public void postQueue(RenderQueue rq) {
    GeometryList occluders = rq.getShadowQueueContent(ShadowMode.Cast);
    if (occluders.size() == 0) {
      noOccluders = true;
      return;
    } else {
      noOccluders = false;
    }

    GeometryList receivers = rq.getShadowQueueContent(ShadowMode.Receive);

    // update frustum points based on current camera
    Camera viewCam = viewPort.getCamera();
    ShadowUtil.updateFrustumPoints(
        viewCam, viewCam.getFrustumNear(), viewCam.getFrustumFar(), 1.0f, points);

    Vector3f frustaCenter = new Vector3f();
    for (Vector3f point : points) {
      frustaCenter.addLocal(point);
    }
    frustaCenter.multLocal(1f / 8f);

    // update light direction
    shadowCam.setProjectionMatrix(null);
    shadowCam.setParallelProjection(true);
    //        shadowCam.setFrustumPerspective(45, 1, 1, 20);

    shadowCam.lookAtDirection(direction, Vector3f.UNIT_Y);
    shadowCam.update();
    shadowCam.setLocation(frustaCenter);
    shadowCam.update();
    shadowCam.updateViewProjection();

    // render shadow casters to shadow map
    ShadowUtil.updateShadowCamera(occluders, receivers, shadowCam, points);

    Renderer r = renderManager.getRenderer();
    renderManager.setCamera(shadowCam, false);
    renderManager.setForcedMaterial(preshadowMat);

    r.setFrameBuffer(shadowFB);
    r.clearBuffers(false, true, false);
    viewPort.getQueue().renderShadowQueue(ShadowMode.Cast, renderManager, shadowCam, true);
    r.setFrameBuffer(viewPort.getOutputFrameBuffer());

    renderManager.setForcedMaterial(null);
    renderManager.setCamera(viewCam, false);
  }
Example #2
0
 public static void getPreNormals(
     RenderManager renderManager, Pass normalPass, ViewPort viewPort) {
   curCount++;
   // do we already have a valid cache to set the framebuffer to?
   Renderer r = renderManager.getRenderer();
   if (cachedPreNormals != null) {
     r.copyFrameBuffer(cachedPreNormals, normalPass.getRenderFrameBuffer(), false);
   } else {
     // lets make the prenormals
     r.setFrameBuffer(normalPass.getRenderFrameBuffer());
     renderManager.getRenderer().clearBuffers(true, true, true);
     if (renderManager.getRenderer().getCaps().contains(Caps.GLSL150)) {
       renderManager.setForcedTechnique("PreNormalPass15");
     } else {
       renderManager.setForcedTechnique("PreNormalPass");
     }
     renderManager.renderViewPortQueues(viewPort, false);
     renderManager.setForcedTechnique(null);
     // if we should cache this, do it now
     if (lastNormalPassesCount > 1) {
       cachedPreNormals = normalPass.getRenderFrameBuffer();
     }
   }
   renderManager.getRenderer().setFrameBuffer(viewPort.getOutputFrameBuffer());
 }
  @SuppressWarnings("fallthrough")
  public void postQueue(RenderQueue rq) {
    GeometryList occluders = rq.getShadowQueueContent(ShadowMode.Cast);
    sceneReceivers = rq.getShadowQueueContent(ShadowMode.Receive);
    if (sceneReceivers.size() == 0 || occluders.size() == 0) {
      return;
    }

    updateShadowCams(viewPort.getCamera());

    Renderer r = renderManager.getRenderer();
    renderManager.setForcedMaterial(preshadowMat);
    renderManager.setForcedTechnique("PreShadow");

    for (int shadowMapIndex = 0; shadowMapIndex < nbShadowMaps; shadowMapIndex++) {

      if (debugfrustums) {
        doDisplayFrustumDebug(shadowMapIndex);
      }
      renderShadowMap(shadowMapIndex, occluders, sceneReceivers);
    }

    debugfrustums = false;
    if (flushQueues) {
      occluders.clear();
    }
    // restore setting for future rendering
    r.setFrameBuffer(viewPort.getOutputFrameBuffer());
    renderManager.setForcedMaterial(null);
    renderManager.setForcedTechnique(null);
    renderManager.setCamera(viewPort.getCamera(), false);
  }
  /**
   * renders a filter on a fullscreen quad
   *
   * @param r
   * @param buff
   * @param mat
   */
  private void renderProcessing(Renderer r, FrameBuffer buff, Material mat) {
    if (buff == outputBuffer) {
      fsQuad.setWidth(width);
      fsQuad.setHeight(height);
      filterCam.resize(originalWidth, originalHeight, true);
      fsQuad.setPosition(left * originalWidth, bottom * originalHeight);
    } else {
      fsQuad.setWidth(buff.getWidth());
      fsQuad.setHeight(buff.getHeight());
      filterCam.resize(buff.getWidth(), buff.getHeight(), true);
      fsQuad.setPosition(0, 0);
    }

    if (mat.getAdditionalRenderState().isDepthWrite()) {
      mat.getAdditionalRenderState().setDepthTest(false);
      mat.getAdditionalRenderState().setDepthWrite(false);
    }

    fsQuad.setMaterial(mat);
    fsQuad.updateGeometricState();

    renderManager.setCamera(filterCam, true);
    r.setFrameBuffer(buff);
    r.clearBuffers(false, true, true);
    renderManager.renderGeometry(fsQuad);
  }
 @Override
 protected void postQueue(RenderQueue renderQueue) {
   Renderer r = renderManager.getRenderer();
   r.setFrameBuffer(normalPass.getRenderFrameBuffer());
   renderManager.getRenderer().clearBuffers(true, true, true);
   renderManager.setForcedTechnique("PreNormalPass");
   renderManager.renderViewPortQueues(viewPort, false);
   renderManager.setForcedTechnique(null);
   renderManager.getRenderer().setFrameBuffer(viewPort.getOutputFrameBuffer());
 }
  public void postFrame(FrameBuffer out) {

    FrameBuffer sceneBuffer = renderFrameBuffer;
    if (renderFrameBufferMS != null && !renderer.getCaps().contains(Caps.OpenGL31)) {
      renderer.copyFrameBuffer(renderFrameBufferMS, renderFrameBuffer);
    } else if (renderFrameBufferMS != null) {
      sceneBuffer = renderFrameBufferMS;
    }
    renderFilterChain(renderer, sceneBuffer);
    renderer.setFrameBuffer(outputBuffer);

    // viewport can be null if no filters are enabled
    if (viewPort != null) {
      renderManager.setCamera(viewPort.getCamera(), false);
    }
  }