-Clazz.declarePackage ("java.awt.geom");\r
-Clazz.load (["java.awt.Shape"], "java.awt.geom.QuadCurve2D", ["java.lang.InternalError", "java.awt.geom.FlatteningPathIterator", "$.Line2D", "$.Point2D", "$.QuadIterator", "$.Rectangle2D"], function () {\r
-c$ = Clazz.declareType (java.awt.geom, "QuadCurve2D", null, [java.awt.Shape, Cloneable]);\r
-Clazz.makeConstructor (c$, \r
-function () {\r
-});\r
-Clazz.defineMethod (c$, "setCurve", \r
-function (coords, offset) {\r
-this.setCurve (coords[offset + 0], coords[offset + 1], coords[offset + 2], coords[offset + 3], coords[offset + 4], coords[offset + 5]);\r
-}, "~A,~N");\r
-Clazz.defineMethod (c$, "setCurve", \r
-function (p1, cp, p2) {\r
-this.setCurve (p1.getX (), p1.getY (), cp.getX (), cp.getY (), p2.getX (), p2.getY ());\r
-}, "java.awt.geom.Point2D,java.awt.geom.Point2D,java.awt.geom.Point2D");\r
-Clazz.defineMethod (c$, "setCurve", \r
-function (pts, offset) {\r
-this.setCurve (pts[offset + 0].getX (), pts[offset + 0].getY (), pts[offset + 1].getX (), pts[offset + 1].getY (), pts[offset + 2].getX (), pts[offset + 2].getY ());\r
-}, "~A,~N");\r
-Clazz.defineMethod (c$, "setCurve", \r
-function (c) {\r
-this.setCurve (c.getX1 (), c.getY1 (), c.getCtrlX (), c.getCtrlY (), c.getX2 (), c.getY2 ());\r
-}, "java.awt.geom.QuadCurve2D");\r
-c$.getFlatnessSq = Clazz.defineMethod (c$, "getFlatnessSq", \r
-function (x1, y1, ctrlx, ctrly, x2, y2) {\r
-return java.awt.geom.Line2D.ptSegDistSq (x1, y1, x2, y2, ctrlx, ctrly);\r
-}, "~N,~N,~N,~N,~N,~N");\r
-c$.getFlatness = Clazz.defineMethod (c$, "getFlatness", \r
-function (x1, y1, ctrlx, ctrly, x2, y2) {\r
-return java.awt.geom.Line2D.ptSegDist (x1, y1, x2, y2, ctrlx, ctrly);\r
-}, "~N,~N,~N,~N,~N,~N");\r
-c$.getFlatnessSq = Clazz.defineMethod (c$, "getFlatnessSq", \r
-function (coords, offset) {\r
-return java.awt.geom.Line2D.ptSegDistSq (coords[offset + 0], coords[offset + 1], coords[offset + 4], coords[offset + 5], coords[offset + 2], coords[offset + 3]);\r
-}, "~A,~N");\r
-c$.getFlatness = Clazz.defineMethod (c$, "getFlatness", \r
-function (coords, offset) {\r
-return java.awt.geom.Line2D.ptSegDist (coords[offset + 0], coords[offset + 1], coords[offset + 4], coords[offset + 5], coords[offset + 2], coords[offset + 3]);\r
-}, "~A,~N");\r
-Clazz.defineMethod (c$, "getFlatnessSq", \r
-function () {\r
-return java.awt.geom.Line2D.ptSegDistSq (this.getX1 (), this.getY1 (), this.getX2 (), this.getY2 (), this.getCtrlX (), this.getCtrlY ());\r
-});\r
-Clazz.defineMethod (c$, "getFlatness", \r
-function () {\r
-return java.awt.geom.Line2D.ptSegDist (this.getX1 (), this.getY1 (), this.getX2 (), this.getY2 (), this.getCtrlX (), this.getCtrlY ());\r
-});\r
-Clazz.defineMethod (c$, "subdivide", \r
-function (left, right) {\r
-java.awt.geom.QuadCurve2D.subdivide (this, left, right);\r
-}, "java.awt.geom.QuadCurve2D,java.awt.geom.QuadCurve2D");\r
-c$.subdivide = Clazz.defineMethod (c$, "subdivide", \r
-function (src, left, right) {\r
-var x1 = src.getX1 ();\r
-var y1 = src.getY1 ();\r
-var ctrlx = src.getCtrlX ();\r
-var ctrly = src.getCtrlY ();\r
-var x2 = src.getX2 ();\r
-var y2 = src.getY2 ();\r
-var ctrlx1 = (x1 + ctrlx) / 2.0;\r
-var ctrly1 = (y1 + ctrly) / 2.0;\r
-var ctrlx2 = (x2 + ctrlx) / 2.0;\r
-var ctrly2 = (y2 + ctrly) / 2.0;\r
-ctrlx = (ctrlx1 + ctrlx2) / 2.0;\r
-ctrly = (ctrly1 + ctrly2) / 2.0;\r
-if (left != null) {\r
-left.setCurve (x1, y1, ctrlx1, ctrly1, ctrlx, ctrly);\r
-}if (right != null) {\r
-right.setCurve (ctrlx, ctrly, ctrlx2, ctrly2, x2, y2);\r
-}}, "java.awt.geom.QuadCurve2D,java.awt.geom.QuadCurve2D,java.awt.geom.QuadCurve2D");\r
-c$.subdivide = Clazz.defineMethod (c$, "subdivide", \r
-function (src, srcoff, left, leftoff, right, rightoff) {\r
-var x1 = src[srcoff + 0];\r
-var y1 = src[srcoff + 1];\r
-var ctrlx = src[srcoff + 2];\r
-var ctrly = src[srcoff + 3];\r
-var x2 = src[srcoff + 4];\r
-var y2 = src[srcoff + 5];\r
-if (left != null) {\r
-left[leftoff + 0] = x1;\r
-left[leftoff + 1] = y1;\r
-}if (right != null) {\r
