@Override public void glLineWidth (float width) { calls++; gl20.glLineWidth(width); check(); }
@Override public void glLineWidth (float width) { calls++; gl20.glLineWidth(width); check(); }
@Override public void render () { super.render(); Gdx.gl.glLineWidth(5); shapeRenderer.setProjectionMatrix(camera.combined); shapeRenderer.begin(ShapeRenderer.ShapeType.Line); shapeRenderer.setColor(1, 0, 0, 1f); shapeRenderer.line(selectedTriangleVertices[0], selectedTriangleVertices[1]); shapeRenderer.line(selectedTriangleVertices[1], selectedTriangleVertices[2]); shapeRenderer.line(selectedTriangleVertices[2], selectedTriangleVertices[0]); shapeRenderer.end(); Gdx.gl.glLineWidth(1); }
batch.setProjectionMatrix(camera.combined); shapeRenderer.setColor(Color.BLUE); Gdx.gl20.glLineWidth(2); MapLayer layer = map.getLayers().get("Objects"); AnimatedTiledMapTile.updateAnimationBaseTime();
public void setLineWidth(float width) { this.lineWidth = width; Gdx.gl20.glLineWidth(width); }
@Override public void glLineWidth (float width) { calls++; gl20.glLineWidth(width); check(); }
public void render(float delta) { if (0 == totalTime) return; Gdx.gl.glEnable(GL20.GL_BLEND); Gdx.gl.glLineWidth(4); c.a = (float) currentTime / (float) totalTime; Engine.getShapeRenderer().setColor(c); for (Line line : this.segments) { line.render(); } Gdx.gl.glLineWidth(1); }
@Override public void renderStud(Array<IRenderable> renderables, ICamera camera, double t) { if (sort) renderables.sort(comp); Gdx.gl.glLineWidth(1.2f * GlobalConf.SCALE_FACTOR); if (mustRender()) { batch.begin(camera.getCamera()); int size = renderables.size; for (int i = 0; i < size; i++) { IModelRenderable s = (IModelRenderable) renderables.get(i); // Route to correct interface switch (type) { case NORMAL: s.render(batch, getAlpha(s), t); break; case ATMOSPHERE: ((IAtmosphereRenderable) s).renderAtmosphere(batch, getAlpha(ctAtm), t); break; case CLOUD: ((ICloudRenderable) s).renderClouds(batch, getAlpha(ctClouds), t); break; } } batch.end(); } }
@Override public void render(float delta) { super.render(delta); if(Assets.am.update()){ Gdx.app.log("Splash Screen", "Assets are Loaded!"); dispatcher.endCurrentScreen(); }else { cam.update(); batch.setProjectionMatrix(cam.combined); batch.enableBlending(); batch.begin(); batch.draw(Assets.splashScreen, 0f, 0f, Gdx.graphics.getWidth(), Gdx.graphics.getHeight()); batch.end(); Gdx.gl20.glLineWidth(1f); shapeRenderer.setProjectionMatrix(cam.combined); shapeRenderer.begin(ShapeRenderer.ShapeType.Filled); shapeRenderer.setColor(Color.CYAN); shapeRenderer.rect(0, 0, cam.viewportWidth * Assets.am.getProgress(), cam.viewportHeight / 5f); shapeRenderer.end(); } } }
if(wireframe) { RadixClient.getInstance().setWireframe(true); Gdx.gl.glLineWidth(2); wiremeshBatch.begin(RadixClient.getInstance().getCamera()); for (IChunk c : visibleChunks) {
Gdx.gl.glLineWidth(1f * GlobalConf.SCALE_FACTOR);
ILineRenderable renderable = (ILineRenderable) renderables.get(i); Gdx.gl.glLineWidth(renderable.getLineWidth() * GlobalConf.SCALE_FACTOR); boolean rend = true;
Gdx.gl.glLineWidth(renderable.getLineWidth() * GlobalConf.SCALE_FACTOR); shaderProgram.setUniformMatrix("u_worldTransform", renderable.getLocalTransform()); shaderProgram.setUniformMatrix("u_projModelView", camera.getCamera().combined);