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Can someone please help me. I understand the equation of a line and how to solve for the zero intercept on paper, but I have trouble converting it to code. More specifically, I need to calculate the point at which a line intercepts any given X or Y coordinate with two different functions...

double CalcLineYIntercept(LINE *line, double yintercept) { }
double CalcLineXIntercept(LINE *line, double xintercept) { }

So, CalcLineYIntercept would return the X coordinate of the point where the line intercepts yintercept (not necessarily zero). I have trouble converting algebraic equations to code (and yes I understand that C++ is an algebraic language, but the code itself does not simply and isolate variables). Is there a simple way to accomplish this?

Thank you very much

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We require the declaration of LINE to answer this. Maybe also write down the formula you want to implement. –  Björn Pollex Oct 29 '10 at 11:52
LINE is simple a coordinate of two points, doubles, x1, y1, x2, y2. y=mx+b is the equation of a line, and y2 - y1 / x2 - x1 is the slope (m), and b is the offset, but I'm not sure how to work b into the equation here, or how to write that into code. I need the n-intercept point (the intercept point for any given coordinate, not just zero) –  user491232 Oct 29 '10 at 11:59
@user491232: Please edit your question and add the information you provided in you comment. –  Björn Pollex Oct 29 '10 at 12:04
So you want to pass an x=(X) (or y=(Y)) and find where your line hits the adjusted axis? –  user245019 Oct 29 '10 at 12:06

2 Answers 2

double CalcLineYIntercept(LINE *line, double yintercept) 
    dx = line->x2 - line->x1;
    dy = line->y2 - line->y1;

    deltay = yintercept - line->y2;
    if (dy != 0) { 
        //dy very close to 0 will be numerically unstable, account for that
        intercept = line->x2 + (dx/dy) * deltay;
    else {
        //line is parrallel to x-axis, will never reach yintercept
        intercept = NaN;

Reverse x and y to get the other function.

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sweet. thank you –  user491232 Oct 29 '10 at 12:16
If this answered your question, perhaps you could accept this question as the answer? –  jilles de wit Nov 1 '10 at 10:39

Subtract yintercept from the line's y-coordinates, then use the math you already know to solve for x when y = 0. Mutatis Mutandis for xintercept.

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awesome. thanks –  user491232 Oct 29 '10 at 12:11

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