New "Cygon" Packer is working and promptly achieved a new space efficiency record
git-svn-id: file:///srv/devel/repo-conversion/nusu@22 d2e56fa2-650e-0410-a79f-9358c0239efd
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@ -103,27 +103,38 @@ namespace Nuclex.Support.Packing {
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/// <param name="rectangleHeight">Height of the rectangle to find a position for</param>
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/// <returns>The best position for a rectangle with the specified width</returns>
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private int findBestPosition(int rectangleWidth, int rectangleHeight) {
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// Index and score of the best slice we could find for the rectangle
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int bestSliceIndex = -1;
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int bestScore = MaxPackingAreaWidth * MaxPackingAreaHeight; // lower == better!
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// This is the counter for the currently checked position. The search works by
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// skipping from slice to slice, determining the suitability of the location for the
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// placement of the rectangle.
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int leftSliceIndex = 0;
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// Determine the slice in which the right end of the rectangle is located
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int rightSliceIndex = this.heightSlices.BinarySearch(
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new Point(rectangleWidth, 0), SliceStartComparer.Default
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);
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if(rightSliceIndex < 0)
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rightSliceIndex = ~rightSliceIndex;
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int leastWastedSliceIndex = -1;
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int leastWastedArea = MaxPackingAreaWidth * MaxPackingAreaHeight;
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while(rightSliceIndex <= this.heightSlices.Count) {
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// final time (this is the special case where the rectangle is attempted
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// to be placed at the rightmost end of the packing area)
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/*
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// Determine the highest slice at this position. We cannot put the rectangle
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// any lower than this without colliding into other rectangles
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// Determine the highest slice within the slices covered by the rectangle at
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// its current placement. We cannot put the rectangle any lower than this without
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// overlapping the other rectangles.
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int highest = this.heightSlices[leftSliceIndex].Y;
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for(int index = leftSliceIndex + 1; index < rightSliceIndex; ++index)
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highest = Math.Max(highest, this.heightSlices[index].Y);
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if(this.heightSlices[index].Y > highest)
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highest = this.heightSlices[index].Y;
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if((highest + rectangleHeight < MaxPackingAreaHeight)) {
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int score = highest;
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// TESTING --------------------------------------------------
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/*
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// Calculate the amount of space that would go to waste if the rectangle
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// would be placed at this location
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int wastedArea = 0;
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@ -138,41 +149,49 @@ namespace Nuclex.Support.Packing {
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this.heightSlices[rightSliceIndex - 1].X
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);
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// If this beats the current record for the least wasted area, remember this as
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// being the best position found so far
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if(
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(wastedArea < leastWastedArea) &&
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(this.heightSlices[leftSliceIndex].Y + rectangleHeight < MaxPackingAreaHeight)
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) {
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leastWastedArea = wastedArea;
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leastWastedSliceIndex = leftSliceIndex;
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// No sense looking any further if we found the perfect place!
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if(leastWastedArea == 0)
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break;
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}
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//score += Math.Sign(wastedArea);
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//score += (int)Math.Sqrt((double)wastedArea);
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//score = wastedArea;
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*/
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// TESTING --------------------------------------------------
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// If this already was the loop after the final slice, terminate it now!
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if(rightSliceIndex == this.heightSlices.Count)
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break;
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if(score < bestScore) {
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bestSliceIndex = leftSliceIndex;
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bestScore = score;
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}
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}
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// Advance the starting slice to the next slice start
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++leftSliceIndex;
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int rightEnd = this.heightSlices[leftSliceIndex].X + rectangleWidth;
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if(leftSliceIndex >= this.heightSlices.Count)
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break;
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// Advance the ending slice to where the rectangle ends now
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while(rightEnd > this.heightSlices[rightSliceIndex].X) {
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++rightSliceIndex;
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// If the end is reached, stop shifting and make the outer loop run one final time
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// Advance the ending slice until we're on the right slice again, given the new
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// starting position of the rectangle.
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int rightRectangleEnd = this.heightSlices[leftSliceIndex].X + rectangleWidth;
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for(; rightSliceIndex <= this.heightSlices.Count; ++rightSliceIndex) {
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int rightSliceStart;
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if(rightSliceIndex == this.heightSlices.Count)
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rightSliceStart = MaxPackingAreaWidth;
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else
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rightSliceStart = this.heightSlices[rightSliceIndex].X;
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// Is this the slice we're looking for?
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if(rightSliceStart > rightRectangleEnd)
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break;
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}
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// If we crossed the end of the slice array, the rectangle's right end has left
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// the packing area, and thus, our search ends.
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if(rightSliceIndex > this.heightSlices.Count)
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break;
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}
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return leastWastedSliceIndex;
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// Return the index of the best slice we found for this rectangle. If the rectangle
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// didn't fit, this variable will still have its initialization value of -1.
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return bestSliceIndex;
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}
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/// <summary>Integrates a new rectangle into the height slice table</summary>
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@ -213,8 +232,8 @@ namespace Nuclex.Support.Packing {
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if(startSlice >= this.heightSlices.Count) {
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// If the slice ends within the last slice (usual case, unless it has the
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// exact same with the packing area has), add another slice to return to the
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// original height at the end of the rectangle.
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// exact same width the packing area has), add another slice to return to
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// the original height at the end of the rectangle.
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if(right < MaxPackingAreaWidth)
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this.heightSlices.Add(new Point(right, firstSliceOriginalHeight));
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@ -242,9 +261,8 @@ namespace Nuclex.Support.Packing {
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else
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returnHeight = this.heightSlices[endSlice - 1].Y;
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// Remove all slices covered by the rectangle and began a new slice at
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// its end to return to the height the slice in which the rectangle ends
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// has had.
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// Remove all slices covered by the rectangle and begin a new slice at its end
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// to return back to the height of the slice on which the rectangle ends.
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this.heightSlices.RemoveRange(startSlice, endSlice - startSlice);
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if(right < MaxPackingAreaWidth)
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this.heightSlices.Insert(startSlice, new Point(right, returnHeight));
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@ -54,8 +54,6 @@ namespace Nuclex.Support.Packing {
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return (float)areaCovered / 4900.0f;
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}
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}
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} // namespace Nuclex.Support.Packing
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