Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm going quite mad tring to calculate the point along the given line A-B, at a given distance from A, so that I can "draw" the line between two given points. It sounded simple enough at the outset, but I can't seem to get it right. Worse still, I don't understand where I've gone wrong. Geometry (and math in general) is NOT my strong suite.

I have read similar questions and there answers on SO. In fact I lifted my current implementation of CalculatePoint function directly from Mads Elvheim's answer to: Given a start and end point, and a distance, calculate a point along a line (plus a correction in a later comment - if I understand him correctly) because my indepedent attempts to solve the problem were getting me nowhere, except a first class express ticket frusterpationland.

Here's my UPDATED code (please see the EDIT notes a bottom of post):

using System;
using System.Drawing;
using System.Windows.Forms;

namespace DrawLines
{
    public class MainForm : Form
    {
        // =====================================================================
        // Here's the part I'm having trouble with. I don't really understand
        // how this is suposed to work, so I can't seem to get it right!
        // ---------------------------------------------------------------------

        // A "local indirector" - Just so I don't have go down and edit the 
        // actual call everytime this bluddy thing changes names.
        private Point CalculatePoint(Point a, Point b, int distance) {
            return CalculatePoint_ByAgentFire(a, b, distance);
        }

        #region CalculatePoint_ByAgentFire
        //AgentFire: Better approach (you can rename the struct if you need):
        struct Vector2
        {
            public readonly double X;
            public readonly double Y;
            public Vector2(double x, double y) {
                this.X = x;
                this.Y = y;
            }
            public static Vector2 operator -(Vector2 a, Vector2 b) {
                return new Vector2(b.X - a.X, b.Y - a.Y);
            }
            public static Vector2 operator *(Vector2 a, double d) {
                return new Vector2(a.X * d, a.Y * d);
            }
            public override string ToString() {
                return string.Format("[{0}, {1}]", X, Y);
            }
        }
        // For getting the midpoint you just need to do the (a - b) * d action:
        //static void Main(string[] args)
        //{
        //    Vector2 a = new Vector2(1, 1);
        //    Vector2 b = new Vector2(3, 1);
        //    float distance = 0.5f; // From 0.0 to 1.0.
        //    Vector2 c = (a - b) * distance;
        //    Console.WriteLine(c);
        //}
        private Point CalculatePoint_ByAgentFire(Point a, Point b, int distance) {
            var vA = new Vector2(a.X, a.Y);
            var vB = new Vector2(b.X, b.Y);
            double lengthOfHypotenuse = LengthOfHypotenuseAsDouble(a,b);
            double portionOfDistanceFromAtoB = distance / lengthOfHypotenuse;
            var vC = (vA - vB) * portionOfDistanceFromAtoB;
            Console.WriteLine("vC="+vC);
            return new Point((int)(vC.X+0.5), (int)(vC.Y+0.5));
        }
        // Returns the length of the hypotenuse rounded to an integer, using
        // Pythagoras' Theorem for right angle triangles: The length of the
        // hypotenuse equals the sum of the square of the other two sides.
        // Ergo: h = Sqrt(a*a + b*b)
        private double LengthOfHypotenuseAsDouble(Point a, Point b) {
            double aSq = Math.Pow(Math.Abs(a.X - b.X), 2); // horizontal length squared
            double bSq = Math.Pow(Math.Abs(b.Y - b.Y), 2); // vertical length  squared
            return Math.Sqrt(aSq + bSq); // length of the hypotenuse
        }

        #endregion

        //dbaseman: I thought something looked strange about the formula ... the question 
        //you linked was how to get the point at a distance after B, whereas you want the
        //distance after A. This should give you the right answer, the start point plus 
        //distance in the vector direction.
        //
        // Didn't work as per: http://s1264.photobucket.com/albums/jj496/corlettk/?action=view&current=DrawLinesAB-broken_zps069161e9.jpg
        //
        private Point CalculatePoint_ByDbaseman(Point a, Point b, int distance) {
            // a. calculate the vector from a to b:
            double vectorX = b.X - a.X;
            double vectorY = b.Y - a.Y;
            // b. calculate the length:
            double magnitude = Math.Sqrt(vectorX * vectorX + vectorY * vectorY);
            // c. normalize the vector to unit length:
            vectorX /= magnitude;
            vectorY /= magnitude;
            // d. calculate and Draw the new vector, which is x1y1 + vxvy * (mag + distance).
            return new Point(
                (int)((double)a.X + vectorX * distance)     // x = col
              , (int)((double)a.Y + vectorY * distance)     // y = row
            );
        }

