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I have a vector full of Lat Long coordinates in this format

82.0000000, -180.0000000

I am trying to convert them into an X and a Y coordinate to plot them to a map using this code, which as far as i can see is right...


double testClass::getX(double lon)
    // Convert long to X coordinate (2043 = map width)
    double x =  lon;
    // Scale
    x =         x * 2043.0 / 360.0;
    // Center
    x +=        2043.0/2.0;
    return x;


double testClass::getY(double lat)
    // Convert lat to Y coordinate (1730 = map height)
    double y =  -1 * lat;
    // Scale
    y =         y * 1730.0 / 180.0;
    // Center
    y +=        1730.0/2.0;
    return y;

However when plotted on my map i can see the points do resemble a world map but they are all off by x amount and i think its something to do with my scaling

any ideas?

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marked as duplicate by ChrisF Oct 2 '13 at 18:34

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

I think you are running afoul of map projections. You need to use the same projective transform in your code as was used for generating the map. – indeterminately sequenced Apr 18 '13 at 10:25
The Earth is round, lines of latitude are closer together at the top and bottom than they are in the middle. You need a transform function (projection) to map the points from the surface of a sphere to two dimensions. – Jonathan Potter Apr 18 '13 at 10:57
Maybe start with – Jonathan Potter Apr 18 '13 at 11:11
@AngryDuck Don't be discouraged by all the maths. The relevant formulas at that Wolfram page are just the first two, x=... and y=..., and while formulas for y may seem confusing, it's nothing but several alternative formulas which should give same result. – hyde Apr 18 '13 at 12:20
@AngryDuck: In the above link, lambda is your longitude and phi is your latitude. You must pick a lambda_0 as the center longitude of the map. From these three values you get x and y. X is the horizontal map position of your lat/long and is between -180 and +180 degrees, and y is the vertical map position between -90 and +90 degrees. I trust you to seamlessly convert between radians and degrees. – mars Apr 18 '13 at 12:39

1 Answer 1

up vote 7 down vote accepted

Ok i found the answer to this

double testClass::getX(double lon, int width)
    // width is map width
    double x = fmod((width*(180+lon)/360), (width +(width/2)));

    return x;

double testClass::getY(double lat, int height, int width)
    // height and width are map height and width
    double PI = 3.14159265359;
    double latRad = lat*PI/180;

    // get y value
    double mercN = log(tan((PI/4)+(latRad/2)));
    double y     = (height/2)-(width*mercN/(2*PI));
    return y;

so yea this works perfectly when using a mercator map

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Looks good. I hope you can see how these functions correspond to the formulas (this uses the first formula for y) shown at that page – hyde Apr 18 '13 at 12:51
Yup thanks dude – AngryDuck Apr 18 '13 at 12:58

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