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This one:

return new Rectangle(
   position_.X - origin_.X,
   position_.Y - origin_.Y,
   frame_width_,
   frame_height_);

And this one:

Matrix Transformation =  Matrix.CreateTranslation(new Vector3(-origin_, 0.0f)) *
                         Matrix.CreateTranslation(new Vector3(position_, 0.0f));

Rectangle blockRectangle = CalculateBoundingRectangle(
                    new Rectangle(0, 0, frame_width_, frame_height_),
                    Transformation);

return new Rectangle(blockRectangle.X, blockRectangle.Y, blockRectangle.Width, blockRectangle.Height);

Where CalculateBoundingRectangle is:

/// <summary>
        /// Calculates an axis aligned rectangle which fully contains an arbitrarily
        /// transformed axis aligned rectangle.
        /// </summary>
        /// <param name="rectangle">Original bounding rectangle.</param>
        /// <param name="transform">World transform of the rectangle.</param>
        /// <returns>A new rectangle which contains the trasnformed rectangle.</returns>
        public static Rectangle CalculateBoundingRectangle(Rectangle rectangle,
                                                           Matrix transform)
        {
            // Get all four corners in local space
            Vector2 leftTop = new Vector2(rectangle.Left, rectangle.Top);
            Vector2 rightTop = new Vector2(rectangle.Right, rectangle.Top);
            Vector2 leftBottom = new Vector2(rectangle.Left, rectangle.Bottom);
            Vector2 rightBottom = new Vector2(rectangle.Right, rectangle.Bottom);

            // Transform all four corners into work space
            Vector2.Transform(ref leftTop, ref transform, out leftTop);
            Vector2.Transform(ref rightTop, ref transform, out rightTop);
            Vector2.Transform(ref leftBottom, ref transform, out leftBottom);
            Vector2.Transform(ref rightBottom, ref transform, out rightBottom);

            // Find the minimum and maximum extents of the rectangle in world space
            Vector2 min = Vector2.Min(Vector2.Min(leftTop, rightTop),
                                      Vector2.Min(leftBottom, rightBottom));
            Vector2 max = Vector2.Max(Vector2.Max(leftTop, rightTop),
                                      Vector2.Max(leftBottom, rightBottom));

            // Return that as a rectangle
            return new Rectangle((int)min.X, (int)min.Y,
                                 (int)(max.X - min.X), (int)(max.Y - min.Y));
        }
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closed as unclear what you're asking by Alexei Levenkov, I3arnon, Tim Dean, Mario, stuartd Jan 25 at 23:24

Please clarify your specific problem or add additional details to highlight exactly what you need. As it's currently written, it’s hard to tell exactly what you're asking. See the How to Ask page for help clarifying this question.If this question can be reworded to fit the rules in the help center, please edit the question.

    
Most likely. Not sure what your question is? How to follow the code OR why one would write it OR something else? –  Alexei Levenkov Jan 25 at 19:39
    
Just if the two pieces of code give the same exact result, and if are there any differences in two approcies. –  misiMe Jan 25 at 20:09

1 Answer 1

up vote 1 down vote accepted

Assuming code is written correctly both should give the same result.

  • First - creates bounding rectangle with hardcoded computation for given position/origin and rotation of 0.
  • Second - is generic way to compute bounding rectangle for given position/origin/rotation (rotation in the sample implied to be 0).

Second approach likely to be used when position/angle already present as transformation matrix.

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