        // MBo: Try to remove 'magnitude' term in the parentheses both for X and for Y expressions.
        //
        // Didn't work as per: http://s1264.photobucket.com/albums/jj496/corlettk/?action=view&current=DrawLinesAB-broken_zps069161e9.jpg
        //
        //private Point CalculatePoint_ByMBo(Point a, Point b, int distance) {
        //    // a. calculate the vector from a to b:
        //    double vectorX = b.X - a.X;
        //    double vectorY = b.Y - a.Y;
        //    // b. calculate the length:
        //    double magnitude = Math.Sqrt(vectorX * vectorX + vectorY * vectorY);
        //    // c. normalize the vector to unit length:
        //    vectorX /= magnitude;
        //    vectorY /= magnitude;
        //    // d. calculate and Draw the new vector, which is x1y1 + vxvy * (mag + distance).
        //    return new Point(
        //        (int)(  ((double)a.X + vectorX * distance)  +  0.5  )
        //      , (int)(  ((double)a.X + vectorX * distance)  +  0.5  )
        //    );
        //}

        // Didn't work
        //private Point CalculatePoint_ByUser1556110(Point a, Point b, int distance) {
        //    Double magnitude = Math.Sqrt(Math.Pow(b.Y - a.Y, 2) + Math.Pow(b.X - a.X, 2));
        //    return new Point(
        //        (int)(a.X + distance * (b.X - a.X) / magnitude + 0.5)
        //      , (int)(a.Y + distance * (b.Y - a.Y) / magnitude + 0.5)
        //    );
        //}

        // didn't work
        //private static Point CalculatePoint_ByCadairIdris(Point a, Point b, int distance) {
        //    // a. calculate the vector from a to b:
        //    double vectorX = b.X - a.X;
        //    double vectorY = b.Y - a.Y;
        //    // b. calculate the proportion of hypotenuse
        //    double factor = distance / Math.Sqrt(vectorX*vectorX + vectorY*vectorY);
        //    // c. factor the lengths
        //    vectorX *= factor;
        //    vectorY *= factor;
        //    // d. calculate and Draw the new vector,
        //    return new Point((int)(a.X + vectorX), (int)(a.Y + vectorY));
        //}

        // Returns a point along the line A-B at the given distance from A
        // based on Mads Elvheim's answer to:
        // http://stackoverflow.com/questions/1800138/given-a-start-and-end-point-and-a-distance-calculate-a-point-along-a-line
        private Point MyCalculatePoint(Point a, Point b, int distance) {
            // a. calculate the vector from o to g:
            double vectorX = b.X - a.X;
            double vectorY = b.Y - a.Y;
            // b. calculate the length:
            double magnitude = Math.Sqrt(vectorX * vectorX + vectorY * vectorY);
            // c. normalize the vector to unit length:
            vectorX /= magnitude;
            vectorY /= magnitude;
            // d. calculate and Draw the new vector, which is x1y1 + vxvy * (mag + distance).
            return new Point(
                (int)(((double)a.X + vectorX * (magnitude + distance)) + 0.5) // x = col
              , (int)(((double)a.Y + vectorY * (magnitude + distance)) + 0.5) // y = row
            );
        }

        // =====================================================================

        private const int CELL_SIZE = 4; // width and height of each "cell" in the bitmap.

        private readonly Bitmap _bitmap; // to draw on (displayed in picBox1).
        private readonly Graphics _graphics; // to draw with.

        // actual points on _theLineString are painted red.
        private static readonly SolidBrush _thePointBrush = new SolidBrush(Color.Red);
        // ... and are labeled in Red, Courier New, 12 point, Bold
        private static readonly SolidBrush _theLabelBrush = new SolidBrush(Color.Red);
        private static readonly Font _theLabelFont = new Font("Courier New", 12, FontStyle.Bold);

        // the interveening calculated cells on the lines between actaul points are painted Black.
        private static readonly SolidBrush _theLineBrush = new SolidBrush(Color.Black);

