diff options
Diffstat (limited to 'src/graphui/classes/com/jogamp')
6 files changed, 188 insertions, 90 deletions
diff --git a/src/graphui/classes/com/jogamp/graph/ui/AnimGroup.java b/src/graphui/classes/com/jogamp/graph/ui/AnimGroup.java index 01e9f0611..450b2cda5 100644 --- a/src/graphui/classes/com/jogamp/graph/ui/AnimGroup.java +++ b/src/graphui/classes/com/jogamp/graph/ui/AnimGroup.java @@ -306,7 +306,7 @@ public class AnimGroup extends Group { * <p> * The given {@link PMVMatrix4f} has to be setup properly for this object, * i.e. its {@link GLMatrixFunc#GL_PROJECTION} and {@link GLMatrixFunc#GL_MODELVIEW} for the surrounding scene - * only, without a shape's {@link #setTransformMv(PMVMatrix4f)}. See {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti)}. + * only, without a shape's {@link #applyMatToMv(PMVMatrix4f)}. See {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti)}. * </p> * @param pixPerMM monitor pixel per millimeter for accurate animation * @param glp used {@link GLProfile} @@ -331,7 +331,7 @@ public class AnimGroup extends Group { refShape.validate(glp); pmv.pushMv(); { - refShape.setTransformMv(pmv); + refShape.applyMatToMv(pmv); as = new Set(pixPerMM, refShape.getPixelPerShapeUnit(pmv, viewport, new float[2]), refShape, accel, velocity, ang_accel, ang_velo, new ArrayList<ShapeData>(), new AABBox(), lerp); @@ -347,7 +347,7 @@ public class AnimGroup extends Group { * <p> * The given {@link PMVMatrix4f} has to be setup properly for this object, * i.e. its {@link GLMatrixFunc#GL_PROJECTION} and {@link GLMatrixFunc#GL_MODELVIEW} for the surrounding scene - * only, without a shape's {@link #setTransformMv(PMVMatrix4f)}. See {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti)}. + * only, without a shape's {@link #applyMatToMv(PMVMatrix4f)}. See {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti)}. * </p> * @param pixPerMM monitor pixel per millimeter for accurate animation * @param glp used {@link GLProfile} @@ -381,7 +381,7 @@ public class AnimGroup extends Group { refShape.validate(glp); pmv.pushMv(); { - refShape.setTransformMv(pmv); + refShape.applyMatToMv(pmv); as = new Set(pixPerMM, refShape.getPixelPerShapeUnit(pmv, viewport, new float[2]), refShape, accel, velocity, ang_accel, ang_velo, allShapes, sourceBounds, lerp); } @@ -426,7 +426,7 @@ public class AnimGroup extends Group { * <p> * The given {@link PMVMatrix4f} has to be setup properly for this object, * i.e. its {@link GLMatrixFunc#GL_PROJECTION} and {@link GLMatrixFunc#GL_MODELVIEW} for the surrounding scene - * only, without a shape's {@link #setTransformMv(PMVMatrix4f)}. See {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti)}. + * only, without a shape's {@link #applyMatToMv(PMVMatrix4f)}. See {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti)}. * </p> * @param pixPerMM monitor pixel per millimeter for accurate animation * @param glp used {@link GLProfile} @@ -475,7 +475,7 @@ public class AnimGroup extends Group { * <p> * The given {@link PMVMatrix4f} has to be setup properly for this object, * i.e. its {@link GLMatrixFunc#GL_PROJECTION} and {@link GLMatrixFunc#GL_MODELVIEW} for the surrounding scene - * only, without a shape's {@link #setTransformMv(PMVMatrix4f)}. See {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti)}. + * only, without a shape's {@link #applyMatToMv(PMVMatrix4f)}. See {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti)}. * </p> * @param pixPerMM monitor pixel per millimeter for accurate animation * @param glp used {@link GLProfile} @@ -633,9 +633,8 @@ public class AnimGroup extends Group { final Vec3f pos = sd.shape.getPosition().copy(); final Vec3f p_t = sd.targetPos.minus(pos); final float p_t_diff = p_t.length(); - final Quaternion q = sd.shape.getRotation(); - final Vec3f euler = q.toEuler(new Vec3f()); - final float rotAng = euler.length(); + final Quaternion q = sd.shape.getRotation().copy(); + final float rotAng = q.toEuler(new Vec3f()).length(); final float rotAngDiff = Math.min(Math.abs(rotAng), FloatUtil.TWO_PI - Math.abs(rotAng)); final boolean pos_ok = p_t_diff <= AnimGroup.POS_EPS; final boolean pos_near = pos_ok || p_t_diff <= sd.shape.getBounds().getSize() * shapeScale * 2f; @@ -649,6 +648,7 @@ public class AnimGroup extends Group { } sd.shape.moveTo(sd.targetPos); q.setIdentity(); + sd.shape.setRotation(q); sd.shape.setInteractive(false); return false; } @@ -670,6 +670,7 @@ public class AnimGroup extends Group { } else { q.rotateByAngleNormalAxis( rot_step, rotAxis ); } + sd.shape.setRotation(q); } } else { if( DEBUG ) { @@ -682,6 +683,7 @@ public class AnimGroup extends Group { } else { q.rotateByAngleNormalAxis( rot_step * 3f, rotAxis ); } + sd.shape.setRotation(q); } return true; } diff --git a/src/graphui/classes/com/jogamp/graph/ui/Group.java b/src/graphui/classes/com/jogamp/graph/ui/Group.java index 29352fff0..e3431224c 100644 --- a/src/graphui/classes/com/jogamp/graph/ui/Group.java +++ b/src/graphui/classes/com/jogamp/graph/ui/Group.java @@ -341,7 +341,7 @@ public class Group extends Shape implements Container { final Shape shape = (Shape) shapesS[i]; if( shape.isVisible() ) { pmv.pushMv(); - shape.setTransformMv(pmv); + shape.applyMatToMv(pmv); final AABBox shapeBox = shape.getBounds(); final Cube shapeMv = tempC01.set( shapeBox ).transform( pmv.getMv() ); @@ -361,7 +361,7 @@ public class Group extends Shape implements Container { final Shape shape = (Shape) shapesS[i]; if( shape.isVisible() ) { pmv.pushMv(); - shape.setTransformMv(pmv); + shape.applyMatToMv(pmv); if( !doFrustumCulling || !pmv.getFrustum().isOutside( shape.getBounds() ) ) { shape.draw(gl, renderer); } @@ -389,7 +389,7 @@ public class Group extends Shape implements Container { final Shape shape = (Shape) shapesS[i]; if( shape.isVisible() ) { pmv.pushMv(); - shape.setTransformMv(pmv); + shape.applyMatToMv(pmv); if( !doFrustumCulling || !pmv.getFrustum().isOutside( shape.getBounds() ) ) { shape.drawToSelect(gl, renderer); @@ -526,7 +526,7 @@ public class Group extends Shape implements Container { } s.validate(gl, glp); pmv.pushMv(); - s.setTransformMv(pmv); + s.applyMatToMv(pmv); s.getBounds().transform(pmv.getMv(), tsbox); pmv.popMv(); box.resize(tsbox); @@ -608,7 +608,7 @@ public class Group extends Shape implements Container { @Override public AABBox getBounds(final PMVMatrix4f pmv, final Shape shape) { pmv.reset(); - setTransformMv(pmv); + applyMatToMv(pmv); final AABBox res = new AABBox(); if( null == shape ) { return res; diff --git a/src/graphui/classes/com/jogamp/graph/ui/Scene.java b/src/graphui/classes/com/jogamp/graph/ui/Scene.java index 5c9c6859e..8a9952c04 100644 --- a/src/graphui/classes/com/jogamp/graph/ui/Scene.java +++ b/src/graphui/classes/com/jogamp/graph/ui/Scene.java @@ -471,7 +471,7 @@ public final class Scene implements Container, GLEventListener { final Shape shape = (Shape)shapes[i]; if( shape.isVisible() ) { pmv.pushMv(); - shape.setTransformMv(pmv); + shape.applyMatToMv(pmv); if( !doFrustumCulling || !pmv.getFrustum().isOutside( shape.getBounds() ) ) { shape.draw(gl, renderer); @@ -505,7 +505,7 @@ public final class Scene implements Container, GLEventListener { final Shape shape = (Shape)shapes[i]; if( shape.isVisible() ) { pmv.pushMv(); - shape.setTransformMv(pmv); + shape.applyMatToMv(pmv); if( !doFrustumCulling || !pmv.getFrustum().isOutside( shape.getBounds() ) ) { final float color = ( i + 1f ) / ( shapeCount + 2f ); @@ -680,7 +680,7 @@ public final class Scene implements Container, GLEventListener { if( null != s ) { final PMVMatrix4f pmv = renderer.getMatrix(); pmv.pushMv(); - s.setTransformMv(pmv); + s.applyMatToMv(pmv); final boolean ok = null != shape[0].winToShapeCoord(getMatrix(), getViewport(), glWinX, glWinY, objPos); pmv.popMv(); if( ok ) { diff --git a/src/graphui/classes/com/jogamp/graph/ui/Shape.java b/src/graphui/classes/com/jogamp/graph/ui/Shape.java index 36b15d739..1811d2f61 100644 --- a/src/graphui/classes/com/jogamp/graph/ui/Shape.java +++ b/src/graphui/classes/com/jogamp/graph/ui/Shape.java @@ -215,13 +215,16 @@ public abstract class Shape { private static final int DIRTY_STATE = 1 << 1 ; private volatile Group parent = null; - protected final AABBox box; + protected final AABBox box = new AABBox(); private final Vec3f position = new Vec3f(); private float zOffset = 0; private final Quaternion rotation = new Quaternion(); private Vec3f rotPivot = null; private final Vec3f scale = new Vec3f(1f, 1f, 1f); + private final Matrix4f iMat = new Matrix4f(); + private final Matrix4f tmpMat = new Matrix4f(); + private boolean iMatIdent = true; private volatile int dirty = DIRTY_SHAPE | DIRTY_STATE; private final Object dirtySync = new Object(); @@ -281,9 +284,7 @@ public abstract class Shape { /** * Create a generic UI {@link Shape} */ - protected Shape() { - this.box = new AABBox(); - } + protected Shape() { } protected void setParent(final Group c) { parent = c; } @@ -390,6 +391,8 @@ public abstract class Shape { rotation.setIdentity(); rotPivot = null; scale.set(1f, 1f, 1f); + iMat.loadIdentity(); + iMatIdent = true; box.reset(); mouseListeners.clear(); keyListeners.clear(); @@ -486,24 +489,28 @@ public abstract class Shape { /** Move to scaled position. Position ends up in PMVMatrix4f unmodified. No {@link MoveListener} notification will occur. */ public final Shape moveTo(final float tx, final float ty, final float tz) { position.set(tx, ty, tz); + updateMat(); return this; } /** Move to scaled position. Position ends up in PMVMatrix4f unmodified. No {@link MoveListener} notification will occur. */ public final Shape moveTo(final Vec3f t) { position.set(t); + updateMat(); return this; } /** Move about scaled distance. Position ends up in PMVMatrix4f unmodified. No {@link MoveListener} notification will occur. */ public final Shape move(final float dtx, final float dty, final float dtz) { position.add(dtx, dty, dtz); + updateMat(); return this; } /** Move about scaled distance. Position ends up in PMVMatrix4f unmodified. No {@link MoveListener} notification will occur. */ public final Shape move(final Vec3f dt) { position.add(dt); + updateMat(); return this; } @@ -514,25 +521,48 @@ public abstract class Shape { private final void forwardMove(final