diff options
author | Harvey Harrison <[email protected]> | 2013-06-28 13:57:33 -0700 |
---|---|---|
committer | Harvey Harrison <[email protected]> | 2013-06-28 13:58:38 -0700 |
commit | 2886665b8c759fc097f6230d11ec9bc6a2f0938b (patch) | |
tree | a3462e1e4256b60b1dd8cc54e5e0c86cc3a3f37b /src/classes/share | |
parent | a2f2392bd9ff94f12ab6a91a77636949cf1c2361 (diff) |
j3dcore: convert GeometricTools Segment-segment distance code to Java3d/vecmath types
Signed-off-by: Harvey Harrison <[email protected]>
Diffstat (limited to 'src/classes/share')
-rw-r--r-- | src/classes/share/javax/media/j3d/Utils.java | 734 |
1 files changed, 407 insertions, 327 deletions
diff --git a/src/classes/share/javax/media/j3d/Utils.java b/src/classes/share/javax/media/j3d/Utils.java index 244edb5..276b1e5 100644 --- a/src/classes/share/javax/media/j3d/Utils.java +++ b/src/classes/share/javax/media/j3d/Utils.java @@ -110,332 +110,412 @@ private static final double ZERO_TOL = 1e-5d; * http://www.geometrictools.com/LibMathematics/Distance/Wm5DistSegment3Segment3.cpp * File Version: 5.0.1 (2010/10/01) */ -static public double segmentToSegment (Point3d s0start, Point3d s0end, - Point3d s1start, Point3d s1end, - Point3d s0int, Point3d s1int, double[] param) { -// Vector3<Real> diff = mSegment0->Center - mSegment1->Center; -// Real a01 = -mSegment0->Direction.Dot(mSegment1->Direction); -// Real b0 = diff.Dot(mSegment0->Direction); -// Real b1 = -diff.Dot(mSegment1->Direction); -// Real c = diff.SquaredLength(); -// Real det = Math<Real>::FAbs((Real)1 - a01*a01); -// Real s0, s1, sqrDist, extDet0, extDet1, tmpS0, tmpS1; -// -// if (det >= Math<Real>::ZERO_TOLERANCE) -// { -// // Segments are not parallel. -// s0 = a01*b1 - b0; -// s1 = a01*b0 - b1; -// extDet0 = mSegment0->Extent*det; -// extDet1 = mSegment1->Extent*det; -// -// if (s0 >= -extDet0) -// { -// if (s0 <= extDet0) -// { -// if (s1 >= -extDet1) -// { -// if (s1 <= extDet1) // region 0 (interior) -// { -// // Minimum at interior points of segments. -// Real invDet = ((Real)1)/det; -// s0 *= invDet; -// s1 *= invDet; -// sqrDist = s0*(s0 + a01*s1 + ((Real)2)*b0) + -// s1*(a01*s0 + s1 + ((Real)2)*b1) + c; -// } -// else // region 3 (side) -// { -// s1 = mSegment1->Extent; -// tmpS0 = -(a01*s1 + b0); -// if (tmpS0 < -mSegment0->Extent) -// { -// s0 = -mSegment0->Extent; -// sqrDist = s0*(s0 - ((Real)2)*tmpS0) + -// s1*(s1 + ((Real)2)*b1) + c; -// } -// else if (tmpS0 <= mSegment0->Extent) -// { -// s0 = tmpS0; -// sqrDist = -s0*s0 + s1*(s1 + ((Real)2)*b1) + c; -// } -// else -// { -// s0 = mSegment0->Extent; -// sqrDist = s0*(s0 - ((Real)2)*tmpS0) + -// s1*(s1 + ((Real)2)*b1) + c; -// } -// } -// } -// else // region 7 (side) -// { -// s1 = -mSegment1->Extent; -// tmpS0 = -(a01*s1 + b0); -// if (tmpS0 < -mSegment0->Extent) -// { -// s0 = -mSegment0->Extent; -// sqrDist = s0*(s0 - ((Real)2)*tmpS0) + -// s1*(s1 + ((Real)2)*b1) + c; -// } -// else if (tmpS0 <= mSegment0->Extent) -// { -// s0 = tmpS0; -// sqrDist = -s0*s0 + s1*(s1 + ((Real)2)*b1) + c; -// } -// else -// { -// s0 = mSegment0->Extent; -// sqrDist = s0*(s0 - ((Real)2)*tmpS0) + -// s1*(s1 + ((Real)2)*b1) + c; -// } -// } -// } -// else -// { -// if (s1 >= -extDet1) -// { -// if (s1 <= extDet1) // region 1 (side) -// { -// s0 = mSegment0->Extent; -// tmpS1 = -(a01*s0 + b1); -// if (tmpS1 < -mSegment1->Extent) -// { -// s1 = -mSegment1->Extent; -// sqrDist = s1*(s1 - ((Real)2)*tmpS1) + -// s0*(s0 + ((Real)2)*b0) + c; -// } -// else if (tmpS1 <= mSegment1->Extent) -// { -// s1 = tmpS1; -// sqrDist = -s1*s1 + s0*(s0 + ((Real)2)*b0) + c; -// } -// else -// { -// s1 = mSegment1->Extent; -// sqrDist = s1*(s1 - ((Real)2)*tmpS1) + -// s0*(s0 + ((Real)2)*b0) + c; -// } -// } -// else // region 2 (corner) -// { -// s1 = mSegment1->Extent; -// tmpS0 = -(a01*s1 + b0); -// if (tmpS0 < -mSegment0->Extent) -// { -// s0 = -mSegment0->Extent; -// sqrDist = s0*(s0 - ((Real)2)*tmpS0) + -// s1*(s1 + ((Real)2)*b1) + c; -// } -// else if (tmpS0 <= mSegment0->Extent) -// { -// s0 = tmpS0; -// sqrDist = -s0*s0 + s1*(s1 + ((Real)2)*b1) + c; -// } -// else -// { -// s0 = mSegment0->Extent; -// tmpS1 = -(a01*s0 + b1); -// if (tmpS1 < -mSegment1->Extent) -// { -// s1 = -mSegment1->Extent; -// sqrDist = s1*(s1 - ((Real)2)*tmpS1) + -// s0*(s0 + ((Real)2)*b0) + c; -// } -// else if (tmpS1 <= mSegment1->Extent) -// { -// s1 = tmpS1; -// sqrDist = -s1*s1 + s0*(s0 + ((Real)2)*b0) + c; -// } -// else -// { -// s1 = mSegment1->Extent; -// sqrDist = s1*(s1 - ((Real)2)*tmpS1) + -// s0*(s0 + ((Real)2)*b0) + c; -// } -// } -// } -// } -// else // region 8 (corner) -// { -// s1 = -mSegment1->Extent; -// tmpS0 = -(a01*s1 + b0); -// if (tmpS0 < -mSegment0->Extent) -// { -// s0 = -mSegment0->Extent; -// sqrDist = s0*(s0 - ((Real)2)*tmpS0) + -// s1*(s1 + ((Real)2)*b1) + c; -// } -// else if (tmpS0 <= mSegment0->Extent) -// { -// s0 = tmpS0; -// sqrDist = -s0*s0 + s1*(s1 + ((Real)2)*b1) + c; -// } -// else -// { -// s0 = mSegment0->Extent; -// tmpS1 = -(a01*s0 + b1); -// if (tmpS1 > mSegment1->Extent) -// { -// s1 = mSegment1->Extent; -// sqrDist = s1*(s1 - ((Real)2)*tmpS1) + -// s0*(s0 + ((Real)2)*b0) + c; -// } -// else if (tmpS1 >= -mSegment1->Extent) -// { -// s1 = tmpS1; -// sqrDist = -s1*s1 + s0*(s0 + ((Real)2)*b0) + c; -// } -// else -// { -// s1 = -mSegment1->Extent; -// sqrDist = s1*(s1 - ((Real)2)*tmpS1) + -// s0*(s0 + ((Real)2)*b0) + c; -// } -// } -// } -// } -// } -// else -// { -// if (s1 >= -extDet1) -// { -// if (s1 <= extDet1) // region 5 (side) -// { -// s0 = -mSegment0->Extent; -// tmpS1 = -(a01*s0 + b1); -// if (tmpS1 < -mSegment1->Extent) -// { -// s1 = -mSegment1->Extent; -// sqrDist = s1*(s1 - ((Real)2)*tmpS1) + -// s0*(s0 + ((Real)2)*b0) + c; -// } -// else if (tmpS1 <= mSegment1->Extent) -// { -// s1 = tmpS1; -// sqrDist = -s1*s1 + s0*(s0 + ((Real)2)*b0) + c; -// } -// else -// { -// s1 = mSegment1->Extent; -// sqrDist = s1*(s1 - ((Real)2)*tmpS1) + -// s0*(s0 + ((Real)2)*b0) + c; -// } -// } -// else // region 4 (corner) -// { -// s1 = mSegment1->Extent; -// tmpS0 = -(a01*s1 + b0); -// if (tmpS0 > mSegment0->Extent) -// { -// s0 = mSegment0->Extent; -// sqrDist = s0*(s0 - ((Real)2)*tmpS0) + -// s1*(s1 + ((Real)2)*b1) + c; -// } -// else if (tmpS0 >= -mSegment0->Extent) -// { -// s0 = tmpS0; -// sqrDist = -s0*s0 + s1*(s1 + ((Real)2)*b1) + c; -// } -// else -// { -// s0 = -mSegment0->Extent; -// tmpS1 = -(a01*s0 + b1); -// if (tmpS1 < -mSegment1->Extent) -// { -// s1 = -mSegment1->Extent; -// sqrDist = s1*(s1 - ((Real)2)*tmpS1) + -// s0*(s0 + ((Real)2)*b0) + c; -// } -// else if (tmpS1 <= mSegment1->Extent) -// { -// s1 = tmpS1; -// sqrDist = -s1*s1 + s0*(s0 + ((Real)2)*b0) + c; -// } -// else -// { -// s1 = mSegment1->Extent; -// sqrDist = s1*(s1 - ((Real)2)*tmpS1) + -// s0*(s0 + ((Real)2)*b0) + c; -// } -// } -// } -// } -// else // region 6 (corner) -// { -// s1 = -mSegment1->Extent; -// tmpS0 = -(a01*s1 + b0); -// if (tmpS0 > mSegment0->Extent) -// { -// s0 = mSegment0->Extent; -// sqrDist = s0*(s0 - ((Real)2)*tmpS0) + -// s1*(s1 + ((Real)2)*b1) + c; -// } -// else if (tmpS0 >= -mSegment0->Extent) -// { -// s0 = tmpS0; -// sqrDist = -s0*s0 + s1*(s1 + ((Real)2)*b1) + c; -// } -// else -// { -// s0 = -mSegment0->Extent; -// tmpS1 = -(a01*s0 + b1); -// if (tmpS1 < -mSegment1->Extent) -// { -// s1 = -mSegment1->Extent; -// sqrDist = s1*(s1 - ((Real)2)*tmpS1) + -// s0*(s0 + ((Real)2)*b0) + c; -// } -// else if (tmpS1 <= mSegment1->Extent) -// { -// s1 = tmpS1; -// sqrDist = -s1*s1 + s0*(s0 + ((Real)2)*b0) + c; -// } -// else -// { -// s1 = mSegment1->Extent; -// sqrDist = s1*(s1 - ((Real)2)*tmpS1) + -// s0*(s0 + ((Real)2)*b0) + c; -// } -// } -// } -// } -// } -// else -// { -// // The segments are parallel. The average b0 term is designed to -// // ensure symmetry of the function. That is, dist(seg0,seg1) and -// // dist(seg1,seg0) should produce the same number. -// Real e0pe1 = mSegment0->Extent + mSegment1->Extent; -// Real sign = (a01 > (Real)0 ? (Real)-1 : (Real)1); -// Real b0Avr = ((Real)0.5)*(b0 - sign*b1); -// Real lambda = -b0Avr; -// if (lambda < -e0pe1) -// { -// lambda = -e0pe1; -// } -// else if (lambda > e0pe1) -// { -// lambda = e0pe1; -// } -// -// s1 = -sign*lambda*mSegment1->Extent/e0pe1; -// s0 = lambda + sign*s1; -// sqrDist = lambda*(lambda + ((Real)2)*b0Avr) + c; -// } -// -// mClosestPoint0 = mSegment0->Center + s0*mSegment0->Direction; -// mClosestPoint1 = mSegment1->Center + s1*mSegment1->Direction; -// mSegment0Parameter = s0; -// mSegment1Parameter = s1; -// -// // Account for numerical round-off errors. -// if (sqrDist < (Real)0) -// { -// sqrDist = (Real)0; -// } -// return sqrDist; -//} - return 0.0d; +static public double segmentToSegment(Point3d s0start, Point3d s0end, + Point3d s1start, Point3d s1end, + Point3d s0int, Point3d s1int, double[] param) { + double s, t; + + Vector3d diff = new Vector3d(); + diff.sub(s0start, s1start); + + Vector3d seg0dir = new Vector3d(); + seg0dir.sub(s0end, s0start); + Vector3d seg1dir = new Vector3d(); + seg1dir.sub(s1end, s1start); + + double A = seg0dir.dot(seg0dir); // Dot(seg0dir,seg0dir); + double B = -seg0dir.dot(seg1dir); // -Dot(seg0dir,seg1dir); + double C = seg1dir.dot(seg1dir); // Dot(seg1dir,seg1dir); + double D = seg0dir.dot(diff); // Dot(seg0dir,diff); + double E; // -Dot(seg1dir,diff), defer until needed + double F = diff.dot(diff); // Dot(diff,diff); + double det = Math.abs(A * C - B * B); // A*C-B*B = |Cross(M0,M1)|^2 >= 0 + + double tmp; + + if (det >= ZERO_TOL) { + // line segments are not parallel + E = -seg1dir.dot(diff); // -Dot(seg1dir,diff); + s = B * E - C * D; + t = B * D - A * E; + + if (s >= 0) { + if (s <= det) { + if (t >= 0) { + if (t <= det) { // region 0 (interior) + // minimum at two interior points of 3D lines + double invDet = 1.0f / det; + s *= invDet; + t *= invDet; + if (s0int != null) s0int.scaleAdd(s, seg0dir, s0start); + if (s1int != null) s1int.scaleAdd(t, seg1dir, s1start); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(s * (A * s + B * t + 2 * D) + t + * (B * s + C * t + 2 * E) + F); + } + else { // region 3 (side) + t = 1; + tmp = B + D; + if (tmp >= 0) { + s = 0; + if (s0int != null) s0int.set(s0start); + if (s1int != null) s1int.set(s1end); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(C + 2 * E + F); + } + else if (-tmp >= A) { + s = 1; + if (s0int != null) s0int.set(s0end); + if (s1int != null) s1int.set(s1end); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(A + C + F + 2 * (E + tmp)); + } + else { + s = -tmp / A; + if (s0int != null) s0int.scaleAdd(s, seg0dir, s0start); + if (s1int != null) s1int.set(s1end); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(tmp * s + C + 2 * E + F); + } + } + } + else { // region 7 (side) + t = 0; + if (D >= 0) { + s = 0; + if (s0int != null) s0int.set(s0start); + if (s1int != null) s1int.set(s1start); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(F); + } + else if (-D >= A) { + s = 1; + if (s0int != null) s0int.set(s0end); + if (s1int != null) s1int.set(s1start); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(A + 2 * D + F); + } + else { + s = -D / A; + if (s0int != null) s0int.scaleAdd(s, seg0dir, s0start); + if (s1int != null) s1int.set(s1start); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(D * s + F); + } + } + } + else { + if (t >= 0) { + if (t <= det) { // region 1 (side) + s = 1; + tmp = B + E; + if (tmp >= 0) { + t = 0; + if (s0int != null) s0int.set(s0end); + if (s1int != null) s1int.set(s1start); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(A + 2 * D + F); + } + else if (-tmp >= C) { + t = 1; + if (s0int != null) s0int.set(s0end); + if (s1int != null) s1int.set(s1end); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(A + C + F + 2 * (D + tmp)); + } + else { + t = -tmp / C; + if (s0int != null) s0int.set(s0end); + if (s1int != null) s1int.scaleAdd(t, seg1dir, s1start); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(tmp * t + A + 2 * D + F); + } + } + else { // region 2 (corner) + tmp = B + D; + if (-tmp <= A) { + t = 1; + if (tmp >= 0) { + s = 0; + if (s0int != null) s0int.set(s0start); + if (s1int != null) s1int.set(s1end); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(C + 2 * E + F); + } + else { + s = -tmp / A; + if (s0int != null) s0int.scaleAdd(s, seg0dir, s0start); + if (s1int != null) s1int.set(s1end); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(tmp * s + C + 2 * E + F); + } + } + else { + s = 1; + tmp = B + E; + if (tmp >= 