-right[rightoff + 4] = x2;\r
-right[rightoff + 5] = y2;\r
-}x1 = (x1 + ctrlx) / 2.0;\r
-y1 = (y1 + ctrly) / 2.0;\r
-x2 = (x2 + ctrlx) / 2.0;\r
-y2 = (y2 + ctrly) / 2.0;\r
-ctrlx = (x1 + x2) / 2.0;\r
-ctrly = (y1 + y2) / 2.0;\r
-if (left != null) {\r
-left[leftoff + 2] = x1;\r
-left[leftoff + 3] = y1;\r
-left[leftoff + 4] = ctrlx;\r
-left[leftoff + 5] = ctrly;\r
-}if (right != null) {\r
-right[rightoff + 0] = ctrlx;\r
-right[rightoff + 1] = ctrly;\r
-right[rightoff + 2] = x2;\r
-right[rightoff + 3] = y2;\r
-}}, "~A,~N,~A,~N,~A,~N");\r
-c$.solveQuadratic = Clazz.defineMethod (c$, "solveQuadratic", \r
-function (eqn) {\r
-return java.awt.geom.QuadCurve2D.solveQuadratic (eqn, eqn);\r
-}, "~A");\r
-c$.solveQuadratic = Clazz.defineMethod (c$, "solveQuadratic", \r
-function (eqn, res) {\r
-var a = eqn[2];\r
-var b = eqn[1];\r
-var c = eqn[0];\r
-var roots = 0;\r
-if (a == 0.0) {\r
-if (b == 0.0) {\r
-return -1;\r
-}res[roots++] = -c / b;\r
-} else {\r
-var d = b * b - 4.0 * a * c;\r
-if (d < 0.0) {\r
-return 0;\r
-}d = Math.sqrt (d);\r
-if (b < 0.0) {\r
-d = -d;\r
-}var q = (b + d) / -2.0;\r
-res[roots++] = q / a;\r
-if (q != 0.0) {\r
-res[roots++] = c / q;\r
-}}return roots;\r
-}, "~A,~A");\r
-Clazz.defineMethod (c$, "contains", \r
-function (x, y) {\r
-var x1 = this.getX1 ();\r
-var y1 = this.getY1 ();\r
-var xc = this.getCtrlX ();\r
-var yc = this.getCtrlY ();\r
-var x2 = this.getX2 ();\r
-var y2 = this.getY2 ();\r
-var kx = x1 - 2 * xc + x2;\r
-var ky = y1 - 2 * yc + y2;\r
-var dx = x - x1;\r
-var dy = y - y1;\r
-var dxl = x2 - x1;\r
-var dyl = y2 - y1;\r
-var t0 = (dx * ky - dy * kx) / (dxl * ky - dyl * kx);\r
-if (t0 < 0 || t0 > 1 || t0 != t0) {\r
-return false;\r
-}var xb = kx * t0 * t0 + 2 * (xc - x1) * t0 + x1;\r
-var yb = ky * t0 * t0 + 2 * (yc - y1) * t0 + y1;\r
-var xl = dxl * t0 + x1;\r
-var yl = dyl * t0 + y1;\r
-return (x >= xb && x < xl) || (x >= xl && x < xb) || (y >= yb && y < yl) || (y >= yl && y < yb);\r
-}, "~N,~N");\r
-Clazz.defineMethod (c$, "contains", \r
-function (p) {\r
-return this.contains (p.getX (), p.getY ());\r
-}, "java.awt.geom.Point2D");\r
-c$.fillEqn = Clazz.defineMethod (c$, "fillEqn", \r
- function (eqn, val, c1, cp, c2) {\r
-eqn[0] = c1 - val;\r
-eqn[1] = cp + cp - c1 - c1;\r
-eqn[2] = c1 - cp - cp + c2;\r
-return;\r
-}, "~A,~N,~N,~N,~N");\r
-c$.evalQuadratic = Clazz.defineMethod (c$, "evalQuadratic", \r
- function (vals, num, include0, include1, inflect, c1, ctrl, c2) {\r
-var j = 0;\r
-for (var i = 0; i < num; i++) {\r
-var t = vals[i];\r
-if ((include0 ? t >= 0 : t > 0) && (include1 ? t <= 1 : t < 1) && (inflect == null || inflect[1] + 2 * inflect[2] * t != 0)) {\r
-var u = 1 - t;\r
-vals[j++] = c1 * u * u + 2 * ctrl * t * u + c2 * t * t;\r
-}}\r
-return j;\r
-}, "~A,~N,~B,~B,~A,~N,~N,~N");\r
-c$.getTag = Clazz.defineMethod (c$, "getTag", \r
- function (coord, low, high) {\r
-if (coord <= low) {\r
-return (coord < low ? -2 : -1);\r
-}if (coord >= high) {\r
-return (coord > high ? 2 : 1);\r
-}return 0;\r
-}, "~N,~N,~N");\r
-c$.inwards = Clazz.defineMethod (c$, "inwards", \r
- function (pttag, opt1tag, opt2tag) {\r
-switch (pttag) {\r
-case -2:\r
-case 2:\r
-default:\r
-return false;\r
-case -1:\r
-return (opt1tag >= 0 || opt2tag >= 0);\r
-case 0:\r
-return true;\r
-case 1:\r
-return (opt1tag <= 0 || opt2tag <= 0);\r
-}\r
-}, "~N,~N,~N");\r
-Clazz.defineMethod (c$, "intersects", \r
-function (x, y, w, h) {\r
-if (w <= 0 || h <= 0) {\r
-return false;\r
-}var x1 = this.getX1 ();\r
-var y1 = this.getY1 ();\r
-var x1tag = java.awt.geom.QuadCurve2D.getTag (x1, x, x + w);\r
-var y1tag = java.awt.geom.QuadCurve2D.getTag (y1, y, y + h);\r
-if (x1tag == 0 && y1tag == 0) {\r
-return true;\r
-}var x2 = this.getX2 ();\r
-var y2 = this.getY2 ();\r
-var x2tag = java.awt.geom.QuadCurve2D.getTag (x2, x, x + w);\r
-var y2tag = java.awt.geom.QuadCurve2D.getTag (y2, y, y + h);\r
-if (x2tag == 0 && y2tag == 0) {\r
-return true;\r
-}var ctrlx = this.getCtrlX ();\r
-var ctrly = this.getCtrlY ();\r
-var ctrlxtag = java.awt.geom.QuadCurve2D.getTag (ctrlx, x, x + w);\r
