PO/Library/PackageCache/com.unity.2d.animation@5.0.7/Runtime/Triangle/Meshing/Data/BadTriQueue.cs

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2022-01-12 10:06:03 +03:00
// -----------------------------------------------------------------------
// <copyright file="BadTriQueue.cs">
// Original Triangle code by Jonathan Richard Shewchuk, http://www.cs.cmu.edu/~quake/triangle.html
// Triangle.NET code by Christian Woltering, http://triangle.codeplex.com/
// </copyright>
// -----------------------------------------------------------------------
namespace UnityEngine.U2D.Animation.TriangleNet
.Meshing.Data
{
using Animation.TriangleNet.Geometry;
using Animation.TriangleNet.Topology;
/// <summary>
/// A (priority) queue for bad triangles.
/// </summary>
/// <remarks>
// The queue is actually a set of 4096 queues. I use multiple queues to
// give priority to smaller angles. I originally implemented a heap, but
// the queues are faster by a larger margin than I'd suspected.
/// </remarks>
class BadTriQueue
{
const double SQRT2 = 1.4142135623730950488016887242096980785696718753769480732;
public int Count { get { return this.count; } }
// Variables that maintain the bad triangle queues. The queues are
// ordered from 4095 (highest priority) to 0 (lowest priority).
BadTriangle[] queuefront;
BadTriangle[] queuetail;
int[] nextnonemptyq;
int firstnonemptyq;
int count;
public BadTriQueue()
{
queuefront = new BadTriangle[4096];
queuetail = new BadTriangle[4096];
nextnonemptyq = new int[4096];
firstnonemptyq = -1;
count = 0;
}
/// <summary>
/// Add a bad triangle data structure to the end of a queue.
/// </summary>
/// <param name="badtri">The bad triangle to enqueue.</param>
public void Enqueue(BadTriangle badtri)
{
double length, multiplier;
int exponent, expincrement;
int queuenumber;
int posexponent;
int i;
this.count++;
// Determine the appropriate queue to put the bad triangle into.
// Recall that the key is the square of its shortest edge length.
if (badtri.key >= 1.0)
{
length = badtri.key;
posexponent = 1;
}
else
{
// 'badtri.key' is 2.0 to a negative exponent, so we'll record that
// fact and use the reciprocal of 'badtri.key', which is > 1.0.
length = 1.0 / badtri.key;
posexponent = 0;
}
// 'length' is approximately 2.0 to what exponent? The following code
// determines the answer in time logarithmic in the exponent.
exponent = 0;
while (length > 2.0)
{
// Find an approximation by repeated squaring of two.
expincrement = 1;
multiplier = 0.5;
while (length * multiplier * multiplier > 1.0)
{
expincrement *= 2;
multiplier *= multiplier;
}
// Reduce the value of 'length', then iterate if necessary.
exponent += expincrement;
length *= multiplier;
}
// 'length' is approximately squareroot(2.0) to what exponent?
exponent = 2 * exponent + (length > SQRT2 ? 1 : 0);
// 'exponent' is now in the range 0...2047 for IEEE double precision.
// Choose a queue in the range 0...4095. The shortest edges have the
// highest priority (queue 4095).
if (posexponent > 0)
{
queuenumber = 2047 - exponent;
}
else
{
queuenumber = 2048 + exponent;
}
// Are we inserting into an empty queue?
if (queuefront[queuenumber] == null)
{
// Yes, we are inserting into an empty queue.
// Will this become the highest-priority queue?
if (queuenumber > firstnonemptyq)
{
// Yes, this is the highest-priority queue.
nextnonemptyq[queuenumber] = firstnonemptyq;
firstnonemptyq = queuenumber;
}
else
{
// No, this is not the highest-priority queue.
// Find the queue with next higher priority.
i = queuenumber + 1;
while (queuefront[i] == null)
{
i++;
}
// Mark the newly nonempty queue as following a higher-priority queue.
nextnonemptyq[queuenumber] = nextnonemptyq[i];
nextnonemptyq[i] = queuenumber;
}
// Put the bad triangle at the beginning of the (empty) queue.
queuefront[queuenumber] = badtri;
}
else
{
// Add the bad triangle to the end of an already nonempty queue.
queuetail[queuenumber].next = badtri;
}
// Maintain a pointer to the last triangle of the queue.
queuetail[queuenumber] = badtri;
// Newly enqueued bad triangle has no successor in the queue.
badtri.next = null;
}
/// <summary>
/// Add a bad triangle to the end of a queue.
/// </summary>
/// <param name="enqtri"></param>
/// <param name="minedge"></param>
/// <param name="apex"></param>
/// <param name="org"></param>
/// <param name="dest"></param>
public void Enqueue(ref Otri enqtri, double minedge, Vertex apex, Vertex org, Vertex dest)
{
// Allocate space for the bad triangle.
BadTriangle newbad = new BadTriangle();
newbad.poortri = enqtri;
newbad.key = minedge;
newbad.apex = apex;
newbad.org = org;
newbad.dest = dest;
Enqueue(newbad);
}
/// <summary>
/// Remove a triangle from the front of the queue.
/// </summary>
/// <returns></returns>
public BadTriangle Dequeue()
{
// If no queues are nonempty, return NULL.
if (firstnonemptyq < 0)
{
return null;
}
this.count--;
// Find the first triangle of the highest-priority queue.
BadTriangle result = queuefront[firstnonemptyq];
// Remove the triangle from the queue.
queuefront[firstnonemptyq] = result.next;
// If this queue is now empty, note the new highest-priority
// nonempty queue.
if (result == queuetail[firstnonemptyq])
{
firstnonemptyq = nextnonemptyq[firstnonemptyq];
}
return result;
}
}
}