0) { + t = 0; + if (s0int != null) s0int.set(s0end); + if (s1int != null) s1int.set(s1start); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(A + 2 * D + F); + } + else if (-tmp >= C) { + t = 1; + if (s0int != null) s0int.set(s0end); + if (s1int != null) s1int.set(s1end); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(A + C + F + 2 * (D + tmp)); + } + else { + t = -tmp / C; + if (s0int != null) s0int.set(s0end); + if (s1int != null) s1int.scaleAdd(t, seg1dir, s1start); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(tmp * t + A + 2 * D + F); + } + } + } + } + else { // region 8 (corner) + if (-D < A) { + t = 0; + if (D >= 0) { + s = 0; + if (s0int != null) s0int.set(s0start); + if (s1int != null) s1int.set(s1start); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(F); + } + else { + s = -D / A; + if (s0int != null) s0int.scaleAdd(s, seg0dir, s0start); + if (s1int != null) s1int.set(s1start); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(D * s + F); + } + } + else { + s = 1; + tmp = B + E; + if (tmp >= 0) { + t = 0; + if (s0int != null) s0int.set(s0end); + if (s1int != null) s1int.set(s1start); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(A + 2 * D + F); + } + else if (-tmp >= C) { + t = 1; + if (s0int != null) s0int.set(s0end); + if (s1int != null) s1int.set(s1end); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(A + C + F + 2 * (D + tmp)); + } + else { + t = -tmp / C; + if (s0int != null) s0int.set(s0end); + if (s1int != null) s1int.scaleAdd(t, seg1dir, s1start); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(tmp * t + A + 2 * D + F); + } + } + } + } + } + else { + if (t >= 0) { + if (t <= det) { // region 5 (side) + s = 0; + if (E >= 0) { + t = 0; + if (s0int != null) s0int.set(s0start); + if (s1int != null) s1int.set(s1start); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(F); + } + else if (-E >= C) { + t = 1; + if (s0int != null) s0int.set(s0start); + if (s1int != null) s1int.set(s1end); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(C + 2 * E + F); + } + else { + t = -E / C; + if (s0int != null) s0int.set(s0start); + if (s1int != null) s1int.scaleAdd(t, seg1dir, s1start); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(E * t + F); + } + } + else { // region 4 (corner) + tmp = B + D; + if (tmp < 0) { + t = 1; + if (-tmp >= A) { + s = 1; + if (s0int != null) s0int.set(s0end); + if (s1int != null) s1int.set(s1end); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(A + C + F + 2 * (E + tmp)); + } + else { + s = -tmp / A; + if (s0int != null) s0int.scaleAdd(s, seg0dir, s0start); + if (s1int != null) s1int.set(s1end); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(tmp * s + C + 2 * E + F); + } + } + else { + s = 0; + if (E >= 0) { + t = 0; + if (s0int != null) s0int.set(s0start); + if (s1int != null) s1int.set(s1start); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(F); + } + else if (-E >= C) { + t = 1; + if (s0int != null) s0int.set(s0start); + if (s1int != null) s1int.set(s1end); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(C + 2 * E + F); + } + else { + t = -E / C; + if (s0int != null) s0int.set(s0start); + if (s1int != null) s1int.scaleAdd(t, seg1dir, s1start); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(E * t + F); + } + } + } + } + else { // region 6 (corner) + if (D < 0) { + t = 0; + if (-D >= A) { + s = 1; + if (s0int != null) s0int.set(s0end); + if (s1int != null) s1int.set(s1start); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(A + 2 * D + F); + } + else { + s = -D / A; + if (s0int != null) s0int.scaleAdd(s, seg0dir, s0start); + if (s1int != null) s1int.set(s1start); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(D * s + F); + } + } + else { + s = 0; + if (E >= 0) { + t = 0; + if (s0int != null) s0int.set(s0start); + if (s1int != null) s1int.set(s1start); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(F); + } + else if (-E >= C) { + t = 1; + if (s0int != null) s0int.set(s0start); + if (s1int != null) s1int.set(s1end); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(C + 2 * E + F); + } + else { + t = -E / C; + if (s0int != null) s0int.set(s0start); + if (s1int != null) s1int.scaleAdd(t, seg1dir, s1start); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(E * t + F); + } + } + } + } + } + else { + // line segments are parallel + if (B > 0) { + // direction vectors form an obtuse angle + if (D >= 0) { + s = 0; + t = 0; + if (s0int != null) s0int.set(s0start); + if (s1int != null) s1int.set(s1start); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(F); + } + else if (-D <= A) { + s = -D / A; + t = 0; + if (s0int != null) s0int.scaleAdd(s, seg0dir, s0start); + if (s1int != null) s1int.set(s1start); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(D * s + F); + } + else { + E = -seg1dir.dot(diff); // -Dot(seg1dir,diff); + s = 1; + tmp = A + D; + if (-tmp >= B) { + t = 1; + if (s0int != null) s0int.set(s0end); + if (s1int != null) s1int.set(s1end); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(A + C + F + 2 * (B + D + E)); + } + else { + t = -tmp / B; + if (s0int != null) s0int.set(s0end); + if (s1int != null) s1int.scaleAdd(t, seg1dir, s1start); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(A + 2 * D + F + t * (C * t + 2 * (B + E))); + } + } + } + else { + // direction vectors form an acute angle + if (-D >= A) { + s = 1; + t = 0; + if (s0int != null) s0int.set(s0end); + if (s1int != null) s1int.set(s1start); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(A + 2 * D + F); + } + else if (D <= 0) { + s = -D / A; + t = 0; + if (s0int != null) s0int.scaleAdd(s, seg0dir, s0start); + if (s1int != null) s1int.set(s1start); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(D * s + F); + } + else { + E = -seg1dir.dot(diff); // -Dot(seg1dir,diff); + s = 0; + if (D >= -B) { + t = 1; + if (s0int != null) s0int.set(s0start); + if (s1int != null) s1int.set(s1end); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(C + 2 * E + F); + } + else { + t = -D / B; + if (s0int != null) s0int.set(s0start); + if (s1int != null) s1int.scaleAdd(t, seg1dir, s1start); + if (param != null) { param[0] = s; param[1] = t; } + return Math.abs(F + t * (2 * E + C * t)); + } + } + } + } } } - |