protected void render(DrawContext dc, Vec4 p1, Vec4 p2, double radius) {
// To compute the rotation of the cylinder axis to the orientation of the vector between the
// two points,
// this method performs the same operation as Vec4.axisAngle() but with a "v2" of <0, 0, 1>.
// Compute rotation angle
double length = p1.distanceTo3(p2);
Vec4 u1 = new Vec4((p2.x - p1.x) / length, (p2.y - p1.y) / length, (p2.z - p1.z) / length);
double angle = Math.acos(u1.z);
// Compute the direction cosine factors that define the rotation axis
double A = -u1.y;
double B = u1.x;
double L = Math.sqrt(A * A + B * B);
GL gl = dc.getGL();
// pushReferenceCenter performs the translation of the pipe's origin to point p1 and the
// necessary
// push/pop of the modelview stack. Otherwise we'd need to include a glPushMatrix and
// gl.glTranslated(p1.x, p1.y, p1.z) above the rotation, and a corresponding glPopMatrix after
// the
// call to glCallIst.
dc.getView().pushReferenceCenter(dc, p1);
gl.glRotated(angle * TO_DEGREES, A / L, B / L, 0);
gl.glScaled(
radius, radius, length / 2); // length / 2 because cylinder is created with length 2
dc.getGL().glCallList(this.glListId);
dc.getView().popReferenceCenter(dc);
}
private void renderPin(GL gl, Coordinates position, float[] color, float size) {
float height = heightmap.getHeight(projection.getGeoCoordinates(position));
gl.glPushMatrix();
double[] model = new double[16];
gl.glGetDoublev(GL_MODELVIEW_MATRIX, model, 0);
double zoomH =
0.1 / Math.sqrt((model[0] * model[0]) + (model[1] * model[1]) + (model[2] * model[2]));
double zoomZ =
0.1 / Math.sqrt((model[8] * model[8]) + (model[9] * model[9]) + (model[10] * model[10]));
gl.glTranslatef(position.getLongitude(), position.getLatitude(), height);
gl.glScaled(zoomH * size, zoomH * size, zoomZ * size);
gl.glDisable(GL_TEXTURE_2D);
gl.glRotatef(20, 0.3f, 1, 0);
GLU glu = new GLU();
GLUquadric quadric = glu.gluNewQuadric();
// glu.gluQuadricNormals(quadric, GLU.GLU_FLAT);
gl.glColor3f(0.5f, 0.5f, 0.5f);
gl.glEnable(GL_LIGHTING);
glu.gluCylinder(quadric, 0.03, 0.03, 0.6f, 5, 1);
gl.glTranslatef(0, 0, 0.6f);
gl.glColor3f(color[0], color[1], color[2]);
gl.glColorMaterial(GL_FRONT_AND_BACK, GL_AMBIENT_AND_DIFFUSE);
glu.gluSphere(quadric, 0.12, 8, 8);
// glu.gluCylinder(quadric, 0.2, 0.1, 0.5, 8, 1);
gl.glDisable(GL_LIGHTING);
glu.gluDeleteQuadric(quadric);
gl.glPopMatrix();
}
/**
* Render the label interior as a filled rectangle.
*
* @param dc Current draw context.
*/
protected void drawInterior(DrawContext dc) {
GL gl = dc.getGL();
double width = this.bounds.getWidth();
double height = this.bounds.getHeight();
int x = this.screenPoint.x;
int y = this.screenPoint.y;
// Adjust x to account for text alignment
int xAligned = x;
if (AVKey.CENTER.equals(textAlign)) xAligned = x - (int) (width / 2);
else if (AVKey.RIGHT.equals(textAlign)) xAligned = x - (int) width;
// We draw text top-down, so adjust y to compensate.
int yAligned = (int) (y - height);
// Apply insets
Insets insets = this.getInsets();
xAligned -= insets.left;
width = width + insets.left + insets.right;
yAligned -= insets.bottom;
height = height + insets.bottom + insets.top;
if (!dc.isPickingMode()) {
// Apply the frame background color and opacity if we're in normal rendering mode.