Vec3f origin, final Vec3f dest) { if( !origin.isEqual(dest) ) { + updateMat(); if( null != onMoveListener ) { onMoveListener.run(this, origin, dest); } } } - /** Returns position, i.e. scaled translation as set via {@link #moveTo(float, float, float) or {@link #move(float, float, float)}}. */ + /** + * Returns position {@link Vec3f} reference, i.e. scaled translation as set via {@link #moveTo(float, float, float) or {@link #move(float, float, float)}}. + * @see #updateMat() + */ public final Vec3f getPosition() { return position; } - /** Returns {@link Quaternion} for rotation. */ + /** + * Returns {@link Quaternion} for rotation. + * @see #updateMat() + */ public final Quaternion getRotation() { return rotation; } - /** Return unscaled rotation origin, aka pivot. Null if not set via {@link #getRotationPivot()}. */ + + /** + * Sets the rotation {@link Quaternion}. + * @return this shape for chaining + */ + public final Shape setRotation(final Quaternion q) { + rotation.set(q); + updateMat(); + return this; + } + + /** + * Return unscaled rotation origin {@link Vec3f} reference, aka pivot. Null if not set via {@link #setRotationPivot(float, float, float)}. + * @see #updateMat() + */ public final Vec3f getRotationPivot() { return rotPivot; } + /** * Set unscaled rotation origin, aka pivot. Usually the {@link #getBounds()} center and should be set while {@link #validateImpl(GL2ES2, GLProfile)}. * @return this shape for chaining */ public final Shape setRotationPivot(final float px, final float py, final float pz) { rotPivot = new Vec3f(px, py, pz); + updateMat(); return this; } /** @@ -542,6 +572,7 @@ public abstract class Shape { */ public final Shape setRotationPivot(final Vec3f pivot) { rotPivot = new Vec3f(pivot); + updateMat(); return this; } @@ -552,6 +583,7 @@ public abstract class Shape { */ public final Shape setScale(final Vec3f s) { scale.set(s); + updateMat(); return this; } /** @@ -561,6 +593,7 @@ public abstract class Shape { */ public final Shape setScale(final float sx, final float sy, final float sz) { scale.set(sx, sy, sz); + updateMat(); return this; } /** @@ -570,6 +603,7 @@ public abstract class Shape { */ public final Shape scale(final Vec3f s) { scale.scale(s); + updateMat(); return this; } /** @@ -579,12 +613,14 @@ public abstract class Shape { */ public final Shape scale(final float sx, final float sy, final float sz) { scale.scale(sx, sy, sz); + updateMat(); return this; } /** - * Returns scale factors. + * Returns scale {@link Vec3f} reference. * @see #setScale(float, float, float) * @see #scale(float, float, float) + * @see #updateMat() */ public final Vec3f getScale() { return scale; } @@ -701,7 +737,7 @@ public abstract class Shape { /** * Renders the shape. * <p> - * {@link #setTransformMv(PMVMatrix4f)} is expected to be completed beforehand. + * {@link #transformMvTo(PMVMatrix4f)} is expected to be completed beforehand. * </p> * @param gl the current GL object * @param renderer {@link RegionRenderer} which might be used for Graph Curve Rendering, also source of {@link RegionRenderer#getMatrix()} and {@link RegionRenderer#getViewport()}. @@ -799,88 +835,148 @@ public abstract class Shape { } /** - * Setup the {@link PMVMatrix4f#getMv() modelview matrix} of the given {@link PMVMatrix4f} for this object. - * - Scale shape from its center position - * - Rotate shape around optional scaled pivot, see {@link #setRotationPivot(float[])}), otherwise rotate around its scaled center (default) + * Applies the internal {@link Matrix4f} to the given {@link PMVMatrix4f#getMv() modelview matrix}, + * i.e. {@code pmv.mulMv( getMat() )}. * <p> - * Shape's origin should be bottom-left @ 0/0 to have build-in drag-zoom work properly. + * In case {@link #isMatIdentity()} is {@code true}, implementation is a no-operation. * </p> * @param pmv the matrix - * @see #setRotationPivot(float[]) + * @see #isMatIdentity() + * @see #updateMat() + * @see #getMat() + * @see PMVMatrix4f#mulMv(Matrix4f) + */ + public final void transformMvTo(final PMVMatrix4f pmv) { + if( !iMatIdent ) { + pmv.mulMv(iMat); + } + } + + /** + * Returns the internal {@link Matrix4f} reference, see {@link #updateMat()}. + * <p> + * Using this method renders {@link #isMatIdentity()} {@code false}, + * since its content is mutable. Use {@link #getMat(Matrix4f) instead if suitable. + * </p> + * @see #getMat(Matrix4f) + * @see #isMatIdentity() + * @see #transformMvTo(PMVMatrix4f) + * @see #updateMat() + */ + public final Matrix4f getMat() { iMatIdent = false; return iMat; } + + /** + * Returns a copy of the internal {@link Matrix4f} to {@code out} see {@link #updateMat()}. + * @see #getMat() + * @see #isMatIdentity() + * @see #transformMvTo(PMVMatrix4f) + * @see #updateMat() + */ + public final Matrix4f getMat(final Matrix4f out) { out.load(iMat); return out; } + + /** + * Returns true if {@link #getMat()} has not been mutated, i.e. contains identity. + * @see #getMat() + * @see #updateMat() + */ + public final boolean isMatIdentity() { return iMatIdent; } + + /** + * Updates the internal {@link Matrix4f} with local position, rotation