/** * Establish the OpenGL state needed to draw text. * * @param dc the current draw context. */ protected void beginDrawing(DrawContext dc) { GL gl = dc.getGL(); int attrMask = GL.GL_DEPTH_BUFFER_BIT // for depth test, depth mask and depth func | GL.GL_TRANSFORM_BIT // for modelview and perspective | GL.GL_VIEWPORT_BIT // for depth range | GL.GL_CURRENT_BIT // for current color | GL.GL_COLOR_BUFFER_BIT // for alpha test func and ref, and blend | GL.GL_DEPTH_BUFFER_BIT // for depth func | GL.GL_ENABLE_BIT; // for enable/disable changes this.BEogsh.pushAttrib(gl, attrMask); if (!dc.isPickingMode()) { gl.glEnable(GL.GL_BLEND); OGLUtil.applyBlending(gl, false); } // Do not depth buffer the label. (Labels beyond the horizon are culled above.) gl.glDisable(GL.GL_DEPTH_TEST); gl.glDepthMask(false); // The image is drawn using a parallel projection. this.BEogsh.pushProjectionIdentity(gl); gl.glOrtho( 0d, dc.getView().getViewport().width, 0d, dc.getView().getViewport().height, -1d, 1d); this.BEogsh.pushModelviewIdentity(gl); }
protected static boolean isTileVisible( DrawContext dc, Tile tile, double minDistanceSquared, double maxDistanceSquared) { if (!tile.getSector().intersects(dc.getVisibleSector())) return false; View view = dc.getView(); Position eyePos = view.getEyePosition(); if (eyePos == null) return false; Angle lat = clampAngle( eyePos.getLatitude(), tile.getSector().getMinLatitude(), tile.getSector().getMaxLatitude()); Angle lon = clampAngle( eyePos.getLongitude(), tile.getSector().getMinLongitude(), tile.getSector().getMaxLongitude()); Vec4 p = dc.getGlobe().computePointFromPosition(lat, lon, 0d); double distSquared = dc.getView().getEyePoint().distanceToSquared3(p); //noinspection RedundantIfStatement if (minDistanceSquared > distSquared || maxDistanceSquared < distSquared) return false; return true; }
protected Vec4 computeReferencePoint(DrawContext dc) { if (dc.getViewportCenterPosition() != null) return dc.getGlobe().computePointFromPosition(dc.getViewportCenterPosition()); java.awt.geom.Rectangle2D viewport = dc.getView().getViewport(); int x = (int) viewport.getWidth() / 2; for (int y = (int) (0.5 * viewport.getHeight()); y >= 0; y--) { Position pos = dc.getView().computePositionFromScreenPoint(x, y); if (pos == null) continue; return dc.getGlobe().computePointFromPosition(pos.getLatitude(), pos.getLongitude(), 0d); } return null; }
// X-PATCH Marjan // extracted skip conditions into an overrideable method protected boolean meetsRenderCriteria( DrawContext dc, WWIcon icon, Vec4 iconPoint, double eyeDistance) { if (this.isHorizonClippingEnabled() && eyeDistance > dc.getView().getHorizonDistance()) { return false; // don't render horizon-clipped icons } // If enabled, eliminate icons outside the view volume. Primarily used to control icon // visibility beyond // the view volume's far clipping plane. if (this.isViewClippingEnabled() && !dc.getView().getFrustumInModelCoordinates().contains(iconPoint)) { return false; // don't render frustum-clipped icons } return true; }
public double getSizeInPixels(DrawContext dc) { View view = dc.getView(); Vec4 centerPoint = getSurfacePoint(dc, this.centroid.getLatitude(), this.centroid.getLongitude()); Double distance = view.getEyePoint().distanceTo3(centerPoint); return this.size / view.computePixelSizeAtDistance(distance); }
protected void setDepthFunc(DrawContext dc, OrderedIcon uIcon, Vec4 screenPoint) { GL gl = dc.getGL(); if (uIcon.icon.isAlwaysOnTop()) { gl.glDepthFunc(GL.GL_ALWAYS); return; } Position eyePos = dc.getView().getEyePosition(); if (eyePos == null) { gl.glDepthFunc(GL.GL_ALWAYS); return; } double altitude = eyePos.getElevation(); if (altitude < (dc.getGlobe().getMaxElevation() * dc.getVerticalExaggeration())) { double depth = screenPoint.z - (8d * 0.00048875809d); depth = depth < 0d ? 0d : (depth > 1d ? 1d : depth); gl.glDepthFunc(GL.GL_LESS); gl.glDepthRange(depth, depth); } else if (uIcon.eyeDistance > uIcon.horizonDistance) { gl.glDepthFunc(GL.GL_EQUAL); gl.glDepthRange(1d, 1d); } else { gl.glDepthFunc(GL.GL_ALWAYS); } }
