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I've spent a few hours today researching how random terrain generation tends to be done and after reading about the plasma fractal (midpoint displacement and diamond square algo's) I decided to try and have a go at implementing one. My result was actually not terriable, but I have these horrible square/line/grid type artefacts that I just can not seem to get rid of!

When rendered as a gray scale image my height map looks something like: height map

Obviously there is a fair amount of code involved in this but I will try to post what is only relevant. I've not not posted the code that turns it into a texture for example, but do not worry I have already tried just filling my height array with a smooth gradient and the texture comes out fine :)

I begin by setting the four corners of the map to random values between 0 and 1 and then start the recursive displacement algo:

    public void GenerateTerrainLayer()
        //set the four corners of the map to have random values
        TerrainData[0, 0] = (float)RandomGenerator.NextDouble();
        TerrainData[GenSize, 0] = (float)RandomGenerator.NextDouble();
        TerrainData[0, GenSize] = (float)RandomGenerator.NextDouble();
        TerrainData[GenSize, GenSize] = (float)RandomGenerator.NextDouble();

        //begin midpoint displacement algorithm...
        MidPointDisplace(new Vector2_I(0, 0), new Vector2_I(GenSize, 0), new Vector2_I(0, GenSize), new Vector2_I(GenSize, GenSize));

TerrainData is simply a 2D array of floats*. Vector2_I is just my own integer vector class. The last four functions are MidPointDisplace which is the recursive function, CalculateTerrainPointData which averages 2 data values and adds some noise, CalculateTerrainPointData2 which averages 4 data values and adds some noise and has a slightly higher scale value (its only used for center points) and finally my noise function which atm is just some random noise and not a real noise like perlin etc. They look like this:

   private void MidPointDisplace(Vector2_I topleft, Vector2_I topright, Vector2_I bottomleft, Vector2_I bottomright)
        //check size of square working on.. if its shorter than a certain amount stop the algo, we've done enough
        if (topright.X - topleft.X < DisplacementMaxLOD)

        //calculate the positions of all the middle points for the square that has been passed to the function
        Vector2_I MidLeft, MidRight, MidTop, MidBottom, Center;

        MidLeft.X = topleft.X;
        MidLeft.Y = topleft.Y + ((bottomleft.Y - topleft.Y) / 2);

        MidRight.X = topright.X;
        MidRight.Y = topright.Y + ((bottomright.Y - topright.Y) / 2);

        MidTop.X = topleft.X + ((topright.X - topleft.X) / 2);
        MidTop.Y = topleft.Y;

        MidBottom.X = bottomleft.X + ((bottomright.X - bottomleft.X) / 2);
        MidBottom.Y = bottomleft.Y;

        Center.X = MidTop.X;
        Center.Y = MidLeft.Y;

        //collect the existing data from the corners of the area passed to algo
        float TopLeftDat, TopRightDat, BottomLeftDat, BottomRightDat;

        TopLeftDat = GetTerrainData(topleft.X, topleft.Y);          
        TopRightDat = GetTerrainData(topright.X, topright.Y);          
        BottomLeftDat = GetTerrainData(bottomleft.X, bottomleft.Y);          
        BottomRightDat = GetTerrainData(bottomright.X, bottomright.Y);

        //and the center

        //adverage data and insert for midpoints..
        SetTerrainData(MidLeft.X, MidLeft.Y, CalculateTerrainPointData(TopLeftDat, BottomLeftDat, MidLeft.X, MidLeft.Y));
        SetTerrainData(MidRight.X, MidRight.Y, CalculateTerrainPointData(TopRightDat, BottomRightDat, MidRight.X, MidRight.Y));
        SetTerrainData(MidTop.X, MidTop.Y, CalculateTerrainPointData(TopLeftDat, TopRightDat, MidTop.X, MidTop.Y));
        SetTerrainData(MidBottom.X, MidBottom.Y, CalculateTerrainPointData(BottomLeftDat, BottomRightDat, MidBottom.X, MidBottom.Y));
        SetTerrainData(Center.X, Center.Y, CalculateTerrainPointData2(TopLeftDat, TopRightDat, BottomLeftDat, BottomRightDat, Center.X, Center.Y));