        // the points in my line-string.
        private static readonly Point[] _theLineString = new Point[] {
            //          x,   y
            new Point(170,  85), // A
            new Point( 85,  70), // B
            //new Point(209,  66), // C
            //new Point( 98, 120), // D
            //new Point(158,  19), // E
            //new Point(  2,  61), // F
            //new Point( 42, 177), // G
            //new Point(191, 146), // H
            //new Point( 25, 128), // I
            //new Point( 95,  24)  // J
        };

        public MainForm() {
            InitializeComponent();
            // initialise "the graphics system".
            _bitmap = new Bitmap(picBox1.Width, picBox1.Height);
            _graphics = Graphics.FromImage(_bitmap);
            picBox1.Image = _bitmap;
        }

        #region actual drawing on the Grpahics

        private void DrawCell(int x, int y, Brush brush) {
            _graphics.FillRectangle(
                brush
              , x * CELL_SIZE, y * CELL_SIZE    // x, y
              , CELL_SIZE, CELL_SIZE        // width, heigth
            );
        }

        private void DrawLabel(int x, int y, char c) {
            string s = c.ToString();
            _graphics.DrawString(
                s, _theLabelFont, _theLabelBrush
              , x * CELL_SIZE + 5   // x
              , y * CELL_SIZE - 8   // y
            );
        }

        // ... there should be no mention of _graphics or CELL_SIZE below here ...

        #endregion

        #region draw points on form load

        private void MainForm_Load(object sender, EventArgs e) {
            DrawPoints();
        }

        // draws and labels each point in _theLineString
        private void DrawPoints() {
            char c = 'A'; // label text, as a char so we can increment it for each point.
            foreach ( Point p in _theLineString ) {
                DrawCell(p.X, p.Y, _thePointBrush);
                DrawLabel(p.X, p.Y, c++);
            }
        }

        #endregion

        #region DrawLines on button click

        private void btnDrawLines_Click(object sender, EventArgs e) {
            DrawLinesBetweenPointsInTheString();
        }

        // Draws "the lines" between the points in _theLineString.
        private void DrawLinesBetweenPointsInTheString() {
            int n = _theLineString.Length - 1; // one less line-segment than points
            for ( int i = 0; i < n; ++i )
                Draw(_theLineString[i], _theLineString[i + 1]);
            picBox1.Invalidate(); // tell the graphics system that the picture box needs to be repainted.
        }

        // Draws all the cells along the line from Point "a" to Point "b".
        private void Draw(Point a, Point b) {
            int maxDistance = LengthOfHypotenuse(a, b);
            for ( int distance = 1; distance < maxDistance; ++distance ) {
                var point = CalculatePoint(a, b, distance);
                DrawCell(point.X, point.X, _theLineBrush);
            }
        }

        // Returns the length of the hypotenuse rounded to an integer, using
        // Pythagoras' Theorem for right angle triangles: The length of the
        // hypotenuse equals the sum of the square of the other two sides.
        // Ergo: h = Sqrt(a*a + b*b)
        private int LengthOfHypotenuse(Point a, Point b) {
            double aSq = Math.Pow(Math.Abs(a.X - b.X), 2); // horizontal length squared
            double bSq = Math.Pow(Math.Abs(b.Y - b.Y), 2); // vertical length  squared
            return (int)(Math.Sqrt(aSq + bSq) + 0.5); // length of the hypotenuse
        }