-var ctrlytag = java.awt.geom.QuadCurve2D.getTag (ctrly, y, y + h);\r
-if (x1tag < 0 && x2tag < 0 && ctrlxtag < 0) {\r
-return false;\r
-}if (y1tag < 0 && y2tag < 0 && ctrlytag < 0) {\r
-return false;\r
-}if (x1tag > 0 && x2tag > 0 && ctrlxtag > 0) {\r
-return false;\r
-}if (y1tag > 0 && y2tag > 0 && ctrlytag > 0) {\r
-return false;\r
-}if (java.awt.geom.QuadCurve2D.inwards (x1tag, x2tag, ctrlxtag) && java.awt.geom.QuadCurve2D.inwards (y1tag, y2tag, ctrlytag)) {\r
-return true;\r
-}if (java.awt.geom.QuadCurve2D.inwards (x2tag, x1tag, ctrlxtag) && java.awt.geom.QuadCurve2D.inwards (y2tag, y1tag, ctrlytag)) {\r
-return true;\r
-}var xoverlap = (x1tag * x2tag <= 0);\r
-var yoverlap = (y1tag * y2tag <= 0);\r
-if (x1tag == 0 && x2tag == 0 && yoverlap) {\r
-return true;\r
-}if (y1tag == 0 && y2tag == 0 && xoverlap) {\r
-return true;\r
-}var eqn = Clazz.newDoubleArray (3, 0);\r
-var res = Clazz.newDoubleArray (3, 0);\r
-if (!yoverlap) {\r
-java.awt.geom.QuadCurve2D.fillEqn (eqn, (y1tag < 0 ? y : y + h), y1, ctrly, y2);\r
-return (java.awt.geom.QuadCurve2D.solveQuadratic (eqn, res) == 2 && java.awt.geom.QuadCurve2D.evalQuadratic (res, 2, true, true, null, x1, ctrlx, x2) == 2 && java.awt.geom.QuadCurve2D.getTag (res[0], x, x + w) * java.awt.geom.QuadCurve2D.getTag (res[1], x, x + w) <= 0);\r
-}if (!xoverlap) {\r
-java.awt.geom.QuadCurve2D.fillEqn (eqn, (x1tag < 0 ? x : x + w), x1, ctrlx, x2);\r
-return (java.awt.geom.QuadCurve2D.solveQuadratic (eqn, res) == 2 && java.awt.geom.QuadCurve2D.evalQuadratic (res, 2, true, true, null, y1, ctrly, y2) == 2 && java.awt.geom.QuadCurve2D.getTag (res[0], y, y + h) * java.awt.geom.QuadCurve2D.getTag (res[1], y, y + h) <= 0);\r
-}var dx = x2 - x1;\r
-var dy = y2 - y1;\r
-var k = y2 * x1 - x2 * y1;\r
-var c1tag;\r
-var c2tag;\r
-if (y1tag == 0) {\r
-c1tag = x1tag;\r
-} else {\r
-c1tag = java.awt.geom.QuadCurve2D.getTag ((k + dx * (y1tag < 0 ? y : y + h)) / dy, x, x + w);\r
-}if (y2tag == 0) {\r
-c2tag = x2tag;\r
-} else {\r
-c2tag = java.awt.geom.QuadCurve2D.getTag ((k + dx * (y2tag < 0 ? y : y + h)) / dy, x, x + w);\r
-}if (c1tag * c2tag <= 0) {\r
-return true;\r
-}c1tag = ((c1tag * x1tag <= 0) ? y1tag : y2tag);\r
-java.awt.geom.QuadCurve2D.fillEqn (eqn, (c2tag < 0 ? x : x + w), x1, ctrlx, x2);\r
-var num = java.awt.geom.QuadCurve2D.solveQuadratic (eqn, res);\r
-java.awt.geom.QuadCurve2D.evalQuadratic (res, num, true, true, null, y1, ctrly, y2);\r
-c2tag = java.awt.geom.QuadCurve2D.getTag (res[0], y, y + h);\r
-return (c1tag * c2tag <= 0);\r
-}, "~N,~N,~N,~N");\r
-Clazz.defineMethod (c$, "intersects", \r
-function (r) {\r
-return this.intersects (r.getX (), r.getY (), r.getWidth (), r.getHeight ());\r
-}, "java.awt.geom.Rectangle2D");\r
-Clazz.defineMethod (c$, "contains", \r
-function (x, y, w, h) {\r
-if (w <= 0 || h <= 0) {\r
-return false;\r
-}return (this.contains (x, y) && this.contains (x + w, y) && this.contains (x + w, y + h) && this.contains (x, y + h));\r
-}, "~N,~N,~N,~N");\r
-Clazz.defineMethod (c$, "contains", \r
-function (r) {\r
-return this.contains (r.getX (), r.getY (), r.getWidth (), r.getHeight ());\r
-}, "java.awt.geom.Rectangle2D");\r
-Clazz.overrideMethod (c$, "getBounds", \r
-function () {\r
-return this.getBounds2D ().getBounds ();\r
-});\r
-Clazz.defineMethod (c$, "getPathIterator", \r
-function (at) {\r
-return new java.awt.geom.QuadIterator (this, at);\r
-}, "java.awt.geom.AffineTransform");\r
-Clazz.defineMethod (c$, "getPathIterator", \r
-function (at, flatness) {\r
-return new java.awt.geom.FlatteningPathIterator (this.getPathIterator (at), flatness);\r
-}, "java.awt.geom.AffineTransform,~N");\r
-Clazz.defineMethod (c$, "clone", \r
-function () {\r
-try {\r
-return Clazz.superCall (this, java.awt.geom.QuadCurve2D, "clone", []);\r
-} catch (e) {\r
-if (Clazz.exceptionOf (e, CloneNotSupportedException)) {\r
-throw new InternalError ();\r
-} else {\r
-throw e;\r
-}\r
-}\r
-});\r
-Clazz.pu$h(self.c$);\r
-c$ = Clazz.decorateAsClass (function () {\r