/** * Select the visible grid elements * * @param dc the current <code>DrawContext</code>. */ protected void selectRenderables(DrawContext dc) { if (dc == null) { String message = Logging.getMessage("nullValue.DrawContextIsNull"); Logging.logger().severe(message); throw new IllegalArgumentException(message); } Sector vs = dc.getVisibleSector(); OrbitView view = (OrbitView) dc.getView(); // Compute labels offset from view center Position centerPos = view.getCenterPosition(); Double pixelSizeDegrees = Angle.fromRadians( view.computePixelSizeAtDistance(view.getZoom()) / dc.getGlobe().getEquatorialRadius()) .degrees; Double labelOffsetDegrees = pixelSizeDegrees * view.getViewport().getWidth() / 4; Position labelPos = Position.fromDegrees( centerPos.getLatitude().degrees - labelOffsetDegrees, centerPos.getLongitude().degrees - labelOffsetDegrees, 0); Double labelLatDegrees = labelPos.getLatitude().normalizedLatitude().degrees; labelLatDegrees = Math.min(Math.max(labelLatDegrees, -76), 78); labelPos = new Position( Angle.fromDegrees(labelLatDegrees), labelPos.getLongitude().normalizedLongitude(), 0); if (vs != null) { for (GridElement ge : this.gridElements) { if (ge.isInView(dc)) { if (ge.renderable instanceof GeographicText) { GeographicText gt = (GeographicText) ge.renderable; if (labelPos.getLatitude().degrees < 72 || "*32*34*36*".indexOf("*" + gt.getText() + "*") == -1) { // Adjust label position according to eye position Position pos = gt.getPosition(); if (ge.type.equals(GridElement.TYPE_LATITUDE_LABEL)) pos = Position.fromDegrees( pos.getLatitude().degrees, labelPos.getLongitude().degrees, pos.getElevation()); else if (ge.type.equals(GridElement.TYPE_LONGITUDE_LABEL)) pos = Position.fromDegrees( labelPos.getLatitude().degrees, pos.getLongitude().degrees, pos.getElevation()); gt.setPosition(pos); } } this.graticuleSupport.addRenderable(ge.renderable, GRATICULE_UTM); } } // System.out.println("Total elements: " + count + " visible sector: " + vs); } }
protected void beginDrawIcons(DrawContext dc) { GL2 gl = dc.getGL().getGL2(); // GL initialization checks for GL2 compatibility. this.oglStackHandler.clear(); int attributeMask = GL2.GL_DEPTH_BUFFER_BIT // for depth test, depth mask and depth func | GL2.GL_TRANSFORM_BIT // for modelview and perspective | GL2.GL_VIEWPORT_BIT // for depth range | GL2.GL_CURRENT_BIT // for current color | GL2.GL_COLOR_BUFFER_BIT // for alpha test func and ref, and blend | GL2.GL_DEPTH_BUFFER_BIT // for depth func | GL2.GL_ENABLE_BIT; // for enable/disable changes this.oglStackHandler.pushAttrib(gl, attributeMask); // Apply the depth buffer but don't change it. if ((!dc.isDeepPickingEnabled())) gl.glEnable(GL.GL_DEPTH_TEST); gl.glDepthMask(false); // Suppress any fully transparent image pixels gl.glEnable(GL2.GL_ALPHA_TEST); gl.glAlphaFunc(GL2.GL_GREATER, 0.001f); // Load a parallel projection with dimensions (viewportWidth, viewportHeight) this.oglStackHandler.pushProjectionIdentity(gl); gl.glOrtho( 0d, dc.getView().getViewport().width, 0d, dc.getView().getViewport().height, -1d, 1d); this.oglStackHandler.pushModelview(gl); this.oglStackHandler.pushTexture(gl); if (dc.isPickingMode()) { this.pickSupport.beginPicking(dc); // Set up to replace the non-transparent texture colors with the single pick color. gl.glEnable(GL.GL_TEXTURE_2D); gl.glTexEnvf(GL2.GL_TEXTURE_ENV, GL2.GL_TEXTURE_ENV_MODE, GL2.GL_COMBINE); gl.glTexEnvf(GL2.GL_TEXTURE_ENV, GL2.GL_SRC0_RGB, GL2.GL_PREVIOUS); gl.glTexEnvf(GL2.GL_TEXTURE_ENV, GL2.GL_COMBINE_RGB, GL2.GL_REPLACE); } else { gl.glEnable(GL.GL_TEXTURE_2D); gl.glEnable(GL.GL_BLEND); gl.glBlendFunc(GL.GL_ONE, GL.GL_ONE_MINUS_SRC_ALPHA); } }
/** * Compute the view range footprint on the globe. * * @param dc the current <code>DrawContext</code> * @param steps the number of steps. * @return an array list of <code>LatLon</code> forming a closed shape. */ protected ArrayList<LatLon> computeViewFootPrint(DrawContext dc, int steps) { ArrayList<LatLon> positions = new ArrayList<LatLon>(); Position eyePos = dc.getView().getEyePosition(); Angle distance = Angle.fromRadians( Math.asin( dc.getView().getFarClipDistance() / (dc.getGlobe().getRadius() + eyePos.getElevation()))); if (distance.degrees > 10) { double headStep = 360d / steps; Angle heading = Angle.ZERO; for (int i = 0; i <= steps; i++) { LatLon p = LatLon.greatCircleEndPosition(eyePos, heading, distance); positions.add(p); heading = heading.addDegrees(headStep); } return positions; } else return null; }
