diff options
author | Sven Gothel <[email protected]> | 2011-03-25 03:45:53 +0100 |
---|---|---|
committer | Sven Gothel <[email protected]> | 2011-03-25 03:45:53 +0100 |
commit | 524a7d61a4fc4a4d38aeb543b9887e787555bb71 (patch) | |
tree | ae96d72b84a3a9d618ffd45bf550562527bbdcea /src/jogamp/graph/math | |
parent | 89d1a2d2ecb414d62f44cbb2e3b9bd75746943cf (diff) |
Fitting of jogamp.graph.geom.plane: double -> float, package location, use PointFactory, GeneralPath -> Path2D, ..
Diffstat (limited to 'src/jogamp/graph/math')
-rw-r--r-- | src/jogamp/graph/math/plane/Crossing.java | 258 |
1 files changed, 130 insertions, 128 deletions
diff --git a/src/jogamp/graph/math/plane/Crossing.java b/src/jogamp/graph/math/plane/Crossing.java index 7da1c466e..5620da73a 100644 --- a/src/jogamp/graph/math/plane/Crossing.java +++ b/src/jogamp/graph/math/plane/Crossing.java @@ -17,22 +17,24 @@ /** * @author Denis M. Kishenko */ -package org.apache.harmony.awt.gl; +package jogamp.graph.math.plane; -import java.awt.Shape; -import java.awt.geom.PathIterator; +import jogamp.graph.math.MathFloat; + +import com.jogamp.graph.geom.plane.Path2D; +import com.jogamp.graph.geom.plane.PathIterator; public class Crossing { /** * Allowable tolerance for bounds comparison */ - static final double DELTA = 1E-5; + static final float DELTA = (float) 1E-5; /** * If roots have distance less then <code>ROOT_DELTA</code> they are double */ - static final double ROOT_DELTA = 1E-10; + static final float ROOT_DELTA = (float) 1E-10; /** * Rectangle cross segment @@ -50,10 +52,10 @@ public class Crossing { * @param res - the roots of the equation * @return a number of roots */ - public static int solveQuad(double eqn[], double res[]) { - double a = eqn[2]; - double b = eqn[1]; - double c = eqn[0]; + public static int solveQuad(float eqn[], float res[]) { + float a = eqn[2]; + float b = eqn[1]; + float c = eqn[0]; int rc = 0; if (a == 0.0) { if (b == 0.0) { @@ -61,16 +63,16 @@ public class Crossing { } res[rc++] = -c / b; } else { - double d = b * b - 4.0 * a * c; + float d = b * b - 4.0f * a * c; // d < 0.0 if (d < 0.0) { return 0; } - d = Math.sqrt(d); - res[rc++] = (- b + d) / (a * 2.0); + d = MathFloat.sqrt(d); + res[rc++] = (- b + d) / (a * 2.0f); // d != 0.0 if (d != 0.0) { - res[rc++] = (- b - d) / (a * 2.0); + res[rc++] = (- b - d) / (a * 2.0f); } } return fixRoots(res, rc); @@ -82,32 +84,32 @@ public class Crossing { * @param res - the roots of the equation * @return a number of roots */ - public static int solveCubic(double eqn[], double res[]) { - double d = eqn[3]; + public static int solveCubic(float eqn[], float res[]) { + float d = eqn[3]; if (d == 0) { return solveQuad(eqn, res); } - double a = eqn[2] / d; - double b = eqn[1] / d; - double c = eqn[0] / d; + float a = eqn[2] / d; + float b = eqn[1] / d; + float c = eqn[0] / d; int rc = 0; - double Q = (a * a - 3.0 * b) / 9.0; - double R = (2.0 * a * a * a - 9.0 * a * b + 27.0 * c) / 54.0; - double Q3 = Q * Q * Q; - double R2 = R * R; - double n = - a / 3.0; + float Q = (a * a - 3.0f * b) / 9.0f; + float R = (2.0f * a * a * a - 9.0f * a * b + 27.0f * c) / 54.0f; + float Q3 = Q * Q * Q; + float R2 = R * R; + float n = - a / 3.0f; if (R2 < Q3) { - double t = Math.acos(R / Math.sqrt(Q3)) / 3.0; - double p = 2.0 * Math.PI / 3.0; - double m = -2.0 * Math.sqrt(Q); - res[rc++] = m * Math.cos(t) + n; - res[rc++] = m * Math.cos(t + p) + n; - res[rc++] = m * Math.cos(t - p) + n; + float t = MathFloat.acos(R / MathFloat.sqrt(Q3)) / 3.0f; + float p = 2.0f * MathFloat.PI / 3.0f; + float m = -2.0f * MathFloat.sqrt(Q); + res[rc++] = m * MathFloat.cos(t) + n; + res[rc++] = m * MathFloat.cos(t + p) + n; + res[rc++] = m * MathFloat.cos(t - p) + n; } else { // Debug.println("R2 >= Q3 (" + R2 + "/" + Q3 + ")"); - double A = Math.pow(Math.abs(R) + Math.sqrt(R2 - Q3), 1.0 / 3.0); + float A = MathFloat.pow(MathFloat.abs(R) + MathFloat.sqrt(R2 - Q3), 1.0f / 3.0f); if (R > 0.0) { A = -A; } @@ -115,12 +117,12 @@ public class Crossing { if (-ROOT_DELTA < A && A < ROOT_DELTA) { res[rc++] = n; } else { - double B = Q / A; + float B = Q / A; res[rc++] = A + B + n; // if (R2 == Q3) { - double delta = R2 - Q3; + float delta = R2 - Q3; if (-ROOT_DELTA < delta && delta < ROOT_DELTA) { - res[rc++] = - (A + B) / 2.0 + n; + res[rc++] = - (A + B) / 2.0f + n; } } @@ -129,12 +131,12 @@ public class Crossing { } /** - * Excludes double roots. Roots are double if they lies enough close with each other. + * Excludes float roots. Roots are float if they lies enough close with each other. * @param res - the roots * @param rc - the roots count * @return new roots count */ - static int fixRoots(double res[], int rc) { + static int fixRoots(float res[], int rc) { int tc = 0; for(int i = 0; i < rc; i++) { out: { @@ -154,10 +156,10 @@ public class Crossing { */ public static class QuadCurve { - double ax, ay, bx, by; - double Ax, Ay, Bx, By; + float ax, ay, bx, by; + float Ax, Ay, Bx, By; - public QuadCurve(double x1, double y1, double cx, double cy, double x2, double y2) { + public QuadCurve(float x1, float y1, float cx, float cy, float x2, float y2) { ax = x2 - x1; ay = y2 - y1; bx = cx - x1; @@ -170,11 +172,11 @@ public class Crossing { Ay = ay - By; // Ay = ay - 2.0 * by } - int cross(double res[], int rc, double py1, double py2) { + int cross(float res[], int rc, float py1, float py2) { int cross = 0; for (int i = 0; i < rc; i++) { - double t = res[i]; + float t = res[i]; // CURVE-OUTSIDE if (t < -DELTA || t > 1 + DELTA) { @@ -195,10 +197,10 @@ public class Crossing { continue; } // CURVE-INSIDE - double ry = t * (t * Ay + By); + float ry = t * (t * Ay + By); // ry = t * t * Ay + t * By if (ry > py2) { - double rxt = t * Ax + bx; + float rxt = t * Ax + bx; // rxt = 2.0 * t * Ax + Bx = 2.0 * t * Ax + 2.0 * bx if (rxt > -DELTA && rxt < DELTA) { continue; @@ -210,12 +212,12 @@ public class Crossing { return cross; } - int solvePoint(double res[], double px) { - double eqn[] = {-px, Bx, Ax}; + int solvePoint(float res[], float px) { + float eqn[] = {-px, Bx, Ax}; return solveQuad(eqn, res); } - int solveExtrem(double res[]) { + int solveExtrem(float res[]) { int rc = 0; if (Ax != 0.0) { res[rc++] = - Bx / (Ax + Ax); @@ -226,11 +228,11 @@ public class