-this.x1 = 0;\r
-this.y1 = 0;\r
-this.ctrlx = 0;\r
-this.ctrly = 0;\r
-this.x2 = 0;\r
-this.y2 = 0;\r
-Clazz.instantialize (this, arguments);\r
-}, java.awt.geom.QuadCurve2D, "Float", java.awt.geom.QuadCurve2D);\r
-Clazz.makeConstructor (c$, \r
-function () {\r
-Clazz.superConstructor (this, java.awt.geom.QuadCurve2D.Float, []);\r
-});\r
-Clazz.makeConstructor (c$, \r
-function (a, b, c, d, e, f) {\r
-Clazz.superConstructor (this, java.awt.geom.QuadCurve2D.Float, []);\r
-this.setCurve (a, b, c, d, e, f);\r
-}, "~N,~N,~N,~N,~N,~N");\r
-Clazz.overrideMethod (c$, "getX1", \r
-function () {\r
-return this.x1;\r
-});\r
-Clazz.overrideMethod (c$, "getY1", \r
-function () {\r
-return this.y1;\r
-});\r
-Clazz.overrideMethod (c$, "getP1", \r
-function () {\r
-return new java.awt.geom.Point2D.Float (this.x1, this.y1);\r
-});\r
-Clazz.overrideMethod (c$, "getCtrlX", \r
-function () {\r
-return this.ctrlx;\r
-});\r
-Clazz.overrideMethod (c$, "getCtrlY", \r
-function () {\r
-return this.ctrly;\r
-});\r
-Clazz.overrideMethod (c$, "getCtrlPt", \r
-function () {\r
-return new java.awt.geom.Point2D.Float (this.ctrlx, this.ctrly);\r
-});\r
-Clazz.overrideMethod (c$, "getX2", \r
-function () {\r
-return this.x2;\r
-});\r
-Clazz.overrideMethod (c$, "getY2", \r
-function () {\r
-return this.y2;\r
-});\r
-Clazz.overrideMethod (c$, "getP2", \r
-function () {\r
-return new java.awt.geom.Point2D.Float (this.x2, this.y2);\r
-});\r
-Clazz.defineMethod (c$, "setCurve", \r
-function (a, b, c, d, e, f) {\r
-this.x1 = a;\r
-this.y1 = b;\r
-this.ctrlx = c;\r
-this.ctrly = d;\r
-this.x2 = e;\r
-this.y2 = f;\r
-}, "~N,~N,~N,~N,~N,~N");\r
-Clazz.defineMethod (c$, "setCurve", \r
-function (a, b, c, d, e, f) {\r
-this.x1 = a;\r
-this.y1 = b;\r
-this.ctrlx = c;\r
-this.ctrly = d;\r
-this.x2 = e;\r
-this.y2 = f;\r
-}, "~N,~N,~N,~N,~N,~N");\r
-Clazz.overrideMethod (c$, "getBounds2D", \r
-function () {\r
-var a = Math.min (Math.min (this.x1, this.x2), this.ctrlx);\r
-var b = Math.min (Math.min (this.y1, this.y2), this.ctrly);\r
-var c = Math.max (Math.max (this.x1, this.x2), this.ctrlx);\r
-var d = Math.max (Math.max (this.y1, this.y2), this.ctrly);\r
-return new java.awt.geom.Rectangle2D.Float (a, b, c - a, d - b);\r
-});\r
-c$ = Clazz.p0p ();\r
-Clazz.pu$h(self.c$);\r
-c$ = Clazz.decorateAsClass (function () {\r
-this.x1 = 0;\r
-this.y1 = 0;\r
-this.ctrlx = 0;\r
-this.ctrly = 0;\r
-this.x2 = 0;\r
-this.y2 = 0;\r
-Clazz.instantialize (this, arguments);\r
-}, java.awt.geom.QuadCurve2D, "Double", java.awt.geom.QuadCurve2D);\r
-Clazz.makeConstructor (c$, \r
-function () {\r
-Clazz.superConstructor (this, java.awt.geom.QuadCurve2D.Double, []);\r
-});\r
-Clazz.makeConstructor (c$, \r
-function (a, b, c, d, e, f) {\r
-Clazz.superConstructor (this, java.awt.geom.QuadCurve2D.Double, []);\r
-this.setCurve (a, b, c, d, e, f);\r
-}, "~N,~N,~N,~N,~N,~N");\r
-Clazz.overrideMethod (c$, "getX1", \r
-function () {\r
-return this.x1;\r
-});\r
-Clazz.overrideMethod (c$, "getY1", \r
-function () {\r
-return this.y1;\r
-});\r
-Clazz.overrideMethod (c$, "getP1", \r
-function () {\r
-return new java.awt.geom.Point2D.Double (this.x1, this.y1);\r
-});\r
-Clazz.overrideMethod (c$, "getCtrlX", \r
-function () {\r
-return this.ctrlx;\r
-});\r
-Clazz.overrideMethod (c$, "getCtrlY", \r
-function () {\r
-return this.ctrly;\r
-});\r
-Clazz.overrideMethod (c$, "getCtrlPt", \r
-function () {\r
-return new java.awt.geom.Point2D.Double (this.ctrlx, this.ctrly);\r
-});\r
-Clazz.overrideMethod (c$, "getX2", \r
-function () {\r
-return this.x2;\r
-});\r
-Clazz.overrideMethod (c$, "getY2", \r
-function () {\r
-return this.y2;\r
-});\r
-Clazz.overrideMethod (c$, "getP2", \r
-function () {\r
-return new java.awt.geom.Point2D.Double (this.x2, this.y2);\r
-});\r
-Clazz.defineMethod (c$, "setCurve", \r
-function (a, b, c, d, e, f) {\r
-this.x1 = a;\r
-this.y1 = b;\r
-this.ctrlx = c;\r
-this.ctrly = d;\r
-this.x2 = e;\r
-this.y2 = f;\r
-}, "~N,~N,~N,~N,~N,~N");\r
-Clazz.overrideMethod (c$, "getBounds2D", \r
-function () {\r