protected static boolean isNameVisible( DrawContext dc, PlaceNameService service, Position namePosition) { double elevation = dc.getVerticalExaggeration() * namePosition.getElevation(); Vec4 namePoint = dc.getGlobe() .computePointFromPosition( namePosition.getLatitude(), namePosition.getLongitude(), elevation); Vec4 eyeVec = dc.getView().getEyePoint(); double dist = eyeVec.distanceTo3(namePoint); return dist >= service.getMinDisplayDistance() && dist <= service.getMaxDisplayDistance(); }
/** * Draws the graphic as an ordered renderable. * * @param dc the current draw context. */ protected void makeOrderedRenderable(DrawContext dc) { if (this.lines == null || this.position == null) return; this.computeGeometryIfNeeded(dc); // Don't draw if beyond the horizon. double horizon = dc.getView().getHorizonDistance(); if (this.eyeDistance > horizon) return; if (this.intersectsFrustum(dc)) dc.addOrderedRenderable(this); if (dc.isPickingMode()) this.pickLayer = dc.getCurrentLayer(); }
/** * Determine if this label intersects the view or pick frustum. * * @param dc Current draw context. * @return True if this label intersects the active frustum (view or pick). Otherwise false. */ protected boolean intersectsFrustum(DrawContext dc) { View view = dc.getView(); Frustum frustum = view.getFrustumInModelCoordinates(); // Test the label's model coordinate point against the near and far clipping planes. if (this.placePoint != null && (frustum.getNear().distanceTo(this.placePoint) < 0 || frustum.getFar().distanceTo(this.placePoint) < 0)) { return false; } if (dc.isPickingMode()) return dc.getPickFrustums().intersectsAny(this.screenExtent); else return view.getViewport().intersects(this.screenExtent); }
protected boolean isNavSectorVisible( DrawContext dc, double minDistanceSquared, double maxDistanceSquared) { if (!navSector.intersects(dc.getVisibleSector())) return false; View view = dc.getView(); Position eyePos = view.getEyePosition(); if (eyePos == null) return false; // check for eyePos over globe if (Double.isNaN(eyePos.getLatitude().getDegrees()) || Double.isNaN(eyePos.getLongitude().getDegrees())) return false; Angle lat = clampAngle(eyePos.getLatitude(), navSector.getMinLatitude(), navSector.getMaxLatitude()); Angle lon = clampAngle( eyePos.getLongitude(), navSector.getMinLongitude(), navSector.getMaxLongitude()); Vec4 p = dc.getGlobe().computePointFromPosition(lat, lon, 0d); double distSquared = dc.getView().getEyePoint().distanceToSquared3(p); //noinspection RedundantIfStatement if (minDistanceSquared > distSquared || maxDistanceSquared < distSquared) return false; return true; }
public void computeZone(DrawContext dc) { try { Position centerPos = ((OrbitView) dc.getView()).getCenterPosition(); if (centerPos != null) { if (centerPos.latitude.degrees <= UTM_MAX_LATITUDE && centerPos.latitude.degrees >= UTM_MIN_LATITUDE) { UTMCoord UTM = UTMCoord.fromLatLon( centerPos.getLatitude(), centerPos.getLongitude(), dc.getGlobe()); this.zone = UTM.getZone(); } else this.zone = 0; } } catch (Exception ex) { this.zone = 0; } }
protected void addToolTip(DrawContext dc, WWIcon icon, Vec4 iconPoint) { if (icon.getToolTipFont() == null && icon.getToolTipText() == null) return; Vec4 screenPoint = dc.getView().project(iconPoint); if (screenPoint == null) return; if (icon.getToolTipOffset() != null) screenPoint = screenPoint.add3(icon.getToolTipOffset()); OrderedText tip = new OrderedText( icon.getToolTipText(), icon.getToolTipFont(), screenPoint, icon.getToolTipTextColor(), 0d); dc.addOrderedRenderable(tip); }
/** * Computes the lat/lon of the pickPoint over the world map * * @param dc the current <code>DrawContext</code> * @param locationSW the screen location of the bottom left corner of the map * @param mapSize the world map screen dimension in pixels * @return the picked Position */ protected Position computePickPosition(DrawContext dc, Vec4 locationSW, Dimension mapSize) { Position pickPosition = null; Point pickPoint = dc.getPickPoint(); if (pickPoint != null) { Rectangle viewport = dc.getView().getViewport(); // Check if pickpoint is inside the map if (pickPoint.getX() >= locationSW.getX() && pickPoint.getX() < locationSW.getX() + mapSize.width && viewport.height - pickPoint.getY() >= locationSW.getY() && viewport.height - pickPoint.getY() < locationSW.getY() + mapSize.height) { double lon = (pickPoint.getX() - locationSW.getX()) / mapSize.width * 360 - 180; double lat = (viewport.height - pickPoint.getY() - locationSW.getY()) / mapSize.height * 180 - 90; double pickAltitude = 1000e3; pickPosition = new Position(Angle.fromDegrees(lat), Angle.fromDegrees(lon), pickAltitude); } } return pickPosition; }