        #endregion

        #region Windows Form Designer generated code
        /// <summary>
        /// Required method for Designer support - do not modify
        /// the contents of this method with the code editor.
        /// </summary>
        private void InitializeComponent() {
            this.picBox1 = new System.Windows.Forms.PictureBox();
            this.btnDrawLines = new System.Windows.Forms.Button();
            ((System.ComponentModel.ISupportInitialize)(this.picBox1)).BeginInit();
            this.SuspendLayout();
            // 
            // picBox1
            // 
            this.picBox1.Dock = System.Windows.Forms.DockStyle.Fill;
            this.picBox1.Location = new System.Drawing.Point(0, 0);
            this.picBox1.Name = "picBox1";
            this.picBox1.Size = new System.Drawing.Size(1000, 719);
            this.picBox1.TabIndex = 0;
            this.picBox1.TabStop = false;
            // 
            // btnDrawLines
            // 
            this.btnDrawLines.Location = new System.Drawing.Point(23, 24);
            this.btnDrawLines.Name = "btnDrawLines";
            this.btnDrawLines.Size = new System.Drawing.Size(77, 23);
            this.btnDrawLines.TabIndex = 1;
            this.btnDrawLines.Text = "Draw Lines";
            this.btnDrawLines.UseVisualStyleBackColor = true;
            this.btnDrawLines.Click += new System.EventHandler(this.btnDrawLines_Click);
            // 
            // MainForm
            // 
            this.AutoScaleDimensions = new System.Drawing.SizeF(6F, 13F);
            this.AutoScaleMode = System.Windows.Forms.AutoScaleMode.Font;
            this.ClientSize = new System.Drawing.Size(1000, 719);
            this.Controls.Add(this.btnDrawLines);
            this.Controls.Add(this.picBox1);
            this.Location = new System.Drawing.Point(10, 10);
            this.MinimumSize = new System.Drawing.Size(1016, 755);
            this.Name = "MainForm";
            this.SizeGripStyle = System.Windows.Forms.SizeGripStyle.Hide;
            this.StartPosition = System.Windows.Forms.FormStartPosition.Manual;
            this.Text = "Draw Lines on a Matrix.";
            this.Load += new System.EventHandler(this.MainForm_Load);
            ((System.ComponentModel.ISupportInitialize)(this.picBox1)).EndInit();
            this.ResumeLayout(false);
        }

        private System.Windows.Forms.PictureBox picBox1;
        private System.Windows.Forms.Button btnDrawLines;
        #endregion
    }

}

Sorry if it's a bit long, but this an is SSCCE exhumed from my real project, which is an implementation of the A* shortest route algorithm to run the MazeOfBolton... i.e. a maze runner.

What I actually want to do is pre-calculate a "fence" (i.e. a buffered MBR) around two given points (origin and goal) in the maze (a matrix), such that all points within the "fence" are within a given distance from "the straight line between the two points", in order to quickly eliminate the hundreds-of-thousands of possible paths which are heading away from the goal.

Note that this programming challenge closed years ago, so there's no issue with "competitive plagerism" here. No this is not homework, in fact I'm a professional programmer... I'm just WAAAAY out of my comfort zone here, even with relatively simple geometry. Sigh.

So... Please can anyone give me any pointers to help me get the CalculatePoint function to correctly: Calculate a point along the line A-B at the given distance from A?

Thanks in advance for your generosity... even in reading this far.

Cheers. Keith.


EDIT: I just updated the posted source code becuase:

(1) I just realised that it wasn't self contained. I forgot about the seperate MainForm.Designer.cs file, which I've appended to the bottom of the posted code.

(2) The latest version includes what I've tried so far, with a photobucket link to a picture of what each failure looks like... and they're all the same. Huy? WTF?

I suppose my problem may be elsewhere, like some funky windows form setting that was previously missed by everyone else because I forgot to post the designer-generated code... Except everythingelse (in my actual project) paints exactly where I expect it to, so why should a calculated point be any different. I don't know!?!?!? I'm pretty frustrated and I'm getting cranky, so I think I'll leave this for another day ;-)

Goes to show how much we routinely underestimate how much effort it'll take to make a computer do ANYthing... even just draw a simple line... it's not even a curve, let alone a great circle or a transverse mercator or anything fancy... just a simple bluddy line!?!?!? ;-)

A BIG Thank You to everyone who posted!

Cheers again. Keith.

share|improve this question
    
+1 perfect explanation. –  AgentFire Sep 23 '12 at 7:25
    
your photobucket link is not visible, can you add it please –  woni Sep 24 '12 at 9:45

6 Answers 6

Calculate the vector AB

First define the vector from point A(1,-1) to point B(2,4) substracting A from B. The vector would be Vab(1,5).

Calculate the length of AB

Use Pythagorean theorem to calculate the length of vector AB.

|Vab| = SQRT(1²+5²)

The Length is (rounded) 5.1

Calculate the unit vector

Divide the vector by its length to get the unit vector (the vector with length 1).

V1(1/5.1,5/5.1) = V1(0.2, 0.98)

Calculate the vector with length 4

Now multiply V1 with the length you want, for example 4, to get Vt.

Vt(0.2*4,0.98*4) = Vt(0.8,3.92)

Calculate target point

Add the vector Vt to point A to get point T (target).

