int) (height * (maxlat - lat) / dlat);

int[] rgb = img.getRGB(0, gy, width, 1, null, 0, 4 * width);
pimg.setRGB(0, py, projected_width, 1, rgb, 0, 4 * projected_width);
}
return pimg;
}
}
``````