-var a = Math.min (Math.min (this.x1, this.x2), this.ctrlx);\r
-var b = Math.min (Math.min (this.y1, this.y2), this.ctrly);\r
-var c = Math.max (Math.max (this.x1, this.x2), this.ctrlx);\r
-var d = Math.max (Math.max (this.y1, this.y2), this.ctrly);\r
-return new java.awt.geom.Rectangle2D.Double (a, b, c - a, d - b);\r
-});\r
-c$ = Clazz.p0p ();\r
-Clazz.defineStatics (c$,\r
-"BELOW", -2,\r
-"LOWEDGE", -1,\r
-"INSIDE", 0,\r
-"HIGHEDGE", 1,\r
-"ABOVE", 2);\r
-});\r
+Clazz.declarePackage ("java.awt.geom");
+Clazz.load (["java.awt.Shape"], "java.awt.geom.QuadCurve2D", ["java.lang.InternalError", "java.awt.geom.FlatteningPathIterator", "$.Line2D", "$.Point2D", "$.QuadIterator", "$.Rectangle2D"], function () {
+c$ = Clazz.declareType (java.awt.geom, "QuadCurve2D", null, [java.awt.Shape, Cloneable]);
+Clazz.makeConstructor (c$,
+function () {
+});
+Clazz.defineMethod (c$, "setCurve",
+function (coords, offset) {
+this.setCurve (coords[offset + 0], coords[offset + 1], coords[offset + 2], coords[offset + 3], coords[offset + 4], coords[offset + 5]);
+}, "~A,~N");
+Clazz.defineMethod (c$, "setCurve",
+function (p1, cp, p2) {
+this.setCurve (p1.getX (), p1.getY (), cp.getX (), cp.getY (), p2.getX (), p2.getY ());
+}, "java.awt.geom.Point2D,java.awt.geom.Point2D,java.awt.geom.Point2D");
+Clazz.defineMethod (c$, "setCurve",
+function (pts, offset) {
+this.setCurve (pts[offset + 0].getX (), pts[offset + 0].getY (), pts[offset + 1].getX (), pts[offset + 1].getY (), pts[offset + 2].getX (), pts[offset + 2].getY ());
+}, "~A,~N");
+Clazz.defineMethod (c$, "setCurve",
+function (c) {
+this.setCurve (c.getX1 (), c.getY1 (), c.getCtrlX (), c.getCtrlY (), c.getX2 (), c.getY2 ());
+}, "java.awt.geom.QuadCurve2D");
+c$.getFlatnessSq = Clazz.defineMethod (c$, "getFlatnessSq",
+function (x1, y1, ctrlx, ctrly, x2, y2) {
+return java.awt.geom.Line2D.ptSegDistSq (x1, y1, x2, y2, ctrlx, ctrly);
+}, "~N,~N,~N,~N,~N,~N");
+c$.getFlatness = Clazz.defineMethod (c$, "getFlatness",
+function (x1, y1, ctrlx, ctrly, x2, y2) {
+return java.awt.geom.Line2D.ptSegDist (x1, y1, x2, y2, ctrlx, ctrly);
+}, "~N,~N,~N,~N,~N,~N");
+c$.getFlatnessSq = Clazz.defineMethod (c$, "getFlatnessSq",
+function (coords, offset) {
+return java.awt.geom.Line2D.ptSegDistSq (coords[offset + 0], coords[offset + 1], coords[offset + 4], coords[offset + 5], coords[offset + 2], coords[offset + 3]);
+}, "~A,~N");
+c$.getFlatness = Clazz.defineMethod (c$, "getFlatness",
+function (coords, offset) {
+return java.awt.geom.Line2D.ptSegDist (coords[offset + 0], coords[offset + 1], coords[offset + 4], coords[offset + 5], coords[offset + 2], coords[offset + 3]);
+}, "~A,~N");
+Clazz.defineMethod (c$, "getFlatnessSq",
+function () {
+return java.awt.geom.Line2D.ptSegDistSq (this.getX1 (), this.getY1 (), this.getX2 (), this.getY2 (), this.getCtrlX (), this.getCtrlY ());
+});
+Clazz.defineMethod (c$, "getFlatness",
+function () {
+return java.awt.geom.Line2D.ptSegDist (this.getX1 (), this.getY1 (), this.getX2 (), this.getY2 (), this.getCtrlX (), this.getCtrlY ());
+});
+Clazz.defineMethod (c$, "subdivide",
+function (left, right) {
+java.awt.geom.QuadCurve2D.subdivide (this, left, right);
+}, "java.awt.geom.QuadCurve2D,java.awt.geom.QuadCurve2D");
+c$.subdivide = Clazz.defineMethod (c$, "subdivide",
+function (src, left, right) {
+var x1 = src.getX1 ();
+var y1 = src.getY1 ();
+var ctrlx = src.getCtrlX ();
+var ctrly = src.getCtrlY ();
+var x2 = src.getX2 ();
+var y2 = src.getY2 ();
+var ctrlx1 = (x1 + ctrlx) / 2.0;
+var ctrly1 = (y1 + ctrly) / 2.0;
+var ctrlx2 = (x2 + ctrlx) / 2.0;
+var ctrly2 = (y2 + ctrly) / 2.0;
+ctrlx = (ctrlx1 + ctrlx2) / 2.0;
+ctrly = (ctrly1 + ctrly2) / 2.0;
+if (left != null) {
+left.setCurve (x1, y1, ctrlx1, ctrly1, ctrlx, ctrly);
+}if (right != null) {
+right.setCurve (ctrlx, ctrly, ctrlx2, ctrly2, x2, y2);
+}}, "java.awt.geom.QuadCurve2D,java.awt.geom.QuadCurve2D,java.awt.geom.QuadCurve2D");
+c$.subdivide = Clazz.defineMethod (c$, "subdivide",
+function (src, srcoff, left, leftoff, right, rightoff) {