T = A + Vt = T(1.8,2.92)

EDIT: Answer to your edit

The method LengthOfHypotenuse should look like that

  • fixed an error on calculating bSq
  • and removed redundant Math.Abs call, because a pow of 2 is always positive
  • removed the addition of 0.5, don't know why you would need that
  • you should at least use a float as return value (double or decimal would work also)

    //You should work with Vector2 class instead of Point and use their Length property
    private double LengthOfHypotenuse(Point a, Point b) {
        double aSq = Math.Pow(a.X - b.X, 2); // horizontal length squared
        double bSq = Math.Pow(a.Y - b.Y, 2); // vertical length  squared
        return Math.Sqrt(aSq + bSq); // length of the hypotenuse
    }
    

The method Draw(Point a, Point b) should look like that:

  • Corrected DrawCell() call

    private void Draw(Point a, Point b) {
        double maxDistance = LengthOfHypotenuse(a, b);
        for (int distance = 0; distance < maxDistance; ++distance) {
            var point = CalculatePoint(new Vector2(a), new Vector2(b), distance);
            DrawCell(point.X, point.Y, _theLineBrush);
        }
    }
    

Your CalculatePoint(Point a, Point b, int distance) method:

  • Moved some calculations into Vector2 class

    private Point CalculatePoint(Vector2 a, Vector2 b, int distance) {
        Vector2 vectorAB = a - b;
    
        return a + vectorAB.UnitVector * distance;
    }
    

I have extended the Vector class for you to add the missing operators (credits to AgentFire)

    //AgentFire: Better approach (you can rename the struct if you need):
    struct Vector2 {
        public readonly double X;
        public readonly double Y;
        public Vector2(Point p) : this(p.X,p.Y) { 
        }

        public Vector2(double x, double y) {
            this.X = x;
            this.Y = y;
        }
        public static Vector2 operator -(Vector2 a, Vector2 b) {
            return new Vector2(b.X - a.X, b.Y - a.Y);
        }
        public static Vector2 operator +(Vector2 a, Vector2 b) {
            return new Vector2(b.X + a.X, b.Y + a.Y);
        }
        public static Vector2 operator *(Vector2 a, double d) {
            return new Vector2(a.X * d, a.Y * d);
        }
        public static Vector2 operator /(Vector2 a, double d) {
            return new Vector2(a.X / d, a.Y / d);
        }

        public static implicit operator Point(Vector2 a) {
            return new Point((int)a.X, (int)a.Y);
        }

        public Vector2 UnitVector {
            get { return this / Length; }
        }

        public double Length {
            get {
                double aSq = Math.Pow(X, 2);
                double bSq = Math.Pow(Y, 2);
                return Math.Sqrt(aSq + bSq);
            }
        }

        public override string ToString() {
            return string.Format("[{0}, {1}]", X, Y);
        }
    }
share|improve this answer
    
woni, Not being a mathamatician, I struggled to understand your nomenclature (AgentFires answer helped at lot with that) but once I could follow you, you lead me down the right path. Thank You! –  corlettk Sep 24 '12 at 4:51
    
@corlettk A tip: First try to get it working, then throw away your code and start from scratch using Vector2 class. It is a bit messy now. You will see it working like a charm after that :). The methods I've added in Vector2 class should correspond to the terms I used in the beginning. –  woni Sep 24 '12 at 18:20
    
Wow! I'm amazed at your generosity. I'm at work at the moment, but I WILL play with this when I get home tonight. THANK YOU for taking the time to write code AND EXPLAIN IT... I've allways struggled with the latter part, so I'm awstruck at anyone who can explain things well. Thank you. –  corlettk Sep 25 '12 at 3:50
1  
@AgentFire can you explain why? –  woni Sep 25 '12 at 14:46
1  
Sure, because it does at leath three heavy mathematical calculations. (especially Sqrt). Vector2 is a struct which boosts operating expirience (compared to class instance) and perfomance, so you should turn the property to the method, indicating not the just "reading the field" (what property usually does) but some operations performed. –  AgentFire Sep 26 '12 at 5:19