public void selectRenderables(DrawContext dc) { try { OrbitView view = (OrbitView) dc.getView(); // Compute easting and northing label offsets Double pixelSize = view.computePixelSizeAtDistance(view.getZoom()); Double eastingOffset = view.getViewport().width * pixelSize * offsetFactorX / 2; Double northingOffset = view.getViewport().height * pixelSize * offsetFactorY / 2; // Derive labels center pos from the view center Position centerPos = view.getCenterPosition(); double labelEasting; double labelNorthing; String labelHemisphere; if (this.zone > 0) { UTMCoord UTM = UTMCoord.fromLatLon(centerPos.getLatitude(), centerPos.getLongitude(), dc.getGlobe()); labelEasting = UTM.getEasting() + eastingOffset; labelNorthing = UTM.getNorthing() + northingOffset; labelHemisphere = UTM.getHemisphere(); if (labelNorthing < 0) { labelNorthing = 10e6 + labelNorthing; labelHemisphere = AVKey.SOUTH; } } else { UPSCoord UPS = UPSCoord.fromLatLon(centerPos.getLatitude(), centerPos.getLongitude(), dc.getGlobe()); labelEasting = UPS.getEasting() + eastingOffset; labelNorthing = UPS.getNorthing() + northingOffset; labelHemisphere = UPS.getHemisphere(); } Position labelPos; for (int i = 0; i < this.extremes.length; i++) { UTMExtremes levelExtremes = this.extremes[i]; double gridStep = Math.pow(10, i); double gridStepTimesTen = gridStep * 10; String graticuleType = getTypeFor((int) gridStep); if (levelExtremes.minX <= levelExtremes.maxX) { // Process easting scale labels for this level for (double easting = levelExtremes.minX; easting <= levelExtremes.maxX; easting += gridStep) { // Skip multiples of ten grid steps except for last (higher) level if (i == this.extremes.length - 1 || easting % gridStepTimesTen != 0) { try { labelPos = computePosition(this.zone, labelHemisphere, easting, labelNorthing); if (labelPos == null) continue; Angle lat = labelPos.getLatitude(); Angle lon = labelPos.getLongitude(); Vec4 surfacePoint = getSurfacePoint(dc, lat, lon); if (viewFrustum.contains(surfacePoint) && isPointInRange(dc, surfacePoint)) { String text = String.valueOf((int) (easting % this.scaleModulo)); GeographicText gt = new UserFacingText(text, new Position(lat, lon, 0)); gt.setPriority(gridStepTimesTen); addRenderable(gt, graticuleType); } } catch (IllegalArgumentException ignore) { } } } } if (!(levelExtremes.maxYHemisphere.equals(AVKey.SOUTH) && levelExtremes.maxY == 0)) { // Process northing scale labels for this level String currentHemisphere = levelExtremes.minYHemisphere; for (double northing = levelExtremes.minY; (northing <= levelExtremes.maxY) || !currentHemisphere.equals(levelExtremes.maxYHemisphere); northing += gridStep) { // Skip multiples of ten grid steps except for last (higher) level if (i == this.extremes.length - 1 || northing % gridStepTimesTen != 0) { try { labelPos = computePosition(this.zone, currentHemisphere, labelEasting, northing); if (labelPos == null) continue; Angle lat = labelPos.getLatitude(); Angle lon = labelPos.getLongitude(); Vec4 surfacePoint = getSurfacePoint(dc, lat, lon); if (viewFrustum.contains(surfacePoint) && isPointInRange(dc, surfacePoint)) { String text = String.valueOf((int) (northing % this.scaleModulo)); GeographicText gt = new UserFacingText(text, new Position(lat, lon, 0)); gt.setPriority(gridStepTimesTen); addRenderable(gt, graticuleType); } } catch (IllegalArgumentException ignore) { } if (!currentHemisphere.equals(levelExtremes.maxYHemisphere) && northing >= 10e6 - gridStep) { // Switch hemisphere currentHemisphere = levelExtremes.maxYHemisphere; northing = -gridStep; } } } } // end northing } // for levels } catch (IllegalArgumentException ignore) { } }