+var x1 = src[srcoff + 0];
+var y1 = src[srcoff + 1];
+var ctrlx = src[srcoff + 2];
+var ctrly = src[srcoff + 3];
+var x2 = src[srcoff + 4];
+var y2 = src[srcoff + 5];
+if (left != null) {
+left[leftoff + 0] = x1;
+left[leftoff + 1] = y1;
+}if (right != null) {
+right[rightoff + 4] = x2;
+right[rightoff + 5] = y2;
+}x1 = (x1 + ctrlx) / 2.0;
+y1 = (y1 + ctrly) / 2.0;
+x2 = (x2 + ctrlx) / 2.0;
+y2 = (y2 + ctrly) / 2.0;
+ctrlx = (x1 + x2) / 2.0;
+ctrly = (y1 + y2) / 2.0;
+if (left != null) {
+left[leftoff + 2] = x1;
+left[leftoff + 3] = y1;
+left[leftoff + 4] = ctrlx;
+left[leftoff + 5] = ctrly;
+}if (right != null) {
+right[rightoff + 0] = ctrlx;
+right[rightoff + 1] = ctrly;
+right[rightoff + 2] = x2;
+right[rightoff + 3] = y2;
+}}, "~A,~N,~A,~N,~A,~N");
+c$.solveQuadratic = Clazz.defineMethod (c$, "solveQuadratic",
+function (eqn) {
+return java.awt.geom.QuadCurve2D.solveQuadratic (eqn, eqn);
+}, "~A");
+c$.solveQuadratic = Clazz.defineMethod (c$, "solveQuadratic",
+function (eqn, res) {
+var a = eqn[2];
+var b = eqn[1];
+var c = eqn[0];
+var roots = 0;
+if (a == 0.0) {
+if (b == 0.0) {
+return -1;
+}res[roots++] = -c / b;
+} else {
+var d = b * b - 4.0 * a * c;
+if (d < 0.0) {
+return 0;
+}d = Math.sqrt (d);
+if (b < 0.0) {
+d = -d;
+}var q = (b + d) / -2.0;
+res[roots++] = q / a;
+if (q != 0.0) {
+res[roots++] = c / q;
+}}return roots;
+}, "~A,~A");
+Clazz.defineMethod (c$, "contains",
+function (x, y) {
+var x1 = this.getX1 ();
+var y1 = this.getY1 ();
+var xc = this.getCtrlX ();
+var yc = this.getCtrlY ();
+var x2 = this.getX2 ();
+var y2 = this.getY2 ();
+var kx = x1 - 2 * xc + x2;
+var ky = y1 - 2 * yc + y2;
+var dx = x - x1;
+var dy = y - y1;
+var dxl = x2 - x1;
+var dyl = y2 - y1;
+var t0 = (dx * ky - dy * kx) / (dxl * ky - dyl * kx);
+if (t0 < 0 || t0 > 1 || t0 != t0) {
+return false;
+}var xb = kx * t0 * t0 + 2 * (xc - x1) * t0 + x1;
+var yb = ky * t0 * t0 + 2 * (yc - y1) * t0 + y1;
+var xl = dxl * t0 + x1;
+var yl = dyl * t0 + y1;
+return (x >= xb && x < xl) || (x >= xl && x < xb) || (y >= yb && y < yl) || (y >= yl && y < yb);
+}, "~N,~N");
+Clazz.defineMethod (c$, "contains",
+function (p) {
+return this.contains (p.getX (), p.getY ());
+}, "java.awt.geom.Point2D");
+c$.fillEqn = Clazz.defineMethod (c$, "fillEqn",
+ function (eqn, val, c1, cp, c2) {
+eqn[0] = c1 - val;
+eqn[1] = cp + cp - c1 - c1;
+eqn[2] = c1 - cp - cp + c2;
+return;
+}, "~A,~N,~N,~N,~N");
+c$.evalQuadratic = Clazz.defineMethod (c$, "evalQuadratic",
+ function (vals, num, include0, include1, inflect, c1, ctrl, c2) {
+var j = 0;
+for (var i = 0; i < num; i++) {
+var t = vals[i];
+if ((include0 ? t >= 0 : t > 0) && (include1 ? t <= 1 : t < 1) && (inflect == null || inflect[1] + 2 * inflect[2] * t != 0)) {
+var u = 1 - t;
+vals[j++] = c1 * u * u + 2 * ctrl * t * u + c2 * t * t;
+}}
+return j;
+}, "~A,~N,~B,~B,~A,~N,~N,~N");
+c$.getTag = Clazz.defineMethod (c$, "getTag",
+ function (coord, low, high) {
+if (coord <= low) {
+return (coord < low ? -2 : -1);
+}if (coord >= high) {
+return (coord > high ? 2 : 1);
+}return 0;
+}, "~N,~N,~N");
+c$.inwards = Clazz.defineMethod (c$, "inwards",
+ function (pttag, opt1tag, opt2tag) {
+switch (pttag) {
+case -2:
+case 2:
+default:
+return false;
+case -1:
+return (opt1tag >= 0 || opt2tag >= 0);
+case 0:
+return true;
+case 1:
+return (opt1tag <= 0 || opt2tag <= 0);
+}
+}, "~N,~N,~N");
+Clazz.defineMethod (c$, "intersects",
+function (x, y, w, h) {
+if (w <= 0 || h <= 0) {
+return false;
+}var x1 = this.getX1 ();
+var y1 = this.getY1 ();
+var x1tag = java.awt.geom.QuadCurve2D.getTag (x1, x, x + w);
+var y1tag = java.awt.geom.QuadCurve2D.getTag (y1, y, y + h);
+if (x1tag == 0 && y1tag == 0) {
+return true;
+}var x2 = this.getX2 ();
+var y2 = this.getY2 ();
+var x2tag = java.awt.geom.QuadCurve2D.getTag (x2, x, x + w);
+var y2tag = java.awt.geom.QuadCurve2D.getTag (y2, y, y + h);
+if (x2tag == 0 && y2tag == 0) {
+return true;
+}var ctrlx = this.getCtrlX ();
+var ctrly = this.getCtrlY ();