        //and recursively fire off new calls to the function to do the smaller squares
        Rectangle NewTopLeft = new Rectangle(topleft.X, topleft.Y, Center.X - topleft.X, Center.Y - topleft.Y);
        Rectangle NewTopRight = new Rectangle(Center.X, topright.Y, topright.X - Center.X, Center.Y - topright.Y);
        Rectangle NewBottomLeft = new Rectangle(bottomleft.X, Center.Y, Center.X - bottomleft.X, bottomleft.Y - Center.Y);
        Rectangle NewBottomRight = new Rectangle(Center.X , Center.Y, bottomright.X - Center.X, bottomright.Y - Center.Y);

        MidPointDisplace(new Vector2_I(NewTopLeft.Left, NewTopLeft.Top), new Vector2_I(NewTopLeft.Right, NewTopLeft.Top), new Vector2_I(NewTopLeft.Left, NewTopLeft.Bottom), new Vector2_I(NewTopLeft.Right, NewTopLeft.Bottom));
        MidPointDisplace(new Vector2_I(NewTopRight.Left, NewTopRight.Top), new Vector2_I(NewTopRight.Right, NewTopRight.Top), new Vector2_I(NewTopRight.Left, NewTopRight.Bottom), new Vector2_I(NewTopRight.Right, NewTopRight.Bottom));
        MidPointDisplace(new Vector2_I(NewBottomLeft.Left, NewBottomLeft.Top), new Vector2_I(NewBottomLeft.Right, NewBottomLeft.Top), new Vector2_I(NewBottomLeft.Left, NewBottomLeft.Bottom), new Vector2_I(NewBottomLeft.Right, NewBottomLeft.Bottom));
        MidPointDisplace(new Vector2_I(NewBottomRight.Left, NewBottomRight.Top), new Vector2_I(NewBottomRight.Right, NewBottomRight.Top), new Vector2_I(NewBottomRight.Left, NewBottomRight.Bottom), new Vector2_I(NewBottomRight.Right, NewBottomRight.Bottom));


    //helper function to return a data value adveraged from two inputs, noise value added for randomness and result clamped to ensure a good value
    private float CalculateTerrainPointData(float DataA, float DataB, int NoiseX, int NoiseY)
         return MathHelper.Clamp(((DataA + DataB) / 2.0f) + NoiseFunction(NoiseX, NoiseY), 0.0f, 1.0f) * 1.0f;

    //helper function to return a data value adveraged from four inputs, noise value added for randomness and result clamped to ensure a good value
    private float CalculateTerrainPointData2(float DataA, float DataB, float DataC, float DataD, int NoiseX, int NoiseY)
        return MathHelper.Clamp(((DataA + DataB + DataC + DataD) / 4.0f) + NoiseFunction(NoiseX, NoiseY), 0.0f, 1.0f) * 1.5f;

    private float NoiseFunction(int x, int y)
        return (float)(RandomGenerator.NextDouble() - 0.5) * 0.5f;

Ok thanks for taking the time to look - hopefully someone knows where this grid-like pattern is appearing from :)

*edit - accidently wrote ints, corrected to floats

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Maybe this is a effect due to a loss in precision when rounding from float to int? – thalador Apr 12 '13 at 8:07

2 Answers 2

I see a problem in your CalculateTerrainPointData implementation: you're not scaling down the result of NoiseFunction with each iteration.

See this description of the Midpoint Displacement algorithm:

  • Start with a single horizontal line segment.
    • Repeat for a sufficiently large number of times:
      • Repeat over each line segment in the scene:
        • Find the midpoint of the line segment.
        • Displace the midpoint in Y by a random amount.
        • Reduce the range for random numbers.

A fast way to do it in your code without changing too much is by adding some scale parameter to MidPointDisplace (with default set to 1.0f) and CalculateTerrainPointData; use it in CalculateTerrainPointData to multiply result of NoiseFunction; and reduce it with each recursive call to MidPointDisplace(..., 0.5f * scale).

Not sure though if that is the only cause to your image looking wrong or there are other problems.

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this has made a massive improvement to the generation, the map is a lot smoother and looks almost correct but the strange "grid" is still present! Example Picture - nearly there :) – David Burford Feb 24 '13 at 11:19

According to Wikipedia's summary of midpoint displacement, only the average for the center most point get noise added to it - try only adding noise via CalculateTerrainPointData2 & removing the noise in CalculateTerrainPointData.

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