and scale. + * <ul> + * <li>Scale shape from its center position</li> + * <li>Rotate shape around optional scaled pivot, see {@link #setRotationPivot(float[])}), otherwise rotate around its scaled center (default)</li> + * </ul> + * <p> + * Shape's origin should be bottom-left @ 0/0 to have build-in drag-zoom work properly. + * </p> + * <p> + * Usually only used internally after modifying position, scale or rotation. + * </p> + * <p> + * However, after modifying borrowed values via {@link #getPosition()}, {@link #getScale()}, {@link #getRotation()} or {@link #getRotationPivot()} + * without any other change thereafter, e.g. {@link #move(Vec3f)}, this method must be called! + * </p> + * @see #isMatIdentity() + * @see #getMat() + * @see #getPosition() + * @see #getScale() * @see #getRotation() - * @see #moveTo(float, float, float) - * @see #setScale(float, float, float) + * @see #getRotationPivot() + * @see #transformMvTo(PMVMatrix4f) */ - public void setTransformMv(final PMVMatrix4f pmv) { + public final void updateMat() { final boolean hasScale = !scale.isEqual(Vec3f.ONE); final boolean hasRotate = !rotation.isIdentity(); final boolean hasRotPivot = null != rotPivot; final Vec3f ctr = box.getCenter(); final boolean sameScaleRotatePivot = hasScale && hasRotate && ( !hasRotPivot || rotPivot.isEqual(ctr) ); - pmv.translateMv(position.x(), position.y(), position.z()); // translate, scaled + iMatIdent = false; + + iMat.setToTranslation(position); // identify + translate, scaled if( sameScaleRotatePivot ) { // Scale shape from its center position and rotate around its center - pmv.translateMv(ctr.x()*scale.x(), ctr.y()*scale.y(), ctr.z()*scale.z()); // add-back center, scaled - pmv.rotateMv(rotation); - pmv.scaleMv(scale.x(), scale.y(), scale.z()); - pmv.translateMv(-ctr.x(), -ctr.y(), -ctr.z()); // move to center + iMat.translate(ctr.x()*scale.x(), ctr.y()*scale.y(), ctr.z()*scale.z(), tmpMat); // add-back center, scaled + iMat.rotate(rotation, tmpMat); + iMat.scale(scale.x(), scale.y(), scale.z(), tmpMat); + iMat.translate(-ctr.x(), -ctr.y(), -ctr.z(), tmpMat); // move to center } else if( hasRotate || hasScale ) { if( hasRotate ) { if( hasRotPivot ) { // Rotate shape around its scaled pivot - pmv.translateMv(rotPivot.x()*scale.x(), rotPivot.y()*scale.y(), rotPivot.z()*scale.z()); // pivot back from rot-pivot, scaled - pmv.rotateMv(rotation); - pmv.translateMv(-rotPivot.x()*scale.x(), -rotPivot.y()*scale.y(), -rotPivot.z()*scale.z()); // pivot to rot-pivot, scaled + iMat.translate(rotPivot.x()*scale.x(), rotPivot.y()*scale.y(), rotPivot.z()*scale.z(), tmpMat); // pivot back from rot-pivot, scaled + iMat.rotate(rotation, tmpMat); + iMat.translate(-rotPivot.x()*scale.x(), -rotPivot.y()*scale.y(), -rotPivot.z()*scale.z(), tmpMat); // pivot to rot-pivot, scaled } else { // Rotate shape around its scaled center - pmv.translateMv(ctr.x()*scale.x(), ctr.y()*scale.y(), ctr.z()*scale.z()); // pivot back from center-pivot, scaled - pmv.rotateMv(rotation); - pmv.translateMv(-ctr.x()*scale.x(), -ctr.y()*scale.y(), -ctr.z()*scale.z()); // pivot to center-pivot, scaled + iMat.translate(ctr.x()*scale.x(), ctr.y()*scale.y(), ctr.z()*scale.z(), tmpMat); // pivot back from center-pivot, scaled + iMat.rotate(rotation, tmpMat); + iMat.translate(-ctr.x()*scale.x(), -ctr.y()*scale.y(), -ctr.z()*scale.z(), tmpMat); // pivot to center-pivot, scaled } } if( hasScale ) { // Scale shape from its center position - pmv.translateMv(ctr.x()*scale.x(), ctr.y()*scale.y(), ctr.z()*scale.z()); // add-back center, scaled - pmv.scaleMv(scale.x(), scale.y(), scale.z()); - pmv.translateMv(-ctr.x(), -ctr.y(), -ctr.z()); // move to center + iMat.translate(ctr.x()*scale.x(), ctr.y()*scale.y(), ctr.z()*scale.z(), tmpMat); // add-back center, scaled + iMat.scale(scale.x(), scale.y(), scale.z(), tmpMat); + iMat.translate(-ctr.x(), -ctr.y(), -ctr.z(), tmpMat); // move to center } } } /** * {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti) Setup} the given {@link PMVMatrix4f} - * and apply this shape's {@link #setTransformMv(PMVMatrix4f) transformation}. + * and apply this shape's {@link #transformMvTo(PMVMatrix4f) transformation}. * </p> * @param pmvMatrixSetup {@link Scene.PMVMatrixSetup} to {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti) setup} given {@link PMVMatrix4f} {@code pmv}. * @param viewport used viewport for {@link PMVMatrix4f#mapObjToWin(Vec3f, Recti, Vec3f)} * @param pmv a new {@link PMVMatrix4f} which will {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti) be setup}, - * {@link #setTransformMv(PMVMatrix4f) shape-transformed} and can be reused by the caller. + * {@link #transformMvTo(PMVMatrix4f) shape-transformed} and can be reused by the caller. * @return the given {@link PMVMatrix4f} for chaining * @see Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti) - * @see #setTransformMv(PMVMatrix4f) + * @see #transformMvTo(PMVMatrix4f) * @see #setPMVMatrix(Scene, PMVMatrix4f) */ - public PMVMatrix4f setPMVMatrix(final Scene.PMVMatrixSetup pmvMatrixSetup, final Recti viewport, final PMVMatrix4f pmv) { + public final PMVMatrix4f