+var ctrlxtag = java.awt.geom.QuadCurve2D.getTag (ctrlx, x, x + w);
+var ctrlytag = java.awt.geom.QuadCurve2D.getTag (ctrly, y, y + h);
+if (x1tag < 0 && x2tag < 0 && ctrlxtag < 0) {
+return false;
+}if (y1tag < 0 && y2tag < 0 && ctrlytag < 0) {
+return false;
+}if (x1tag > 0 && x2tag > 0 && ctrlxtag > 0) {
+return false;
+}if (y1tag > 0 && y2tag > 0 && ctrlytag > 0) {
+return false;
+}if (java.awt.geom.QuadCurve2D.inwards (x1tag, x2tag, ctrlxtag) && java.awt.geom.QuadCurve2D.inwards (y1tag, y2tag, ctrlytag)) {
+return true;
+}if (java.awt.geom.QuadCurve2D.inwards (x2tag, x1tag, ctrlxtag) && java.awt.geom.QuadCurve2D.inwards (y2tag, y1tag, ctrlytag)) {
+return true;
+}var xoverlap = (x1tag * x2tag <= 0);
+var yoverlap = (y1tag * y2tag <= 0);
+if (x1tag == 0 && x2tag == 0 && yoverlap) {
+return true;
+}if (y1tag == 0 && y2tag == 0 && xoverlap) {
+return true;
+}var eqn = Clazz.newDoubleArray (3, 0);
+var res = Clazz.newDoubleArray (3, 0);
+if (!yoverlap) {
+java.awt.geom.QuadCurve2D.fillEqn (eqn, (y1tag < 0 ? y : y + h), y1, ctrly, y2);
+return (java.awt.geom.QuadCurve2D.solveQuadratic (eqn, res) == 2 && java.awt.geom.QuadCurve2D.evalQuadratic (res, 2, true, true, null, x1, ctrlx, x2) == 2 && java.awt.geom.QuadCurve2D.getTag (res[0], x, x + w) * java.awt.geom.QuadCurve2D.getTag (res[1], x, x + w) <= 0);
+}if (!xoverlap) {
+java.awt.geom.QuadCurve2D.fillEqn (eqn, (x1tag < 0 ? x : x + w), x1, ctrlx, x2);
+return (java.awt.geom.QuadCurve2D.solveQuadratic (eqn, res) == 2 && java.awt.geom.QuadCurve2D.evalQuadratic (res, 2, true, true, null, y1, ctrly, y2) == 2 && java.awt.geom.QuadCurve2D.getTag (res[0], y, y + h) * java.awt.geom.QuadCurve2D.getTag (res[1], y, y + h) <= 0);
+}var dx = x2 - x1;
+var dy = y2 - y1;
+var k = y2 * x1 - x2 * y1;
+var c1tag;
+var c2tag;
+if (y1tag == 0) {
+c1tag = x1tag;
+} else {
+c1tag = java.awt.geom.QuadCurve2D.getTag ((k + dx * (y1tag < 0 ? y : y + h)) / dy, x, x + w);
+}if (y2tag == 0) {
+c2tag = x2tag;
+} else {
+c2tag = java.awt.geom.QuadCurve2D.getTag ((k + dx * (y2tag < 0 ? y : y + h)) / dy, x, x + w);
+}if (c1tag * c2tag <= 0) {
+return true;
+}c1tag = ((c1tag * x1tag <= 0) ? y1tag : y2tag);
+java.awt.geom.QuadCurve2D.fillEqn (eqn, (c2tag < 0 ? x : x + w), x1, ctrlx, x2);
+var num = java.awt.geom.QuadCurve2D.solveQuadratic (eqn, res);
+java.awt.geom.QuadCurve2D.evalQuadratic (res, num, true, true, null, y1, ctrly, y2);
+c2tag = java.awt.geom.QuadCurve2D.getTag (res[0], y, y + h);
+return (c1tag * c2tag <= 0);
+}, "~N,~N,~N,~N");
+Clazz.defineMethod (c$, "intersects",
+function (r) {
+return this.intersects (r.getX (), r.getY (), r.getWidth (), r.getHeight ());
+}, "java.awt.geom.Rectangle2D");
+Clazz.defineMethod (c$, "contains",
+function (x, y, w, h) {
+if (w <= 0 || h <= 0) {
+return false;
+}return (this.contains (x, y) && this.contains (x + w, y) && this.contains (x + w, y + h) && this.contains (x, y + h));
+}, "~N,~N,~N,~N");
+Clazz.defineMethod (c$, "contains",
+function (r) {
+return this.contains (r.getX (), r.getY (), r.getWidth (), r.getHeight ());
+}, "java.awt.geom.Rectangle2D");
+Clazz.overrideMethod (c$, "getBounds",
+function () {
+return this.getBounds2D ().getBounds ();
+});
+Clazz.defineMethod (c$, "getPathIterator",
+function (at) {
+return new java.awt.geom.QuadIterator (this, at);
+}, "java.awt.geom.AffineTransform");
+Clazz.defineMethod (c$, "getPathIterator",
+function (at, flatness) {
+return new java.awt.geom.FlatteningPathIterator (this.getPathIterator (at), flatness);
+}, "java.awt.geom.AffineTransform,~N");
+Clazz.defineMethod (c$, "clone",
+function () {
+try {
+return Clazz.superCall (this, java.awt.geom.QuadCurve2D, "clone", []);
+} catch (e) {
+if (Clazz.exceptionOf (e, CloneNotSupportedException)) {
+throw new InternalError ();
+} else {
+throw e;
+}
+}
+});
+Clazz.pu$h(self.c$);
+c$ = Clazz.decorateAsClass (function () {
+this.x1 = 0;
+this.y1 = 0;
+this.ctrlx = 0;
+this.ctrly = 0;
+this.x2 = 0;
+this.y2 = 0;
+Clazz.instantialize (this, arguments);
+}, java.awt.geom.QuadCurve2D, "Float", java.awt.geom.QuadCurve2D);