Crossing { return rc; } - int addBound(double bound[], int bc, double res[], int rc, double minX, double maxX, boolean changeId, int id) { + int addBound(float bound[], int bc, float res[], int rc, float minX, float maxX, boolean changeId, int id) { for(int i = 0; i < rc; i++) { - double t = res[i]; + float t = res[i]; if (t > -DELTA && t < 1 + DELTA) { - double rx = t * (t * Ax + Bx); + float rx = t * (t * Ax + Bx); if (minX <= rx && rx <= maxX) { bound[bc++] = t; bound[bc++] = rx; @@ -252,11 +254,11 @@ public class Crossing { */ public static class CubicCurve { - double ax, ay, bx, by, cx, cy; - double Ax, Ay, Bx, By, Cx, Cy; - double Ax3, Bx2; + float ax, ay, bx, by, cx, cy; + float Ax, Ay, Bx, By, Cx, Cy; + float Ax3, Bx2; - public CubicCurve(double x1, double y1, double cx1, double cy1, double cx2, double cy2, double x2, double y2) { + public CubicCurve(float x1, float y1, float cx1, float cy1, float cx2, float cy2, float x2, float y2) { ax = x2 - x1; ay = y2 - y1; bx = cx1 - x1; @@ -276,10 +278,10 @@ public class Crossing { Bx2 = Bx + Bx; } - int cross(double res[], int rc, double py1, double py2) { + int cross(float res[], int rc, float py1, float py2) { int cross = 0; for (int i = 0; i < rc; i++) { - double t = res[i]; + float t = res[i]; // CURVE-OUTSIDE if (t < -DELTA || t > 1 + DELTA) { @@ -300,10 +302,10 @@ public class Crossing { continue; } // CURVE-INSIDE - double ry = t * (t * (t * Ay + By) + Cy); + float ry = t * (t * (t * Ay + By) + Cy); // ry = t * t * t * Ay + t * t * By + t * Cy if (ry > py2) { - double rxt = t * (t * Ax3 + Bx2) + Cx; + float rxt = t * (t * Ax3 + Bx2) + Cx; // rxt = 3.0 * t * t * Ax + 2.0 * t * Bx + Cx if (rxt > -DELTA && rxt < DELTA) { rxt = t * (Ax3 + Ax3) + Bx2; @@ -321,26 +323,26 @@ public class Crossing { return cross; } - int solvePoint(double res[], double px) { - double eqn[] = {-px, Cx, Bx, Ax}; + int solvePoint(float res[], float px) { + float eqn[] = {-px, Cx, Bx, Ax}; return solveCubic(eqn, res); } - int solveExtremX(double res[]) { - double eqn[] = {Cx, Bx2, Ax3}; + int solveExtremX(float res[]) { + float eqn[] = {Cx, Bx2, Ax3}; return solveQuad(eqn, res); } - int solveExtremY(double res[]) { - double eqn[] = {Cy, By + By, Ay + Ay + Ay}; + int solveExtremY(float res[]) { + float eqn[] = {Cy, By + By, Ay + Ay + Ay}; return solveQuad(eqn, res); } - int addBound(double bound[], int bc, double res[], int rc, double minX, double maxX, boolean changeId, int id) { + int addBound(float bound[], int bc, float res[], int rc, float minX, float maxX, boolean changeId, int id) { for(int i = 0; i < rc; i++) { - double t = res[i]; + float t = res[i]; if (t > -DELTA && t < 1 + DELTA) { - double rx = t * (t * (t * Ax + Bx) + Cx); + float rx = t * (t * (t * Ax + Bx) + Cx); if (minX <= rx && rx <= maxX) { bound[bc++] = t; bound[bc++] = rx; @@ -360,7 +362,7 @@ public class Crossing { /** * Returns how many times ray from point (x,y) cross line. */ - public static int crossLine(double x1, double y1, double x2, double y2, double x, double y) { + public static int crossLine(float x1, float y1, float x2, float y2, float x, float