Color color = this.computeBackgroundColor(this.getMaterial().getDiffuse());
gl.glColor4ub(
(byte) color.getRed(),
(byte) color.getGreen(),
(byte) color.getBlue(),
(byte) (this.interiorOpacity < 1 ? (int) (this.interiorOpacity * 255 + 0.5) : 255));
}
try {
// Draw a quad
gl.glPushMatrix();
gl.glTranslated(xAligned, yAligned, 0);
gl.glScaled(width, height, 1.0);
dc.drawUnitQuad();
} finally {
gl.glPopMatrix();
}
}
public void applyInternalTransform(DrawContext dc) {
if (dc == null) {
String message = Logging.getMessage("nullValue.DrawContextIsNull");
Logging.logger().severe(message);
throw new IllegalStateException(message);
}
Texture texture = this.getTexture(dc);
if (texture == null) texture = this.requestTexture(dc);
if (texture == null) return;
if (texture.getMustFlipVertically()) {
GL gl = GLContext.getCurrent().getGL();
gl.glMatrixMode(GL.GL_TEXTURE);
gl.glLoadIdentity();
gl.glScaled(1, -1, 1);
gl.glTranslated(0, -1, 0);
}
}
protected void drawIcon(DrawContext dc, SurfaceTileDrawContext sdc) {
if (this.locations == null) return;
GL gl = dc.getGL();
gl.glMatrixMode(GL.GL_MODELVIEW);
double drawScale = 1;
TextureCoords textureCoords = new TextureCoords(0, 0, 1, 1);
// Compute draw scale only once if not maintaining strict appearance
if (!this.isMaintainAppearance()) drawScale = this.computeDrawScale(dc, sdc, null);
// Determine which locations are to be drawn
Iterable<? extends LatLon> drawLocations = this.computeDrawLocations(dc, sdc);
// Draw icons
for (LatLon location : drawLocations) {
gl.glPushMatrix();
if (this.isMaintainAppearance()) drawScale = this.computeDrawScale(dc, sdc, location);
this.applyDrawTransform(dc, sdc, location, drawScale);
gl.glScaled(this.imageWidth, this.imageHeight, 1d);
dc.drawUnitQuad(textureCoords);
gl.glPopMatrix();
}
}
public void scale(double d) {
gl.glScaled(d, d, d);
}
@Override
public void render(final DrawContext dc) {
// _lastDC = dc;
runFrameWorkers();
final GTexture texture = getTexture();
if ((texture == null) || !texture.hasGLTexture()) {
return;
}
final GL gl = dc.getGL();
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);
gl.glEnable(GL.GL_BLEND);
gl.glBlendFunc(GL.GL_SRC_ALPHA, GL.GL_ONE_MINUS_SRC_ALPHA);
gl.glDisable(GL.GL_DEPTH_TEST);
// Load a parallel projection with xy dimensions (viewportWidth, viewportHeight)
// into the GL projection matrix.
final Rectangle viewport = dc.getView().getViewport();
gl.glMatrixMode(GL.GL_PROJECTION);
gl.glPushMatrix();
gl.glLoadIdentity();
final double maxwh = Math.max(_textureWidth, _textureHeight);
gl.glOrtho(0d, viewport.width, 0d, viewport.height, -0.6 * maxwh, 0.6 * maxwh);
gl.glMatrixMode(GL.GL_MODELVIEW);
gl.glPushMatrix();
gl.glLoadIdentity();
// Translate and scale
final float scale = computeScale(viewport);
final Vec4 locationSW = computeLocation(viewport, scale);
gl.glTranslated(locationSW.x(), locationSW.y(), locationSW.z());
// Scale to 0..1 space
gl.glScalef(scale, scale, 1f);
gl.glScaled(_textureWidth, _textureHeight, 1d);
_lastScreenBounds = calculateScreenBounds(viewport, locationSW, scale);
texture.enable();
texture.bind();
gl.glTexEnvf(GL.GL_TEXTURE_ENV, GL.GL_TEXTURE_ENV_MODE, GL.GL_MODULATE);
gl.glColor4f(1, 1, 1, calculateOpacity());
dc.drawUnitQuad(texture.getImageTexCoords());
texture.disable();
gl.glMatrixMode(GL.GL_PROJECTION);
gl.glPopMatrix();
gl.glMatrixMode(GL.GL_MODELVIEW);
gl.glPopMatrix();
gl.glPopAttrib();
}
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);
}
}
// 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();
}
}