+Clazz.makeConstructor (c$,
+function () {
+Clazz.superConstructor (this, java.awt.geom.QuadCurve2D.Float, []);
+});
+Clazz.makeConstructor (c$,
+function (a, b, c, d, e, f) {
+Clazz.superConstructor (this, java.awt.geom.QuadCurve2D.Float, []);
+this.setCurve (a, b, c, d, e, f);
+}, "~N,~N,~N,~N,~N,~N");
+Clazz.overrideMethod (c$, "getX1",
+function () {
+return this.x1;
+});
+Clazz.overrideMethod (c$, "getY1",
+function () {
+return this.y1;
+});
+Clazz.overrideMethod (c$, "getP1",
+function () {
+return new java.awt.geom.Point2D.Float (this.x1, this.y1);
+});
+Clazz.overrideMethod (c$, "getCtrlX",
+function () {
+return this.ctrlx;
+});
+Clazz.overrideMethod (c$, "getCtrlY",
+function () {
+return this.ctrly;
+});
+Clazz.overrideMethod (c$, "getCtrlPt",
+function () {
+return new java.awt.geom.Point2D.Float (this.ctrlx, this.ctrly);
+});
+Clazz.overrideMethod (c$, "getX2",
+function () {
+return this.x2;
+});
+Clazz.overrideMethod (c$, "getY2",
+function () {
+return this.y2;
+});
+Clazz.overrideMethod (c$, "getP2",
+function () {
+return new java.awt.geom.Point2D.Float (this.x2, this.y2);
+});
+Clazz.defineMethod (c$, "setCurve",
+function (a, b, c, d, e, f) {
+this.x1 = a;
+this.y1 = b;
+this.ctrlx = c;
+this.ctrly = d;
+this.x2 = e;
+this.y2 = f;
+}, "~N,~N,~N,~N,~N,~N");
+Clazz.defineMethod (c$, "setCurve",
+function (a, b, c, d, e, f) {
+this.x1 = a;
+this.y1 = b;
+this.ctrlx = c;
+this.ctrly = d;
+this.x2 = e;
+this.y2 = f;
+}, "~N,~N,~N,~N,~N,~N");
+Clazz.overrideMethod (c$, "getBounds2D",
+function () {
+var a = Math.min (Math.min (this.x1, this.x2), this.ctrlx);
+var b = Math.min (Math.min (this.y1, this.y2), this.ctrly);
+var c = Math.max (Math.max (this.x1, this.x2), this.ctrlx);
+var d = Math.max (Math.max (this.y1, this.y2), this.ctrly);
+return new java.awt.geom.Rectangle2D.Float (a, b, c - a, d - b);
+});
+c$ = Clazz.p0p ();
+Clazz.pu$h(self.c$);
+c$ = Clazz.decorateAsClass (function () {
+this.x1 = 0;
+this.y1 = 0;
+this.ctrlx = 0;
+this.ctrly = 0;
+this.x2 = 0;
+this.y2 = 0;
+Clazz.instantialize (this, arguments);
+}, java.awt.geom.QuadCurve2D, "Double", java.awt.geom.QuadCurve2D);
+Clazz.makeConstructor (c$,
+function () {
+Clazz.superConstructor (this, java.awt.geom.QuadCurve2D.Double, []);
+});
+Clazz.makeConstructor (c$,
+function (a, b, c, d, e, f) {
+Clazz.superConstructor (this, java.awt.geom.QuadCurve2D.Double, []);
+this.setCurve (a, b, c, d, e, f);
+}, "~N,~N,~N,~N,~N,~N");
+Clazz.overrideMethod (c$, "getX1",
+function () {
+return this.x1;
+});
+Clazz.overrideMethod (c$, "getY1",
+function () {
+return this.y1;
+});
+Clazz.overrideMethod (c$, "getP1",
+function () {
+return new java.awt.geom.Point2D.Double (this.x1, this.y1);
+});
+Clazz.overrideMethod (c$, "getCtrlX",
+function () {
+return this.ctrlx;
+});
+Clazz.overrideMethod (c$, "getCtrlY",
+function () {
+return this.ctrly;
+});
+Clazz.overrideMethod (c$, "getCtrlPt",
+function () {
+return new java.awt.geom.Point2D.Double (this.ctrlx, this.ctrly);
+});
+Clazz.overrideMethod (c$, "getX2",
+function () {
+return this.x2;
+});
+Clazz.overrideMethod (c$, "getY2",
+function () {
+return this.y2;
+});
+Clazz.overrideMethod (c$, "getP2",
+function () {
+return new java.awt.geom.Point2D.Double (this.x2, this.y2);
+});
+Clazz.defineMethod (c$, "setCurve",
+function (a, b, c, d, e, f) {
+this.x1 = a;
+this.y1 = b;
+this.ctrlx = c;
+this.ctrly = d;
+this.x2 = e;
+this.y2 = f;
+}, "~N,~N,~N,~N,~N,~N");
+Clazz.overrideMethod (c$, "getBounds2D",
+function () {
+var a = Math.min (Math.min (this.x1, this.x2), this.ctrlx);
+var b = Math.min (Math.min (this.y1, this.y2), this.ctrly);
+var c = Math.max (Math.max (this.x1, this.x2), this.ctrlx);
+var d = Math.max (Math.max (this.y1, this.y2), this.ctrly);
+return new java.awt.geom.Rectangle2D.Double (a, b, c - a, d - b);
+});
+c$ = Clazz.p0p ();
+Clazz.defineStatics (c$,
+"BELOW", -2,
+"LOWEDGE", -1,
+"INSIDE", 0,
+"HIGHEDGE", 1,
+"ABOVE", 2);
+});
git://source.jalview.org / jalviewjs.git / blobdiff