y) { // LEFT/RIGHT/UP/EMPTY if ((x < x1 && x < x2) || @@ -398,7 +400,7 @@ public class Crossing { /** * Returns how many times ray from point (x,y) cross quard curve */ - public static int crossQuad(double x1, double y1, double cx, double cy, double x2, double y2, double x, double y) { + public static int crossQuad(float x1, float y1, float cx, float cy, float x2, float y2, float x, float y) { // LEFT/RIGHT/UP/EMPTY if ((x < x1 && x < cx && x < x2) || @@ -419,9 +421,9 @@ public class Crossing { // INSIDE QuadCurve c = new QuadCurve(x1, y1, cx, cy, x2, y2); - double px = x - x1; - double py = y - y1; - double res[] = new double[3]; + float px = x - x1; + float py = y - y1; + float res[] = new float[3]; int rc = c.solvePoint(res, px); return c.cross(res, rc, py, py); @@ -430,7 +432,7 @@ public class Crossing { /** * Returns how many times ray from point (x,y) cross cubic curve */ - public static int crossCubic(double x1, double y1, double cx1, double cy1, double cx2, double cy2, double x2, double y2, double x, double y) { + public static int crossCubic(float x1, float y1, float cx1, float cy1, float cx2, float cy2, float x2, float y2, float x, float y) { // LEFT/RIGHT/UP/EMPTY if ((x < x1 && x < cx1 && x < cx2 && x < x2) || @@ -451,9 +453,9 @@ public class Crossing { // INSIDE CubicCurve c = new CubicCurve(x1, y1, cx1, cy1, cx2, cy2, x2, y2); - double px = x - x1; - double py = y - y1; - double res[] = new double[3]; + float px = x - x1; + float py = y - y1; + float res[] = new float[3]; int rc = c.solvePoint(res, px); return c.cross(res, rc, py, py); } @@ -461,11 +463,11 @@ public class Crossing { /** * Returns how many times ray from point (x,y) cross path */ - public static int crossPath(PathIterator p, double x, double y) { + public static int crossPath(PathIterator p, float x, float y) { int cross = 0; - double mx, my, cx, cy; - mx = my = cx = cy = 0.0; - double coords[] = new double[6]; + float mx, my, cx, cy; + mx = my = cx = cy = 0.0f; + float coords[] = new float[6]; while (!p.isDone()) { switch (p.currentSegment(coords)) { @@ -509,24 +511,24 @@ public class Crossing { /** * Returns how many times ray from point (x,y) cross shape */ - public static int crossShape(Shape s, double x, double y) { + public static int crossShape(Path2D s, float x, float y) { if (!s.getBounds2D().contains(x, y)) { return 0; } - return crossPath(s.getPathIterator(null), x, y); + return crossPath(s.iterator(null), x, y); } /** * Returns true if value enough small */ - public static boolean isZero(double val) { + public static boolean isZero(float val) { return -DELTA < val && val < DELTA; } /** * Sort bound array */ - static void sortBound(double bound[], int bc) { + static void sortBound(float bound[], int bc) { for(int i = 0; i < bc - 4; i += 4) { int k = i; for(int j = i + 4; j < bc; j += 4) { @@ -535,7 +537,7 @@ public class Crossing { } } if (k != i) { - double tmp = bound[i]; + float tmp = bound[i]; bound[i] = bound[k]; bound[k] = tmp; tmp = bound[i + 1]; @@ -554,7 +556,7 @@ public class Crossing { /** * Returns are bounds intersect or not intersect rectangle */ - static int