Better approach (you can rename the struct if you need):

struct Vector2
{
    public readonly float X;
    public readonly float Y;

    public Vector2(float x, float y)
    {
        this.X = x;
        this.Y = y;
    }

    public static Vector2 operator -(Vector2 a, Vector2 b)
    {
        return new Vector2(b.X - a.X, b.Y - a.Y);
    }
    public static Vector2 operator +(Vector2 a, Vector2 b)
    {
        return new Vector2(a.X + b.X, a.Y + b.Y);
    }
    public static Vector2 operator *(Vector2 a, float d)
    {
        return new Vector2(a.X * d, a.Y * d);
    }

    public override string ToString()
    {
        return string.Format("[{0}, {1}]", X, Y);
    }
}

For getting the midpoint you just need to do the (a - b) * d + a action:

class Program
{
    static void Main(string[] args)
    {
        Vector2 a = new Vector2(1, 1);
        Vector2 b = new Vector2(3, 1);
        float distance = 0.5f; // From 0.0 to 1.0.
        Vector2 c = (a - b) * distance + a;
        Console.WriteLine(c);
    }
}

This will give you the point:

50%

output:\> [2, 1]

All you need after that is to for(the distance; up toone; d += step) from 0.0 to 1.0 and draw your pixels.

share|improve this answer
    
wouldn't your y:= 0 ? –  Mario The Spoon Sep 24 '12 at 4:56
    
of course not. why should it? –  AgentFire Sep 24 '12 at 7:18
    
Since both pints have 1 as y, and you do a.y - b.y so c.y should be 0 ? –  Mario The Spoon Sep 24 '12 at 14:57
    
And also this is what it shows as output on my system... –  Mario The Spoon Sep 24 '12 at 15:00
1  
@MarioTheSpoon The example shows only the results for halved Vector. That part is missing for the correct result: The halved vector is added to point A[1,1] + C[1,0] = Output[2,1]. –  woni Sep 24 '12 at 18:15

Try to remove 'magnitude' term in the parentheses both for X and for Y expressions:

(int)(  ((double)a.X + vectorX * distance)  +  0.5  )
share|improve this answer
    
I tried that... it draws a line from top left (0,0) to bottom right (250,180) in (x,y) in parlance. Thinking more on this, I reckon I must be "in wrong quarter"... i.e. using a "top to bottom, left to right" calculation on a "bottom to top, left to right" coordinate system. –  corlettk Sep 23 '12 at 7:18
    private static Point CalculatePoint(Point a, Point b, int distance)
    {

        // a. calculate the vector from o to g:
        double vectorX = b.X - a.X;
        double vectorY = b.Y - a.Y;

        // b. calculate the proportion of hypotenuse
        double factor = distance / Math.Sqrt(vectorX * vectorX + vectorY * vectorY);

        // c. factor the lengths
        vectorX *= factor;
        vectorY *= factor;

        // d. calculate and Draw the new vector,
        return new Point((int)(a.X + vectorX), (int)(a.Y + vectorY));
    }
share|improve this answer
    
Thanks guys... I've now tried all the above solutions, and none of them actually work in my test harness (which I did post, in the hope that folks would (a) use it to filter out dodgy answers; and (b) take it and use it as a generic geometry-test-harness... but alas... all the above posted solutions (sort by "oldest" first) produce the same WRONG answer, which I took a screenie of, shrunk, and posted to: i1264.photobucket.com/albums/jj496/corlettk/… ... The line produced by A-B (the first 2 pts in _theListString) is below A-B and on a greater angle. Sigh –  corlettk Sep 23 '12 at 8:10
    
On the upside... I don't feel so bad about not being able to get this right (quickly) seeing as nouvabugga seems to be able to either ;-) –  corlettk Sep 23 '12 at 8:12
private Point CalculatePoint(Point a, Point b, int distance) {
      Point newPoint = new Point(10,10);
      Double Magnitude = Math.Sqrt(Math.Pow((b.Y - a.Y),2) + Math.Pow((b.X - a.X),2));
      newPoint.X = (int)(a.X + (distance * ((b.X - a.X)/magnitude)));
      newPoint.Y = (int)(a.Y + (distance * ((b.Y - a.Y)/magnitude)));
      return newPoint;
}
share|improve this answer

OK guys, I found my major bug. It was a classic Doh! My Draw method was painting at p.X, p.X

So, I finally got something that works. Please note that I am not saying that this a "good solution", or "the only working solution" I'm just saying that it does what I want it to do ;-)

Here's my UPDATED working code: (complete and selfcontained this time ;-)

using System;
using System.Drawing;
using System.Windows.Forms;
using System.Diagnostics;

namespace DrawLines
{
    public class MainForm : Form
    {
        #region constants and readonly attributes

        private const int CELL_SIZE = 4; // width and height of each "cell" in the bitmap.

        private readonly Bitmap _myBitmap; // to draw on (displayed in picBox1).
        private readonly Graphics _myGraphics; // to draw with.