protected void drawMany(DrawContext dc, Iterable<? extends WWIcon> icons, Layer layer) { if (dc == null) { String msg = Logging.getMessage("nullValue.DrawContextIsNull"); Logging.logger().severe(msg); throw new IllegalArgumentException(msg); } if (dc.getVisibleSector() == null) return; SectorGeometryList geos = dc.getSurfaceGeometry(); //noinspection RedundantIfStatement if (geos == null) return; if (icons == null) { String msg = Logging.getMessage("nullValue.IconIterator"); Logging.logger().severe(msg); throw new IllegalArgumentException(msg); } Iterator<? extends WWIcon> iterator = icons.iterator(); if (!iterator.hasNext()) return; double horizon = dc.getView().getHorizonDistance(); while (iterator.hasNext()) { WWIcon icon = iterator.next(); if (!isIconValid(icon, true)) { // Record feedback data for this WWIcon if feedback is enabled. if (icon != null) this.recordFeedback(dc, icon, null, null); continue; } if (!icon.isVisible()) { // Record feedback data for this WWIcon if feedback is enabled. this.recordFeedback(dc, icon, null, null); continue; } // Determine Cartesian position from the surface geometry if the icon is near the surface, // otherwise draw it from the globe. Position pos = icon.getPosition(); Vec4 iconPoint = null; if (pos.getElevation() < dc.getGlobe().getMaxElevation() && !this.isAlwaysUseAbsoluteElevation()) { iconPoint = dc.getSurfaceGeometry().getSurfacePoint(icon.getPosition()); } if (iconPoint == null) { Angle lat = pos.getLatitude(); Angle lon = pos.getLongitude(); double elevation = pos.getElevation(); if (!this.isAlwaysUseAbsoluteElevation()) elevation += dc.getGlobe().getElevation(lat, lon); iconPoint = dc.getGlobe().computePointFromPosition(lat, lon, elevation); } double eyeDistance = icon.isAlwaysOnTop() ? 0 : dc.getView().getEyePoint().distanceTo3(iconPoint); // X-PATCH Marjan // extracted skip conditions into an overrideable method if (!meetsRenderCriteria(dc, icon, iconPoint, eyeDistance)) { this.recordFeedback(dc, icon, iconPoint, null); continue; } // X-END // The icons aren't drawn here, but added to the ordered queue to be drawn back-to-front. dc.addOrderedRenderable(new OrderedIcon(icon, iconPoint, layer, eyeDistance, horizon)); if (icon.isShowToolTip()) this.addToolTip(dc, icon, iconPoint); } }
protected void drawIcon(DrawContext dc) { if (this.getIconFilePath() == null) return; GL gl = dc.getGL(); OGLStackHandler ogsh = new OGLStackHandler(); try { // Initialize texture if necessary Texture iconTexture = dc.getTextureCache().getTexture(this.getIconFilePath()); if (iconTexture == null) { this.initializeTexture(dc); iconTexture = dc.getTextureCache().getTexture(this.getIconFilePath()); if (iconTexture == null) { String msg = Logging.getMessage("generic.ImageReadFailed"); Logging.logger().finer(msg); return; } } gl.glDisable(GL.GL_DEPTH_TEST); double width = this.getScaledIconWidth(); double height = this.getScaledIconHeight(); // Load a parallel projection with xy dimensions (viewportWidth, viewportHeight) // into the GL projection matrix. java.awt.Rectangle viewport = dc.getView().getViewport(); ogsh.pushProjectionIdentity(gl); double maxwh = width > height ? width : height; gl.glOrtho(0d, viewport.width, 0d, viewport.height, -0.6 * maxwh, 0.6 * maxwh); // Translate and scale ogsh.pushModelviewIdentity(gl); double scale = this.computeScale(viewport); Vec4 locationSW = this.computeLocation(viewport, scale); gl.glTranslated(locationSW.x(), locationSW.y(), locationSW.z()); // Scale to 0..1 space gl.glScaled(scale, scale, 1); gl.glScaled(width, height, 1d); if (!dc.isPickingMode()) { gl.glEnable(GL.GL_BLEND); gl.glBlendFunc(GL.GL_SRC_ALPHA, GL.GL_ONE_MINUS_SRC_ALPHA); // Draw background color behind the map gl.glColor4ub( (byte) this.backColor.getRed(), (byte) this.backColor.getGreen(), (byte) this.backColor.getBlue(), (byte) (this.backColor.getAlpha() * this.getOpacity())); dc.drawUnitQuad(); // Draw world map icon gl.glColor4d(1d, 1d, 1d, this.getOpacity()); gl.glEnable(GL.GL_TEXTURE_2D); iconTexture.bind(); TextureCoords texCoords = iconTexture.getImageTexCoords(); dc.drawUnitQuad(texCoords); gl.glBindTexture(GL.GL_TEXTURE_2D, 0); gl.glDisable(GL.GL_TEXTURE_2D); // Draw crosshair for current location gl.glLoadIdentity(); gl.glTranslated(locationSW.x(), locationSW.y(), locationSW.z()); // Scale to width x height space