crossBound(double bound[], int bc, double py1, double py2) { + static int crossBound(float bound[], int bc, float py1, float py2) { // LEFT/RIGHT if (bc == 0) { @@ -599,7 +601,7 @@ public class Crossing { /** * Returns how many times rectangle stripe cross line or the are intersect */ - public static int intersectLine(double x1, double y1, double x2, double y2, double rx1, double ry1, double rx2, double ry2) { + public static int intersectLine(float x1, float y1, float x2, float y2, float rx1, float ry1, float rx2, float ry2) { // LEFT/RIGHT/UP if ((rx2 < x1 && rx2 < x2) || @@ -619,7 +621,7 @@ public class Crossing { } // Build bound - double bx1, bx2; + float bx1, bx2; if (x1 < x2) { bx1 = x1 < rx1 ? rx1 : x1; bx2 = x2 < rx2 ? x2 : rx2; @@ -627,9 +629,9 @@ public class Crossing { bx1 = x2 < rx1 ? rx1 : x2; bx2 = x1 < rx2 ? x1 : rx2; } - double k = (y2 - y1) / (x2 - x1); - double by1 = k * (bx1 - x1) + y1; - double by2 = k * (bx2 - x1) + y1; + float k = (y2 - y1) / (x2 - x1); + float by1 = k * (bx1 - x1) + y1; + float by2 = k * (bx2 - x1) + y1; // BOUND-UP if (by1 < ry1 && by2 < ry1) { @@ -668,7 +670,7 @@ public class Crossing { /** * Returns how many times rectangle stripe cross quad curve or the are intersect */ - public static int intersectQuad(double x1, double y1, double cx, double cy, double x2, double y2, double rx1, double ry1, double rx2, double ry2) { + public static int intersectQuad(float x1, float y1, float cx, float cy, float x2, float y2, float rx1, float ry1, float rx2, float ry2) { // LEFT/RIGHT/UP ------------------------------------------------------ if ((rx2 < x1 && rx2 < cx && rx2 < x2) || @@ -688,13 +690,13 @@ public class Crossing { // INSIDE ------------------------------------------------------------- QuadCurve c = new QuadCurve(x1, y1, cx, cy, x2, y2); - double px1 = rx1 - x1; - double py1 = ry1 - y1; - double px2 = rx2 - x1; - double py2 = ry2 - y1; + float px1 = rx1 - x1; + float py1 = ry1 - y1; + float px2 = rx2 - x1; + float py2 = ry2 - y1; - double res1[] = new double[3]; - double res2[] = new double[3]; + float res1[] = new float[3]; + float res2[] = new float[3]; int rc1 = c.solvePoint(res1, px1); int rc2 = c.solvePoint(res2, px2); @@ -704,9 +706,9 @@ public class Crossing { } // Build bound -------------------------------------------------------- - double minX = px1 - DELTA; - double maxX = px2 + DELTA; - double bound[] = new double[28]; + float minX = px1 - DELTA; + float maxX = px2 + DELTA; + float bound[] = new float[28]; int bc = 0; // Add roots bc = c.addBound(bound, bc, res1, rc1, minX, maxX, false, 0); @@ -716,13 +718,13 @@ public class Crossing { bc = c.addBound(bound, bc, res2, rc2, minX, maxX, true, 2); // Add start and end if (rx1 < x1 && x1 < rx2) { - bound[bc++] = 0.0; - bound[bc++] = 0.0; - bound[bc++] = 0.0; + bound[bc++] = 0.0f; + bound[bc++] = 0.0f; + bound[bc++] = 0.0f; bound[bc++] = 4; } if (rx1 < x2 && x2 < rx2) { - bound[bc++] = 1.0; + bound[bc++] = 1.0f; bound[bc++] = c.ax; bound[bc++] = c.ay; bound[bc++] = 5; @@ -739,7 +741,7 @@ public class Crossing { /** * Returns how many times rectangle stripe cross cubic