        // actual points on _theLineString are painted red.
        private static readonly SolidBrush _thePointBrush = new SolidBrush(Color.Red);
        // ... and are labeled in /*Bold*/ Black, 16 point Courier New
        private static readonly SolidBrush _theLabelBrush = new SolidBrush(Color.Black);
        private static readonly Font _theLabelFont = new Font("Courier New", 16); //, FontStyle.Bold);

        // the interveening calculated cells on the lines between actaul points are painted Silver.
        private static readonly SolidBrush _theLineBrush = new SolidBrush(Color.Silver);

        // the points in my line-string.
        private static readonly Point[] _thePoints = new Point[] {
            //          x,   y      c i
            new Point(170,  85), // A 0 
            new Point( 85,  70), // B 1
            new Point(209,  66), // C 2
            new Point( 98, 120), // D 3
            new Point(158,  19), // E 4
            new Point(  2,  61), // F 5
            new Point( 42, 177), // G 6
            new Point(191, 146), // H 7
            new Point( 25, 128), // I 8
            new Point( 95,  24)  // J 9
        };

        #endregion

        public MainForm() {
            InitializeComponent();
            // initialise "the graphics system".
            _myBitmap = new Bitmap(picBox1.Width, picBox1.Height);
            _myGraphics = Graphics.FromImage(_myBitmap);
            picBox1.Image = _myBitmap;
        }

        #region DrawPoints upon MainForm_Load

        private void MainForm_Load(object sender, EventArgs e) {
            DrawPoints();
        }

        // draws and labels each point in _theLineString
        private void DrawPoints() {
            char c = 'A'; // label text, as a char so we can increment it for each point.
            foreach ( Point p in _thePoints ) {
                DrawCell(p.X, p.Y, _thePointBrush);
                DrawLabel(p.X, p.Y, c++);
            }
        }

        #endregion

        #region DrawLines on button click

        // =====================================================================
        // Here's the interesting bit. DrawLine was called Draw

        // Draws a line from A to B, by using X-values to calculate the Y values.
        private void DrawLine(Point a, Point b)
        {
            if ( a.Y > b.Y ) // A is below B
                Swap(ref a, ref b); // make A the topmost point (ergo sort by Y)
            Debug.Assert(a.Y < b.Y, "A is still below B!");

            var left = Math.Min(a.X, b.X);
            var right = Math.Max(a.X, b.X);
            int width = right - left;
            Debug.Assert(width >= 0, "width is negative!");

            var top = a.Y;
            var bottom = b.Y;
            int height = bottom - top;
            Debug.Assert(height >= 0, "height is negative!");

            if ( width > height ) {
                // use given X values to calculate the Y values, 
                // otherwise it "skips" some X's
                double slope = (double)height / (double)width; 
                Debug.Assert(slope >= 0, "slope is negative!");
                if (a.X <= b.X)     // a is left-of b, so draw left-to-right.
                    for ( int x=1; x<width; ++x ) // xOffset
                        DrawCell( (left+x), (a.Y + ((int)(slope*x + 0.5))), _theLineBrush);
                else                // a is right-of b, so draw right-to-left.
                    for ( int x=1; x<width; ++x ) // xOffset
                        DrawCell( (right-x), (a.Y + ((int)(slope*x + 0.5))), _theLineBrush);
            } else {
                // use given Y values to calculate the X values, 
                // otherwise it "skips" some Y's
                double slope = (double)width/ (double)height; 
                Debug.Assert(slope >= 0, "slope is negative!");
                if (a.X <= b.X) {     // a is left-of b, so draw left-to-right. (FG)
                    for ( int y=1; y<height; ++y ) // yOffset
                        DrawCell( (a.X + ((int)(slope*y + 0.5))), (top+y), _theLineBrush);
                } else {              // a is right-of b, so draw right-to-left. (DE,IJ)
                    for ( int y=1; y<height; ++y ) // yOffset
                        DrawCell( (b.X + ((int)(slope*y + 0.5))), (bottom-y), _theLineBrush);
                }
            }
        }

        private void btnDrawLines_Click(object sender, EventArgs e) {
            DrawLines();  // join the points
            DrawPoints(); // redraw the labels over the lines.
        }