gl.glScaled(scale, scale, 1); // Set color float[] colorRGB = this.color.getRGBColorComponents(null); gl.glColor4d(colorRGB[0], colorRGB[1], colorRGB[2], this.getOpacity()); // Draw crosshair Position groundPos = this.computeGroundPosition(dc, dc.getView()); if (groundPos != null) { int x = (int) (width * (groundPos.getLongitude().degrees + 180) / 360); int y = (int) (height * (groundPos.getLatitude().degrees + 90) / 180); int w = 10; // cross branch length // Draw gl.glBegin(GL.GL_LINE_STRIP); gl.glVertex3d(x - w, y, 0); gl.glVertex3d(x + w + 1, y, 0); gl.glEnd(); gl.glBegin(GL.GL_LINE_STRIP); gl.glVertex3d(x, y - w, 0); gl.glVertex3d(x, y + w + 1, 0); gl.glEnd(); } // Draw view footprint in map icon space if (this.showFootprint) { this.footPrintPositions = this.computeViewFootPrint(dc, 32); if (this.footPrintPositions != null) { gl.glBegin(GL.GL_LINE_STRIP); LatLon p1 = this.footPrintPositions.get(0); for (LatLon p2 : this.footPrintPositions) { int x = (int) (width * (p2.getLongitude().degrees + 180) / 360); int y = (int) (height * (p2.getLatitude().degrees + 90) / 180); // Draw if (LatLon.locationsCrossDateline(p1, p2)) { int y1 = (int) (height * (p1.getLatitude().degrees + 90) / 180); gl.glVertex3d(x < width / 2 ? width : 0, (y1 + y) / 2, 0); gl.glEnd(); gl.glBegin(GL.GL_LINE_STRIP); gl.glVertex3d(x < width / 2 ? 0 : width, (y1 + y) / 2, 0); } gl.glVertex3d(x, y, 0); p1 = p2; } gl.glEnd(); } } // Draw 1px border around and inside the map gl.glBegin(GL.GL_LINE_STRIP); gl.glVertex3d(0, 0, 0); gl.glVertex3d(width, 0, 0); gl.glVertex3d(width, height - 1, 0); gl.glVertex3d(0, height - 1, 0); gl.glVertex3d(0, 0, 0); gl.glEnd(); } else { // Picking this.pickSupport.clearPickList(); this.pickSupport.beginPicking(dc); // Where in the world are we picking ? Position pickPosition = computePickPosition( dc, locationSW, new Dimension((int) (width * scale), (int) (height * scale))); Color color = dc.getUniquePickColor(); int colorCode = color.getRGB(); this.pickSupport.addPickableObject(colorCode, this, pickPosition, false); gl.glColor3ub((byte) color.getRed(), (byte) color.getGreen(), (byte) color.getBlue()); dc.drawUnitQuad(); this.pickSupport.endPicking(dc); this.pickSupport.resolvePick(dc, dc.getPickPoint(), this); } } finally { dc.restoreDefaultDepthTesting(); dc.restoreDefaultCurrentColor(); if (dc.isPickingMode()) dc.restoreDefaultBlending(); ogsh.pop(gl); } }
private boolean isPointInRange(DrawContext dc, Vec4 point) { double altitudeAboveGround = computeAltitudeAboveGround(dc); return dc.getView().getEyePoint().distanceTo3(point) < altitudeAboveGround * this.visibleDistanceFactor; }
/** * Compute the label's screen position from its geographic position. * * @param dc Current draw context. */ protected void computeGeometry(DrawContext dc) { // Project the label position onto the viewport Position pos = this.getPosition(); if (pos == null) return; this.placePoint = dc.computeTerrainPoint(pos.getLatitude(), pos.getLongitude(), 0); this.screenPlacePoint = dc.getView().project(this.placePoint); this.eyeDistance = this.placePoint.distanceTo3(dc.getView().getEyePoint()); boolean orientationReversed = false; if (this.orientationPosition != null) { // Project the orientation point onto the screen Vec4 orientationPlacePoint = dc.computeTerrainPoint( this.orientationPosition.getLatitude(), this.orientationPosition.getLongitude(), 0); Vec4 orientationScreenPoint = dc.getView().project(orientationPlacePoint); this.rotation = this.computeRotation(this.screenPlacePoint, orientationScreenPoint); // The orientation is reversed if the orientation point falls to the right of the screen // point. Text is // never drawn upside down, so when the orientation is reversed the text flips vertically to // keep the text // right side up. orientationReversed = (orientationScreenPoint.x <= this.screenPlacePoint.x); } this.computeBoundsIfNeeded(dc); Offset offset = this.getOffset(); Point2D offsetPoint = offset.computeOffset(this.bounds.getWidth(), this.bounds.getHeight(), null, null); // If a rotation is applied to the text, then rotate the offset as well. An offset in the x // direction // will move the text along the orientation line, and a offset in the y direction will move the // text // perpendicular to the orientation line. if (this.rotation != null) { double dy = offsetPoint.getY(); // If the orientation is reversed we need to adjust the vertical offset to compensate for the // flipped // text. For example, if the offset normally aligns the top of the text with the place point // then without // this adjustment the bottom of the text would align with the place point when the // orientation is // reversed. if (orientationReversed) { dy = -(dy + this.bounds.getHeight()); } Vec4 pOffset = new Vec4(offsetPoint.getX(), dy); Matrix rot = Matrix.fromRotationZ(this.rotation.multiply(-1)); pOffset = pOffset.transformBy3(rot); offsetPoint = new Point((int) pOffset.getX(), (int) pOffset.getY()); } int x = (int) (this.screenPlacePoint.x + offsetPoint.getX()); int y = (int) (this.screenPlacePoint.y - offsetPoint.getY()); this.screenPoint = new Point(x, y); this.screenExtent = this.computeTextExtent(x, y, this.rotation); }
// Rendering public void draw(DrawContext dc) { GL gl = dc.getGL(); boolean attribsPushed = false; boolean modelviewPushed = false; boolean projectionPushed = false; try { gl.glPushAttrib( GL.GL_DEPTH_BUFFER_BIT | GL.GL_COLOR_BUFFER_BIT | GL.GL_ENABLE_BIT | GL.GL_TEXTURE_BIT | GL.GL_TRANSFORM_BIT | GL.GL_VIEWPORT_BIT | GL.GL_CURRENT_BIT); attribsPushed = true; gl.glDisable(GL.GL_TEXTURE_2D); // no textures gl.glEnable(GL.GL_BLEND); gl.glBlendFunc(GL.GL_SRC_ALPHA, GL.GL_ONE_MINUS_SRC_ALPHA); gl.glDisable(GL.GL_DEPTH_TEST); double width = this.size.width; double height = this.size.height; // Load a parallel projection with xy dimensions (viewportWidth, viewportHeight) // into the GL projection matrix. java.awt.Rectangle viewport = dc.getView().getViewport(); gl.glMatrixMode(javax.media.opengl.GL.GL_PROJECTION); gl.glPushMatrix(); projectionPushed = true; gl.glLoadIdentity(); double maxwh = width > height ? width : height; gl.glOrtho(0d, viewport.width, 0d, viewport.height, -0.6 * maxwh, 0.6 * maxwh); gl.glMatrixMode(GL.GL_MODELVIEW); gl.glPushMatrix(); modelviewPushed = true; gl.glLoadIdentity(); // Scale to a width x height space // located at the proper position on screen double scale = this.computeScale(viewport); Vec4 locationSW = this.computeLocation(viewport, scale); gl.glTranslated(locationSW.x(), locationSW.y(), locationSW.z()); gl.glScaled(scale, scale, 1); // Compute scale size in real world Position referencePosition = dc.getViewportCenterPosition(); if (referencePosition != null) { Vec4 groundTarget = dc.getGlobe().computePointFromPosition(referencePosition); Double distance = dc.getView().getEyePoint().distanceTo3(groundTarget); this.pixelSize = dc.getView().computePixelSizeAtDistance(distance); Double scaleSize = this.pixelSize * width * scale; // meter String unitLabel = "m"; if (this.unit.equals(UNIT_METRIC)) { if (scaleSize > 10000) { scaleSize /= 1000; unitLabel = "Km"; } } else if (this.unit.equals(UNIT_IMPERIAL)) { scaleSize *= 3.280839895; // feet unitLabel = "ft"; if (scaleSize > 5280) { scaleSize /= 5280; unitLabel = "mile(s)"; } } // Rounded division size int pot = (int) Math.floor(Math.log10(scaleSize)); if (!Double.isNaN(pot)) { int digit = Integer.parseInt(String.format("%.0f", scaleSize).substring(0, 1)); double divSize = digit * Math.pow(10, pot); if (digit >= 5) divSize = 5 * Math.pow(10, pot); else if (digit >= 2) divSize = 2 * Math.pow(10, pot); double divWidth = width * divSize / scaleSize; // Draw scale if (!dc.isPickingMode()) { // Set color using current layer opacity Color backColor = this.getBackgroundColor(this.color); float[] colorRGB = backColor.getRGBColorComponents(null); gl.glColor4d( colorRGB[0], colorRGB[1], colorRGB[2], (double) backColor.getAlpha() / 255d * this.getOpacity()); gl.glTranslated((width - divWidth) / 2, 0d, 0d); this.drawScale(dc, divWidth, height); colorRGB = this.color.getRGBColorComponents(null); gl.glColor4d(colorRGB[0], colorRGB[1], colorRGB[2], this.getOpacity()); gl.glTranslated(-1d / scale, 1d / scale, 0d); this.drawScale(dc, divWidth, height); // Draw label String label = String.format("%.0f ", divSize) + unitLabel; gl.glLoadIdentity(); gl.glDisable(GL.GL_CULL_FACE); drawLabel( dc, label, locationSW.add3( new Vec4(divWidth * scale / 2 + (width - divWidth) / 2, height * scale, 