protected void drawWAll(Color c, IDrawOperation op, Point3D[] wall, int dx, int dy, int dz) { Point3D a = new Point3D(0, 0, 0); Point3D b = new Point3D(0, 0, 0); int[] xs = new int[4]; int[] ys = new int[4]; for (int i = 0; i < 4; i++) { int j = (i == 3) ? 0 : i + 1; a.x = wall[i].x + dx; a.y = wall[i].y + dy; a.z = wall[i].z + dz; b.x = wall[j].x + dx; b.y = wall[j].y + dy; b.z = wall[j].z + dz; checkPoint(a); checkPoint(b); xs[i] = sx + a.x; ys[i] = sy - a.y; } op.fillPolygone(c, xs, ys, 1.0f); op.drawPolygone(Color.black, xs, ys, 1.0f); }
public Point3D getCenterX(int order) { Point3D point = new Point3D(); Point3D center = new Point3D(); int offset = order * 4; for (int p = 0; p < 4; p++) { this.getPoint(p + offset, point); center.set(center.x() + point.x(), center.y() + point.y(), center.z() + point.z()); } center.set(center.x() * 0.25, center.y() * 0.25, center.z() * 0.25); return center; }
/** * @param a * @param b * @return */ public static Point3D fois(Point3D a, double b) { Point3D c = new Point3D(a.x, a.x, a.x); c.x = a.x * b; c.y = a.y * b; c.z = a.z * b; return c; }
/** * @param a * @param b * @return */ public static Point3D div(Point3D a, double b) { Point3D c = new Point3D(a.x, a.x, a.x); c.x = a.x / b; c.y = a.y / b; c.z = a.z / b; return c; }
/** * @param a * @param b * @return */ public static Point3D plus(Point3D a, Point3D b) { Point3D c = new Point3D(a.x, a.x, a.x); c.x = a.x + b.x; c.y = a.y + b.y; c.z = a.z + b.z; return c; }
/** * @param a * @param b * @return */ public static Point3D moins(Point3D a, Point3D b) { Point3D c = new Point3D((a.x - b.x), (a.y - b.y), (a.z - b.z)); c.x = a.x - b.x; c.y = a.y - b.y; c.z = a.z - b.z; return c; }
public Point3D update(float time) { elapsedTime += time; if (elapsedTime == 0) { returnPos = pos1; } else if (elapsedTime >= 10) // traveling to a planet will take 10 seconds { returnPos.set(pos4.x, pos4.y, pos4.z); } else { float t = elapsedTime / 10f; returnPos.x = (1.0f - t) * (1.0f - t) * (1.0f - t) * pos1.x + 3 * (1.0f - t) * (1.0f - t) * t * pos2.x + 3 * (1.0f - t) * t * t * pos3.x + t * t * t * pos4.x; returnPos.y = (1.0f - t) * (1.0f - t) * (1.0f - t) * pos1.y + 3 * (1.0f - t) * (1.0f - t) * t * pos2.y + 3 * (1.0f - t) * t * t * pos3.y + t * t * t * pos4.y; returnPos.z = (1.0f - t) * (1.0f - t) * (1.0f - t) * pos1.z + 3 * (1.0f - t) * (1.0f - t) * t * pos2.z + 3 * (1.0f - t) * t * t * pos3.z + t * t * t * pos4.z; } return returnPos; }
@Override public void rotateZ(double angle) { Point3D point = new Point3D(); for (int p = 0; p < this.meshPoints.length; p += 3) { point.set(meshPoints[p], meshPoints[p + 1], meshPoints[p + 2]); point.rotateZ(angle); meshPoints[p] = (float) point.x(); meshPoints[p + 1] = (float) point.y(); meshPoints[p + 2] = (float) point.z(); } }
/** Returns XYZ coordinates of the point. Z will be set to 0 if Z is missing. */ Point3D getXYZ() { if (isEmptyImpl()) throw new GeometryException("This operation should not be performed on an empty geometry."); Point3D pt = new Point3D(); pt.x = m_attributes[0]; pt.y = m_attributes[1]; if (m_description.hasZ()) pt.z = m_attributes[2]; else pt.z = VertexDescription.getDefaultValue(Semantics.Z); return pt; }