        // Draws a line between each point in _theLineString.
        private void DrawLines() {
            int n = _thePoints.Length - 1; // one less line-segment than points
            for ( int i=0; i<n; ++i )
                DrawLine(_thePoints[i], _thePoints[i+1]);
            picBox1.Invalidate(); // tell the graphics system that the picture box needs to be repainted.
        }

        private void Swap(ref Point a, ref Point b) {
            Point tmp = a;
            a = b;
            b = tmp;
        }

        #endregion

        #region actual drawing on _myGraphics

        // there should be no calls to Draw or Fill outside of this region

        private void DrawCell(int x, int y, Brush brush) {
            _myGraphics.FillRectangle(
                brush
              , x*CELL_SIZE
              , y*CELL_SIZE 
              , CELL_SIZE   // width
              , CELL_SIZE   // heigth
            );
        }

        private void DrawLabel(int x, int y, char c) {
            string s = c.ToString();
            _myGraphics.DrawString(
                s, _theLabelFont, _theLabelBrush
              , x * CELL_SIZE + 5   // x
              , y * CELL_SIZE - 10  // y
            );
        }

        #endregion

        #region Windows Form Designer generated code
        /// <summary>
        /// Required method for Designer support - do not modify
        /// the contents of this method with the code editor.
        /// </summary>
        private void InitializeComponent() {
            this.picBox1 = new System.Windows.Forms.PictureBox();
            this.btnDrawLines = new System.Windows.Forms.Button();
            ((System.ComponentModel.ISupportInitialize)(this.picBox1)).BeginInit();
            this.SuspendLayout();
            // 
            // picBox1
            // 
            this.picBox1.Dock = System.Windows.Forms.DockStyle.Fill;
            this.picBox1.Location = new System.Drawing.Point(0, 0);
            this.picBox1.Name = "picBox1";
            this.picBox1.Size = new System.Drawing.Size(1000, 719);
            this.picBox1.TabIndex = 0;
            this.picBox1.TabStop = false;
            // 
            // btnDrawLines
            // 
            this.btnDrawLines.Location = new System.Drawing.Point(23, 24);
            this.btnDrawLines.Name = "btnDrawLines";
            this.btnDrawLines.Size = new System.Drawing.Size(77, 23);
            this.btnDrawLines.TabIndex = 1;
            this.btnDrawLines.Text = "Draw Lines";
            this.btnDrawLines.UseVisualStyleBackColor = true;
            this.btnDrawLines.Click += new System.EventHandler(this.btnDrawLines_Click);
            // 
            // MainForm
            // 
            this.AutoScaleDimensions = new System.Drawing.SizeF(6F, 13F);
            this.AutoScaleMode = System.Windows.Forms.AutoScaleMode.Font;
            this.ClientSize = new System.Drawing.Size(1000, 719);
            this.Controls.Add(this.btnDrawLines);
            this.Controls.Add(this.picBox1);
            this.Location = new System.Drawing.Point(10, 10);
            this.MinimumSize = new System.Drawing.Size(1016, 755);
            this.Name = "MainForm";
            this.SizeGripStyle = System.Windows.Forms.SizeGripStyle.Hide;
            this.StartPosition = System.Windows.Forms.FormStartPosition.Manual;
            this.Text = "Draw Lines on a Matrix.";
            this.Load += new System.EventHandler(this.MainForm_Load);
            ((System.ComponentModel.ISupportInitialize)(this.picBox1)).EndInit();
            this.ResumeLayout(false);
        }

        private System.Windows.Forms.PictureBox picBox1;
        private System.Windows.Forms.Button btnDrawLines;
        #endregion
    }

}

EDIT - UPDATED ABOVE CODE: This version draws "solid" lines. The previously posted version skipped cells in nearly vertical lines, so I inverted the algorithm to calculate the X value (instead of the Y value) in these cases... now I can use it to set (and draw) a "solid fence" around a "navigable area" ;-)

Here's an UPDATED picture of the correct results.

DrawLiness_solid_success.png

Thanks again to everybody who helped... and you did help ;-)

Cheers. Keith.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.