setPMVMatrix(final Scene.PMVMatrixSetup pmvMatrixSetup, final Recti viewport, final PMVMatrix4f pmv) { pmvMatrixSetup.set(pmv, viewport); - setTransformMv(pmv); + transformMvTo(pmv); return pmv; } /** * {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti) Setup} the given {@link PMVMatrix4f} - * and apply this shape's {@link #setTransformMv(PMVMatrix4f) transformation}. + * and apply this shape's {@link #transformMvTo(PMVMatrix4f) transformation}. * </p> * @param scene {@link Scene} to retrieve {@link Scene.PMVMatrixSetup} and the viewport. * @param pmv a new {@link PMVMatrix4f} which will {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti) be setup}, - * {@link #setTransformMv(PMVMatrix4f) shape-transformed} and can be reused by the caller. + * {@link #transformMvTo(PMVMatrix4f) shape-transformed} and can be reused by the caller. * @return the given {@link PMVMatrix4f} for chaining * @see Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti) - * @see #setTransformMv(PMVMatrix4f) + * @see #transformMvTo(PMVMatrix4f) * @see #setPMVMatrix(com.jogamp.graph.ui.Scene.PMVMatrixSetup, Recti, PMVMatrix4f) */ - public PMVMatrix4f setPMVMatrix(final Scene scene, final PMVMatrix4f pmv) { + public final PMVMatrix4f setPMVMatrix(final Scene scene, final PMVMatrix4f pmv) { return setPMVMatrix(scene.getPMVMatrixSetup(), scene.getViewport(), pmv); } @@ -889,14 +985,14 @@ public abstract class Shape { * <p> * The given {@link PMVMatrix4f} has to be setup properly for this object, * i.e. its {@link GLMatrixFunc#GL_PROJECTION} and {@link GLMatrixFunc#GL_MODELVIEW} for the surrounding scene - * including this shape's {@link #setTransformMv(PMVMatrix4f)}. See {@link #setPMVMatrix(Scene, PMVMatrix4f)}. + * including this shape's {@link #transformMvTo(PMVMatrix4f)}. See {@link #setPMVMatrix(Scene, PMVMatrix4f)}. * </p> * @param pmv well formed {@link PMVMatrix4f}, e.g. could have been setup via {@link Shape#setPMVMatrix(Scene, PMVMatrix4f)}. * @param viewport the int[4] viewport * @param surfacePort Recti target surface port * @return given Recti {@code surfacePort} for successful {@link Matrix4f#mapObjToWin(Vec3f, Matrix4f, Recti, Vec3f) gluProject(..)} operation, otherwise {@code null} */ - public Recti getSurfacePort(final PMVMatrix4f pmv, final Recti viewport, final Recti surfacePort) { + public final Recti getSurfacePort(final PMVMatrix4f pmv, final Recti viewport, final Recti surfacePort) { final Vec3f winCoordHigh = new Vec3f(); final Vec3f winCoordLow = new Vec3f(); final Vec3f high = box.getHigh(); @@ -920,7 +1016,7 @@ public abstract class Shape { * <p> * The given {@link PMVMatrix4f} has to be setup properly for this object, * i.e. its {@link GLMatrixFunc#GL_PROJECTION} and {@link GLMatrixFunc#GL_MODELVIEW} for the surrounding scene - * including this shape's {@link #setTransformMv(PMVMatrix4f)}. See {@link #setPMVMatrix(Scene, PMVMatrix4f)}. + * including this shape's {@link #transformMvTo(PMVMatrix4f)}. See {@link #setPMVMatrix(Scene, PMVMatrix4f)}. * </p> * @param pmv well formed {@link PMVMatrix4f}, e.g. could have been setup via {@link Shape#setPMVMatrix(Scene, PMVMatrix4f)}. * @param viewport the int[4] viewport @@ -929,7 +1025,7 @@ public abstract class Shape { * @see #getSurfaceSize(com.jogamp.graph.ui.Scene.PMVMatrixSetup, Recti, PMVMatrix4f, int[]) * @see #getSurfaceSize(Scene, PMVMatrix4f, int[]) */ - public int[/*2*/] getSurfaceSize(final PMVMatrix4f pmv, final Recti viewport, final int[/*2*/] surfaceSize) { + public final int[/*2*/] getSurfaceSize(final PMVMatrix4f pmv, final Recti viewport, final int[/*2*/] surfaceSize) { // System.err.println("Shape::getSurfaceSize.VP "+viewport[0]+"/"+viewport[1]+" "+viewport[2]+"x"+viewport[3]); final Vec3f winCoordHigh = new Vec3f(); final Vec3f winCoordLow = new Vec3f(); @@ -951,18 +1047,18 @@ public abstract class Shape { * Retrieve surface (view) size in pixels of this shape. * <p> * The given {@link PMVMatrix4f} will be {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti) setup} properly for this shape - * including this shape's {@link #setTransformMv(PMVMatrix4f)}. + * including this shape's {@link #transformMvTo(PMVMatrix4f)}. * </p> * @param pmvMatrixSetup {@link Scene.PMVMatrixSetup} to {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti) setup} given {@link PMVMatrix4f} {@code pmv}. * @param viewport used viewport for {@link Matrix4f#mapObjToWin(Vec3f, Matrix4f, Recti, Vec3f) gluProject(..)} * @param pmv a new {@link PMVMatrix4f} which will {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti) be setup}, - * {@link #setTransformMv(PMVMatrix4f) shape-transformed} and can be reused by the caller. + * {@link #transformMvTo(PMVMatrix4f) shape-transformed} and can be reused by the caller. * @param surfaceSize int[2] target surface size * @return given int[2] {@code surfaceSize} in pixels for successful {@link Matrix4f#mapObjToWin(Vec3f, Matrix4f, Recti, Vec3f) gluProject(..)