0))); } else { // Picking this.pickSupport.clearPickList(); this.pickSupport.beginPicking(dc); // Draw unique color across the map Color color = dc.getUniquePickColor(); int colorCode = color.getRGB(); // Add our object(s) to the pickable list this.pickSupport.addPickableObject(colorCode, this, referencePosition, false); gl.glColor3ub((byte) color.getRed(), (byte) color.getGreen(), (byte) color.getBlue()); gl.glTranslated((width - divWidth) / 2, 0d, 0d); this.drawRectangle(dc, divWidth, height); // Done picking this.pickSupport.endPicking(dc); this.pickSupport.resolvePick(dc, dc.getPickPoint(), this); } } } } finally { if (projectionPushed) { gl.glMatrixMode(GL.GL_PROJECTION); gl.glPopMatrix(); } if (modelviewPushed) { gl.glMatrixMode(GL.GL_MODELVIEW); gl.glPopMatrix(); } if (attribsPushed) gl.glPopAttrib(); } }
protected Vec4 drawIcon(DrawContext dc, OrderedIcon uIcon) { if (uIcon.point == null) { String msg = Logging.getMessage("nullValue.PointIsNull"); Logging.logger().severe(msg); // Record feedback data for this WWIcon if feedback is enabled. if (uIcon.icon != null) this.recordFeedback(dc, uIcon.icon, null, null); return null; } WWIcon icon = uIcon.icon; if (dc.getView().getFrustumInModelCoordinates().getNear().distanceTo(uIcon.point) < 0) { // Record feedback data for this WWIcon if feedback is enabled. this.recordFeedback(dc, icon, uIcon.point, null); return null; } final Vec4 screenPoint = dc.getView().project(uIcon.point); if (screenPoint == null) { // Record feedback data for this WWIcon if feedback is enabled. this.recordFeedback(dc, icon, uIcon.point, null); return null; } double pedestalScale; double pedestalSpacing; if (this.pedestal != null) { pedestalScale = this.pedestal.getScale(); pedestalSpacing = pedestal.getSpacingPixels(); } else { pedestalScale = 0d; pedestalSpacing = 0d; } GL2 gl = dc.getGL().getGL2(); // GL initialization checks for GL2 compatibility. this.setDepthFunc(dc, uIcon, screenPoint); gl.glMatrixMode(GL2.GL_MODELVIEW); gl.glLoadIdentity(); Dimension size = icon.getSize(); double width = size != null ? size.getWidth() : icon.getImageTexture().getWidth(dc); double height = size != null ? size.getHeight() : icon.getImageTexture().getHeight(dc); gl.glTranslated( screenPoint.x - width / 2, screenPoint.y + (pedestalScale * height) + pedestalSpacing, 0d); if (icon.isHighlighted()) { double heightDelta = this.pedestal != null ? 0 : height / 2; // expand only above the pedestal gl.glTranslated(width / 2, heightDelta, 0); gl.glScaled(icon.getHighlightScale(), icon.getHighlightScale(), icon.getHighlightScale()); gl.glTranslated(-width / 2, -heightDelta, 0); } Rectangle rect = new Rectangle( (int) (screenPoint.x - width / 2), (int) (screenPoint.y), (int) width, (int) (height + (pedestalScale * height) + pedestalSpacing)); if (dc.isPickingMode()) { // If in picking mode and pick clipping is enabled, check to see if the icon is within the // pick volume. if (this.isPickFrustumClippingEnabled() && !dc.getPickFrustums().intersectsAny(rect)) { // Record feedback data for this WWIcon if feedback is enabled. this.recordFeedback(dc, icon, uIcon.point, rect); return screenPoint; } else { java.awt.Color color = dc.getUniquePickColor(); int colorCode = color.getRGB(); this.pickSupport.addPickableObject(colorCode, icon, uIcon.getPosition(), false); gl.glColor3ub((byte) color.getRed(), (byte) color.getGreen(), (byte) color.getBlue()); } } if (icon.getBackgroundTexture() != null) this.applyBackground(dc, icon, screenPoint, width, height, pedestalSpacing, pedestalScale); if (icon.getImageTexture().bind(dc)) { TextureCoords texCoords = icon.getImageTexture().getTexCoords(); gl.glScaled(width, height, 1d); dc.drawUnitQuad(texCoords); } if (this.pedestal != null && this.pedestal.getImageTexture() != null) { gl.glLoadIdentity(); gl.glTranslated(screenPoint.x - (pedestalScale * (width / 2)), screenPoint.y, 0d); gl.glScaled(width * pedestalScale, height * pedestalScale, 1d); if (this.pedestal.getImageTexture().bind(dc)) { TextureCoords texCoords = this.pedestal.getImageTexture().getTexCoords(); dc.drawUnitQuad(texCoords); } } // Record feedback data for this WWIcon if feedback is enabled. this.recordFeedback(dc, icon, uIcon.point, rect); return screenPoint; }