@Override public Point3D convertToCameraCoordinateSystem(Point3D point3D) { Point3D converted = super.convertToCameraCoordinateSystem(point3D); double focalLength = cameraSettings.getFocalLength(); double ratio = focalLength / converted.z; double x = ratio * converted.x; double y = ratio * converted.y; double z = converted.z; converted.x = x; converted.y = y; converted.z = z; return converted; }
private void checkPoint(Point3D p) { // double cos = Math.cos(Math.PI/8); // double sin = Math.sin(Math.PI/8); // Point3D p2 = new Point3D(0,0,0); // sur l'axe z // p2.x = (int) (p.x*cos+p.y*sin); // p2.y = (int) (-p.x*sin+p.y*cos); // p2.z = p.z; // vx = (int) (pointFuite.x*cos+pointFuite.y*sin); // vy = (int) (-pointFuite.x*sin+pointFuite.y*cos); // vz = (int) (pointFuite.z); // p2.x = (int) (p.x*cos-p.z*sin); // p2.y = (int) (p.y); // p2.z = (int) (-p.x*sin+p.z*cos); // p2.x = (int) (p.x); // p2.y = (int) (p.y*cos-p.z*sin); // p2.z = (int) (p.y*sin+p.z*cos); // vx = (int) (pointFuite.x); // vy = (int) (pointFuite.y*cos-pointFuite.z*sin); // vz = (int) (pointFuite.y*sin+pointFuite.z*cos); // double a = (vy-p2.y) / (vx-p2.x); // double z = Math.min(vz, p2.z); // // double var = z / vz; // double yy = 1 - 1/(1+var*1.5); // double d = yy * (vx-p2.x); double a = (vy - p.y) / (vx - p.x); double z = Math.min(vz, p.z); double var = z / vz; double yy = 1 - 1 / (1 + var * 1.5); double d = yy * (vx - p.x); // p.x = p2.x; // p.y = p2.y; // p.z = p2.z; p.x += (int) d; p.y += (int) (a * d); }
private Color Brightness(Point3D lightPoint, Point3D p1, Point3D p2, Point3D p3, Color c) { Point3D normal, vec; normal = new Point3D(0, 0, 0); vec = new Point3D(0, 0, 0); normal.setNormal(p1, p2, p3); vec.x = p1.x - lightPoint.x; vec.y = p1.y - lightPoint.y; vec.z = p1.z - lightPoint.z; double cosa = ((normal.x * vec.x) + (normal.y * vec.y) + (normal.z * vec.z)); cosa /= (Math.sqrt(normal.x * normal.x + normal.y * normal.y + normal.z * normal.z) * Math.sqrt(vec.x * vec.x + vec.y * vec.y + vec.z * vec.z)); if (cosa < 0) cosa = 0; if (cosa > 1) cosa = 1; float[] hsb = Color.RGBtoHSB(c.getRed(), c.getGreen(), c.getBlue(), null); return Color.getHSBColor(hsb[0], hsb[1], (float) (hsb[2] + 0.3 * cosa)); }
public Point3D getCenterZ(int order) { Point3D point = new Point3D(); Point3D center = new Point3D(); int offset = order * 4; if (order == 0) { this.getPoint(0, point); center.set(center.x() + point.x(), center.y() + point.y(), center.z() + point.z()); this.getPoint(1, point); center.set(center.x() + point.x(), center.y() + point.y(), center.z() + point.z()); this.getPoint(4, point); center.set(center.x() + point.x(), center.y() + point.y(), center.z() + point.z()); this.getPoint(5, point); center.set(center.x() + point.x(), center.y() + point.y(), center.z() + point.z()); } else { this.getPoint(2, point); center.set(center.x() + point.x(), center.y() + point.y(), center.z() + point.z()); this.getPoint(3, point); center.set(center.x() + point.x(), center.y() + point.y(), center.z() + point.z()); this.getPoint(6, point); center.set(center.x() + point.x(), center.y() + point.y(), center.z() + point.z()); this.getPoint(7, point); center.set(center.x() + point.x(), center.y() + point.y(), center.z() + point.z()); } center.set(center.x() * 0.25, center.y() * 0.25, center.z() * 0.25); return center; }
private void updatePos(double off) { pos.x -= UNIT * Math.sin(Math.toRadians(rotAngle + off)); pos.z += UNIT * Math.cos(Math.toRadians(rotAngle + off)); }