} operation, otherwise {@code null} * @see #getSurfaceSize(PMVMatrix4f, Recti, int[]) * @see #getSurfaceSize(Scene, PMVMatrix4f, int[]) */ - public int[/*2*/] getSurfaceSize(final Scene.PMVMatrixSetup pmvMatrixSetup, final Recti viewport, final PMVMatrix4f pmv, final int[/*2*/] surfaceSize) { + public final int[/*2*/] getSurfaceSize(final Scene.PMVMatrixSetup pmvMatrixSetup, final Recti viewport, final PMVMatrix4f pmv, final int[/*2*/] surfaceSize) { return getSurfaceSize(setPMVMatrix(pmvMatrixSetup, viewport, pmv), viewport, surfaceSize); } @@ -970,17 +1066,17 @@ public abstract class Shape { * Retrieve surface (view) size in pixels of this shape. * <p> * The given {@link PMVMatrix4f} will be {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti) setup} properly for this shape - * including this shape's {@link #setTransformMv(PMVMatrix4f)}. + * including this shape's {@link #transformMvTo(PMVMatrix4f)}. * </p> * @param scene {@link Scene} to retrieve {@link Scene.PMVMatrixSetup} and the viewport. * @param pmv a new {@link PMVMatrix4f} which will {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti) be setup}, - * {@link #setTransformMv(PMVMatrix4f) shape-transformed} and can be reused by the caller. + * {@link #transformMvTo(PMVMatrix4f) shape-transformed} and can be reused by the caller. * @param surfaceSize int[2] target surface size * @return given int[2] {@code surfaceSize} in pixels for successful {@link Matrix4f#mapObjToWin(Vec3f, Matrix4f, Recti, Vec3f) gluProject(..)} operation, otherwise {@code null} * @see #getSurfaceSize(PMVMatrix4f, Recti, int[]) * @see #getSurfaceSize(com.jogamp.graph.ui.Scene.PMVMatrixSetup, Recti, PMVMatrix4f, int[]) */ - public int[/*2*/] getSurfaceSize(final Scene scene, final PMVMatrix4f pmv, final int[/*2*/] surfaceSize) { + public final int[/*2*/] getSurfaceSize(final Scene scene, final PMVMatrix4f pmv, final int[/*2*/] surfaceSize) { return getSurfaceSize(scene.getPMVMatrixSetup(), scene.getViewport(), pmv, surfaceSize); } @@ -994,7 +1090,7 @@ public abstract class Shape { * @see #getScaledWidth() * @see #getScaledHeight() */ - public float[] getPixelPerShapeUnit(final int[] shapeSizePx, final float[] pixPerShape) { + public final float[] getPixelPerShapeUnit(final int[] shapeSizePx, final float[] pixPerShape) { pixPerShape[0] = shapeSizePx[0] / getScaledWidth(); pixPerShape[0] = shapeSizePx[1] / getScaledHeight(); return pixPerShape; @@ -1005,7 +1101,7 @@ public abstract class Shape { * <p> * The given {@link PMVMatrix4f} has to be setup properly for this object, * i.e. its {@link GLMatrixFunc#GL_PROJECTION} and {@link GLMatrixFunc#GL_MODELVIEW} for the surrounding scene - * including this shape's {@link #setTransformMv(PMVMatrix4f)}. See {@link #setPMVMatrix(Scene, PMVMatrix4f)}. + * including this shape's {@link #transformMvTo(PMVMatrix4f)}. See {@link #setPMVMatrix(Scene, PMVMatrix4f)}. * </p> * @param pmv well formed {@link PMVMatrix4f}, e.g. could have been setup via {@link Shape#setPMVMatrix(Scene, PMVMatrix4f)}. * @param viewport the int[4] viewport @@ -1016,7 +1112,7 @@ public abstract class Shape { * @see #getScaledWidth() * @see #getScaledHeight() */ - public float[] getPixelPerShapeUnit(final PMVMatrix4f pmv, final Recti viewport, final float[] pixPerShape) { + public final float[] getPixelPerShapeUnit(final PMVMatrix4f pmv, final Recti viewport, final float[] pixPerShape) { final int[] shapeSizePx = new int[2]; if( null != getSurfaceSize(pmv, viewport, shapeSizePx) ) { return getPixelPerShapeUnit(shapeSizePx, pixPerShape); @@ -1029,11 +1125,11 @@ public abstract class Shape { * Retrieve pixel per scaled shape-coordinate unit, i.e. [px]/[obj]. * <p> * The given {@link PMVMatrix4f} will be {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti) setup} properly for this shape - * including this shape's {@link #setTransformMv(PMVMatrix4f)}. + * including this shape's {@link #transformMvTo(PMVMatrix4f)}. * </p> * @param scene {@link Scene} to retrieve {@link Scene.PMVMatrixSetup} and the viewport. * @param pmv a new {@link PMVMatrix4f} which will {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti) be setup}, - * {@link #setTransformMv(PMVMatrix4f) shape-transformed} and can be reused by the caller. + * {@link #transformMvTo(PMVMatrix4f) shape-transformed} and can be reused by the caller. * @param pixPerShape float[2] pixel per scaled shape-coordinate unit result storage * @return given float[2] {@code pixPerShape} for successful {@link Matrix4f#mapObjToWin(Vec3f, Matrix4f, Recti, Vec3f) gluProject(..)