@Override public void process(FilterContext context) { // Get input frame Frame input = pullInput("image"); FrameFormat inputFormat = input.getFormat(); // Create program if not created already if (mProgram == null || inputFormat.getTarget() != mTarget) { initProgram(context, inputFormat.getTarget()); } // Check if the frame size has changed if (inputFormat.getWidth() != mWidth || inputFormat.getHeight() != mHeight) { mWidth = inputFormat.getWidth(); mHeight = inputFormat.getHeight(); initParameters(); } // Create output frame Frame output = context.getFrameManager().newFrame(inputFormat); // Process mProgram.process(input, output); // Push output pushOutput("image", output); // Release pushed frame output.release(); }
@Override public void process(FilterContext env) { Frame input = pullInput("mixedcase"); String inputString = (String) input.getObjectValue(); Frame output = env.getFrameManager().newFrame(mOutputFormat); output.setObjectValue(inputString.toUpperCase(Locale.getDefault())); pushOutput("uppercase", output); }
@Override protected void prepare(FilterContext context) { if (mLogVerbose) Log.v(TAG, "Preparing SurfaceTextureSource"); createFormats(); // Prepare input mMediaFrame = (GLFrame) context.getFrameManager().newBoundFrame(mOutputFormat, GLFrame.EXTERNAL_TEXTURE, 0); // Prepare output mFrameExtractor = new ShaderProgram(context, mRenderShader); }
@Override public void process(FilterContext context) { if (mLogVerbose) Log.v(TAG, "Processing new frame"); // First, get new frame if available if (mWaitForNewFrame || mFirstFrame) { boolean gotNewFrame; if (mWaitTimeout != 0) { gotNewFrame = mNewFrameAvailable.block(mWaitTimeout); if (!gotNewFrame) { if (!mCloseOnTimeout) { throw new RuntimeException("Timeout waiting for new frame"); } else { if (mLogVerbose) Log.v(TAG, "Timeout waiting for a new frame. Closing."); closeOutputPort("video"); return; } } } else { mNewFrameAvailable.block(); } mNewFrameAvailable.close(); mFirstFrame = false; } mSurfaceTexture.updateTexImage(); mSurfaceTexture.getTransformMatrix(mFrameTransform); Matrix.multiplyMM( mMappedCoords, 0, mFrameTransform, 0, mSourceCoords, 0); mFrameExtractor.setSourceRegion( mMappedCoords[0], mMappedCoords[1], mMappedCoords[4], mMappedCoords[5], mMappedCoords[8], mMappedCoords[9], mMappedCoords[12], mMappedCoords[13]); // Next, render to output Frame output = context.getFrameManager().newFrame(mOutputFormat); mFrameExtractor.process(mMediaFrame, output); output.setTimestamp(mSurfaceTexture.getTimestamp()); pushOutput("video", output); output.release(); }
@Override public void process(FilterContext context) { // Get input frame Frame input = pullInput("image"); FrameFormat inputFormat = input.getFormat(); // Create program if not created already if (mProgram == null || inputFormat.getTarget() != mTarget) { initProgram(context, inputFormat.getTarget()); updateParameters(); } // Create output frame Frame output = context.getFrameManager().newFrame(inputFormat); // Process mProgram.process(input, output); // Push output pushOutput("image", output); // Release pushed frame output.release(); }
@Override public boolean process( FilterContext context, VideoEventFilter myfilter, boolean isRenderOutput, GLFrame output) { super.process(context, myfilter, isRenderOutput, output); GLFrame camera = myfilter.getInputCameraGLFrame(); FrameFormat inputFormat; inputFormat = camera.getFormat(); if (null == mMainFrame) { MutableFrameFormat outputFormat = inputFormat.mutableCopy(); mMainFrame = (GLFrame) context.getFrameManager().newFrame(outputFormat); mMainFrame.focus(); mCopyProgramWithColor.process(camera, mMainFrame); } if (null == mPreviousFrame) { MutableFrameFormat outputFormat = inputFormat.mutableCopy(); mPreviousFrame = (GLFrame) context.getFrameManager().newFrame(outputFormat); mPreviousFrame.focus(); } Frame[] subtractInputs = {camera, mPreviousFrame}; long currentTimeStamp = myfilter.getNowTimeStamp(); long cameraPhoto; if (this.containsKey("camera_photo")) { try { cameraPhoto = ((Long) this.get("camera_photo")).longValue() + mStart; } catch (ClassCastException e) { e.printStackTrace(); return false; } // get fix frame if (currentTimeStamp >= cameraPhoto) { if (false == mGotMainFrame) { mMainFrame.focus(); mColor[3] = 1.0f; mCopyProgramWithColor.setHostValue("ccc", mColor); mCopyProgramWithColor.process(camera, mMainFrame); mGotMainFrame = true; mTool.log('d', "Got CameraInput:" + currentTimeStamp); } subtractInputs[0] = mMainFrame; } if (false == mIsGotPreviousFrame || true == mIsGotPreviousFrame && currentTimeStamp < mEffectStart) { mPreviousFrame.focus(); if (isRenderOutput) { mCopyProgramWithColor.process(output, mPreviousFrame); } else { mCopyProgramWithColor.process(camera, mPreviousFrame); } mIsGotPreviousFrame = true; mTool.log('d', "Got PreviousInput:" + currentTimeStamp); } // finished, no need to do if (currentTimeStamp >= mEffectEnd || currentTimeStamp < mEffectStart) { return false; } float center_r = 0.0f; if (cameraPhoto >= currentTimeStamp) { center_r = 1.0f - (float) (currentTimeStamp - mEffectStart) / (float) (cameraPhoto - mEffectStart); subtractInputs[0] = mPreviousFrame; } else { center_r = (float) (currentTimeStamp - cameraPhoto) / (float) (mEffectEnd - cameraPhoto); subtractInputs[0] = mMainFrame; } mCopyProgram.setHostValue("center_r", center_r); if (null != output && isRenderOutput == false) { mCopyProgram.process(subtractInputs, output); } return true; } return false; }