curve or the are intersect */ - public static int intersectCubic(double x1, double y1, double cx1, double cy1, double cx2, double cy2, double x2, double y2, double rx1, double ry1, double rx2, double ry2) { + public static int intersectCubic(float x1, float y1, float cx1, float cy1, float cx2, float cy2, float x2, float y2, float rx1, float ry1, float rx2, float ry2) { // LEFT/RIGHT/UP if ((rx2 < x1 && rx2 < cx1 && rx2 < cx2 && rx2 < x2) || @@ -759,13 +761,13 @@ public class Crossing { // INSIDE CubicCurve c = new CubicCurve(x1, y1, cx1, cy1, cx2, cy2, x2, y2); - double px1 = rx1 - x1; - double py1 = ry1 - y1; - double px2 = rx2 - x1; - double py2 = ry2 - y1; + float px1 = rx1 - x1; + float py1 = ry1 - y1; + float px2 = rx2 - x1; + float py2 = ry2 - y1; - double res1[] = new double[3]; - double res2[] = new double[3]; + float res1[] = new float[3]; + float res2[] = new float[3]; int rc1 = c.solvePoint(res1, px1); int rc2 = c.solvePoint(res2, px2); @@ -774,11 +776,11 @@ public class Crossing { return 0; } - double minX = px1 - DELTA; - double maxX = px2 + DELTA; + float minX = px1 - DELTA; + float maxX = px2 + DELTA; // Build bound -------------------------------------------------------- - double bound[] = new double[40]; + float bound[] = new float[40]; int bc = 0; // Add roots bc = c.addBound(bound, bc, res1, rc1, minX, maxX, false, 0); @@ -790,13 +792,13 @@ public class Crossing { bc = c.addBound(bound, bc, res2, rc2, minX, maxX, true, 4); // Add start and end if (rx1 < x1 && x1 < rx2) { - bound[bc++] = 0.0; - bound[bc++] = 0.0; - bound[bc++] = 0.0; + bound[bc++] = 0.0f; + bound[bc++] = 0.0f; + bound[bc++] = 0.0f; bound[bc++] = 6; } if (rx1 < x2 && x2 < rx2) { - bound[bc++] = 1.0; + bound[bc++] = 1.0f; bound[bc++] = c.ax; bound[bc++] = c.ay; bound[bc++] = 7; @@ -813,18 +815,18 @@ public class Crossing { /** * Returns how many times rectangle stripe cross path or the are intersect */ - public static int intersectPath(PathIterator p, double x, double y, double w, double h) { + public static int intersectPath(PathIterator p, float x, float y, float w, float h) { int cross = 0; int count; - double mx, my, cx, cy; - mx = my = cx = cy = 0.0; - double coords[] = new double[6]; + float mx, my, cx, cy; + mx = my = cx = cy = 0.0f; + float coords[] = new float[6]; - double rx1 = x; - double ry1 = y; - double rx2 = x + w; - double ry2 = y + h; + float rx1 = x; + float ry1 = y; + float rx2 = x + w; + float ry2 = y + h; while (!p.isDone()) { count = 0; @@ -872,11 +874,11 @@ public class Crossing { /** * Returns how many times rectangle stripe cross shape or the are intersect */ - public static int intersectShape(Shape s, double x, double y, double w, double h) { + public static int intersectShape(Path2D s, float x, float y, float w, float h) { if (!s.getBounds2D().intersects(x, y, w, h)) { return 0; } - return intersectPath(s.getPathIterator(null), x, y, w, h); + return intersectPath(s.iterator(null), x, y, w, h); } /** @@ -892,4 +894,4 @@ public class Crossing { public static boolean isInsideEvenOdd(int cross) { return (cross & 1) != 0; } -}
\ No newline at end of file +} |