} operation, otherwise {@code null} * @see #getPixelPerShapeUnit(int[], float[]) @@ -1041,7 +1137,7 @@ public abstract class Shape { * @see #getScaledWidth() * @see #getScaledHeight() */ - public float[] getPixelPerShapeUnit(final Scene scene, final PMVMatrix4f pmv, final float[] pixPerShape) { + public final float[] getPixelPerShapeUnit(final Scene scene, final PMVMatrix4f pmv, final float[] pixPerShape) { final int[] shapeSizePx = new int[2]; if( null != getSurfaceSize(scene, pmv, shapeSizePx) ) { return getPixelPerShapeUnit(shapeSizePx, pixPerShape); @@ -1055,7 +1151,7 @@ public abstract class Shape { * <p> * The given {@link PMVMatrix4f} has to be setup properly for this object, * i.e. its {@link GLMatrixFunc#GL_PROJECTION} and {@link GLMatrixFunc#GL_MODELVIEW} for the surrounding scene - * including this shape's {@link #setTransformMv(PMVMatrix4f)}. See {@link #setPMVMatrix(Scene, PMVMatrix4f)}. + * including this shape's {@link #transformMvTo(PMVMatrix4f)}. See {@link #setPMVMatrix(Scene, PMVMatrix4f)}. * </p> * @param pmv well formed {@link PMVMatrix4f}, e.g. could have been setup via {@link Shape#setPMVMatrix(Scene, PMVMatrix4f)}. * @param viewport the viewport @@ -1065,7 +1161,7 @@ public abstract class Shape { * @see #shapeToWinCoord(com.jogamp.graph.ui.Scene.PMVMatrixSetup, Recti, float[], PMVMatrix4f, int[]) * @see #shapeToWinCoord(Scene, float[], PMVMatrix4f, int[]) */ - public int[/*2*/] shapeToWinCoord(final PMVMatrix4f pmv, final Recti viewport, final Vec3f objPos, final int[/*2*/] glWinPos) { + public final int[/*2*/] shapeToWinCoord(final PMVMatrix4f pmv, final Recti viewport, final Vec3f objPos, final int[/*2*/] glWinPos) { // System.err.println("Shape::objToWinCoordgetSurfaceSize.VP "+viewport[0]+"/"+viewport[1]+" "+viewport[2]+"x"+viewport[3]); final Vec3f winCoord = new Vec3f(); @@ -1081,19 +1177,19 @@ public abstract class Shape { * Map given object coordinate relative to this shape to window coordinates. * <p> * The given {@link PMVMatrix4f} will be {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti) setup} properly for this shape - * including this shape's {@link #setTransformMv(PMVMatrix4f)}. + * including this shape's {@link #transformMvTo(PMVMatrix4f)}. * </p> * @param pmvMatrixSetup {@link Scene.PMVMatrixSetup} to {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti) setup} given {@link PMVMatrix4f} {@code pmv}. * @param viewport used viewport for {@link PMVMatrix4f#mapObjToWin(Vec3f, Recti, Vec3f)} * @param objPos object position relative to this shape's center * @param pmv a new {@link PMVMatrix4f} which will {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti) be setup}, - * {@link #setTransformMv(PMVMatrix4f) shape-transformed} and can be reused by the caller. + * {@link #transformMvTo(PMVMatrix4f) shape-transformed} and can be reused by the caller. * @param glWinPos int[2] target window position of objPos relative to this shape * @return given int[2] {@code glWinPos} for successful {@link Matrix4f#mapObjToWin(Vec3f, Matrix4f, Recti, Vec3f) gluProject(..)} operation, otherwise {@code null} * @see #shapeToWinCoord(PMVMatrix4f, Recti, float[], int[]) * @see #shapeToWinCoord(Scene, float[], PMVMatrix4f, int[]) */ - public int[/*2*/] shapeToWinCoord(final Scene.PMVMatrixSetup pmvMatrixSetup, final Recti viewport, final Vec3f objPos, final PMVMatrix4f pmv, final int[/*2*/] glWinPos) { + public final int[/*2*/] shapeToWinCoord(final Scene.PMVMatrixSetup pmvMatrixSetup, final Recti viewport, final Vec3f objPos, final PMVMatrix4f pmv, final int[/*2*/] glWinPos) { return this.shapeToWinCoord(setPMVMatrix(pmvMatrixSetup, viewport, pmv), viewport, objPos, glWinPos); } @@ -1101,18 +1197,18 @@ public abstract class Shape { * Map given object coordinate relative to this shape to window coordinates. * <p> * The given {@link PMVMatrix4f} will be {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti) setup} properly for this shape - * including this shape's {@link #setTransformMv(PMVMatrix4f)}. + * including this shape's {@link #transformMvTo(PMVMatrix4f)}. * </p> * @param scene {@link Scene} to retrieve {@link Scene.PMVMatrixSetup} and the viewport. * @param objPos object position relative to this shape's center * @param pmv a new {@link PMVMatrix4f} which will {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti) be setup}, - * {@link #setTransformMv(PMVMatrix4f) shape-transformed} and can be reused by the caller. + * {@link #transformMvTo(PMVMatrix4f) shape-transformed} and can be reused by the caller. * @param glWinPos int[2] target window position of objPos relative to this shape * @return given int[2] {@code glWinPos} for successful {@link Matrix4f#mapObjToWin(Vec3f, Matrix4f, Recti, Vec3f) gluProject(..)} operation, otherwise {@code null} * @see #shapeToWinCoord(PMVMatrix4f, Recti, float[], int[]) * @see #shapeToWinCoord(com.jogamp.graph.ui.Scene.PMVMatrixSetup, Recti, float[], PMVMatrix4f, int[]) */ - public int[/*2*/] shapeToWinCoord(final Scene scene, final Vec3f objPos, final PMVMatrix4f pmv, final int[/*2*/] glWinPos) { + public final int[/*2*/] shapeToWinCoord(final Scene scene, final Vec3f objPos, final PMVMatrix4f pmv, final int[/*2*/] glWinPos) { return this.shapeToWinCoord(scene.getPMVMatrixSetup(), scene.getViewport(), objPos, pmv, glWinPos); } @@ -1121,7 +1217,7 @@ public abstract class Shape { * <p> * The given {@link PMVMatrix4f} has to be setup properly for this object, * i.e. its {@link GLMatrixFunc#GL_PROJECTION} and {@link GLMatrixFunc#GL_MODELVIEW} for the surrounding scene - * including this shape's {@link #setTransformMv(PMVMatrix4f)}. See {@link #setPMVMatrix(Scene, PMVMatrix4f)}. + * including this shape's {@link #transformMvTo(PMVMatrix4f)}. See {@link #setPMVMatrix(Scene, PMVMatrix4f)}. * </p> * @param pmv well formed {@link PMVMatrix4f}, e.g. could have been setup via {@link Shape#setPMVMatrix(Scene, PMVMatrix4f)}. * @param viewport the Rect4i viewport @@ -1134,7 +1230,7 @@ public abstract class Shape { * @see #winToShapeCoord(com.jogamp.graph.ui.Scene.PMVMatrixSetup, Recti, int, int, PMVMatrix4f, float[]) * @see #winToShapeCoord(Scene, int, int, PMVMatrix4f, float[]) */ - public Vec3f winToShapeCoord(final PMVMatrix4f pmv, final Recti viewport, final int glWinX, final int glWinY, final Vec3f objPos) { + public final Vec3f winToShapeCoord(final PMVMatrix4f pmv, final Recti viewport, final int glWinX, final int glWinY, final Vec3f objPos) { final Vec3f ctr = box.getCenter(); if( Matrix4f.mapObjToWin(ctr, pmv.getPMv(), viewport, objPos) ) { @@ -1150,14 +1246,14 @@ public abstract class Shape { * Map given gl-window-coordinates to object coordinates relative to this shape and its z-coordinate. * <p> * The given {@link PMVMatrix4f} will be {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti) setup} properly for this shape - * including this shape's {@link #setTransformMv(PMVMatrix4f)}. + * including this shape's {@link #transformMvTo(PMVMatrix4f)}. * </p> * @param pmvMatrixSetup {@link Scene.PMVMatrixSetup} to {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti) setup} given {@link PMVMatrix4f} {@code pmv}. * @param viewport used viewport for {@link PMVMatrix4f#mapWinToObj(float, float, float, Recti, Vec3f)} * @param glWinX in GL window coordinates, origin bottom-left * @param glWinY in GL window coordinates, origin bottom-left * @param pmv a new {@link PMVMatrix4f} which will {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti) be setup}, - * {@link #setTransformMv(PMVMatrix4f) shape-transformed} and can be reused by the caller. + * {@link #transformMvTo(PMVMatrix4f) shape-transformed} and can be reused by the caller. * @param objPos target object position of glWinX/glWinY relative to this shape * @return given {@code objPos} for successful {@link Matrix4f#mapObjToWin(Vec3f, Matrix4f, Recti, Vec3f) gluProject(..)} * and {@link Matrix4f#mapWinToObj(float, float, float, float, Matrix4f, Recti, Vec3f, Vec3f) gluUnProject(..)} @@ -1165,7 +1261,7 @@ public abstract class Shape { * @see #winToShapeCoord(PMVMatrix4f, Recti, int, int, float[]) * @see #winToShapeCoord(Scene, int, int, PMVMatrix4f, float[]) */ - public Vec3f winToShapeCoord(final Scene.PMVMatrixSetup pmvMatrixSetup, final Recti viewport, final int glWinX, final int glWinY, final PMVMatrix4f pmv, final Vec3f objPos) { + public final Vec3f winToShapeCoord(final Scene.PMVMatrixSetup pmvMatrixSetup, final Recti viewport, final int glWinX, final int glWinY, final PMVMatrix4f pmv, final Vec3f objPos) { return this.winToShapeCoord(setPMVMatrix(pmvMatrixSetup, viewport, pmv), viewport, glWinX, glWinY, objPos); } @@ -1173,13 +1269,13 @@ public abstract class Shape { * Map given gl-window-coordinates to object coordinates relative to this shape and its z-coordinate. * <p> * The given {@link PMVMatrix4f} will be {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti) setup} properly for this shape - * including this shape's {@link #setTransformMv(PMVMatrix4f)}. + * including this shape's {@link #transformMvTo(PMVMatrix4f)}. * </p> * @param scene {@link Scene} to retrieve {@link Scene.PMVMatrixSetup} and the viewport. * @param glWinX in GL window coordinates, origin bottom-left * @param glWinY in GL window coordinates, origin bottom-left * @param pmv a new {@link PMVMatrix4f} which will {@link Scene.PMVMatrixSetup#set(PMVMatrix4f, Recti) be setup}, - * {@link #setTransformMv(PMVMatrix4f) shape-transformed} and can be reused by the caller. + * {@link #transformMvTo(PMVMatrix4f) shape-transformed} and can be reused by the caller. * @param objPos target object position of glWinX/glWinY relative to this shape * @return given {@code objPos} for successful {@link Matrix4f#mapObjToWin(Vec3f, Matrix4f, Recti, Vec3f) gluProject(..)} * and {@link Matrix4f#mapWinToObj(float, float, float, float, Matrix4f, Recti, Vec3f, Vec3f) gluUnProject(..)} diff --git a/src/graphui/classes/com/jogamp/graph/ui/layout/BoxLayout.java b/src/graphui/classes/com/jogamp/graph/ui/layout/BoxLayout.java index bed4b33eb..bd939f37e 100644 --- a/src/graphui/classes/com/jogamp/graph/ui/layout/BoxLayout.java +++ b/src/graphui/classes/com/jogamp/graph/ui/layout/BoxLayout.java @@ -182,7 +182,7 @@ public class BoxLayout implements Group.Layout { // measure size pmv.pushMv(); - s.setTransformMv(pmv); + s.applyMatToMv(pmv); s.getBounds().transform(pmv.getMv(), sbox); pmv.popMv(); diff --git a/src/graphui/classes/com/jogamp/graph/ui/layout/GridLayout.java b/src/graphui/classes/com/jogamp/graph/ui/layout/GridLayout.java index 43358529a..e77f51aad 100644 --- a/src/graphui/classes/com/jogamp/graph/ui/layout/GridLayout.java +++ b/src/graphui/classes/com/jogamp/graph/ui/layout/GridLayout.java @@ -208,7 +208,7 @@ public class GridLayout implements Group.Layout { final Shape s = shapes.get(i); // measure size pmv.pushMv(); - s.setTransformMv(pmv); + s.applyMatToMv(pmv); final AABBox sbox = s.getBounds().transform(pmv.getMv(), new AABBox()); pmv.popMv(); |