/* * Copyright (C) 2011 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package android.filterpacks.imageproc; import android.filterfw.core.Filter; import android.filterfw.core.FilterContext; import android.filterfw.core.Frame; import android.filterfw.core.FrameFormat; import android.filterfw.core.GenerateFieldPort; import android.filterfw.core.KeyValueMap; import android.filterfw.core.NativeProgram; import android.filterfw.core.NativeFrame; import android.filterfw.core.Program; import android.filterfw.core.ShaderProgram; import android.filterfw.format.ImageFormat; import java.util.Random; public class DocumentaryFilter extends Filter { @GenerateFieldPort(name = "tile_size", hasDefault = true) private int mTileSize = 640; private Program mProgram; private int mWidth = 0; private int mHeight = 0; private int mTarget = FrameFormat.TARGET_UNSPECIFIED; private Frame mNoiseFrame; private Random mRandom; private final String mDocumentaryShader = "precision mediump float;\n" + "uniform sampler2D tex_sampler_0;\n" + "uniform sampler2D tex_sampler_1;\n" + "uniform float stepsize;\n" + "uniform float inv_max_dist;\n" + "uniform vec2 center;\n" + "varying vec2 v_texcoord;\n" + "void main() {\n" + // black white " vec4 color = texture2D(tex_sampler_0, v_texcoord);\n" + " float dither = texture2D(tex_sampler_1, v_texcoord).r;\n" + " vec3 xform = clamp(2.0 * color.rgb, 0.0, 1.0);\n" + " vec3 temp = clamp(2.0 * (color.rgb + stepsize), 0.0, 1.0);\n" + " vec3 new_color = clamp(xform + (temp - xform) * (dither - 0.5), 0.0, 1.0);\n" + // grayscale " float gray = dot(new_color, vec3(0.299, 0.587, 0.114));\n" + " new_color = vec3(gray, gray, gray);\n" + // vignette " float dist = distance(gl_FragCoord.xy, center);\n" + " float lumen = 0.85 / (1.0 + exp((dist * inv_max_dist - 0.83) * 20.0)) + 0.15;\n" + " gl_FragColor = vec4(new_color * lumen, color.a);\n" + "}\n"; public DocumentaryFilter(String name) { super(name); mRandom = new Random(); } @Override public void setupPorts() { addMaskedInputPort("image", ImageFormat.create(ImageFormat.COLORSPACE_RGBA)); addOutputBasedOnInput("image", "image"); } @Override public FrameFormat getOutputFormat(String portName, FrameFormat inputFormat) { return inputFormat; } @Override public void tearDown(FilterContext context) { if (mNoiseFrame != null) { mNoiseFrame.release(); mNoiseFrame = null; } } public void initProgram(FilterContext context, int target) { switch (target) { case FrameFormat.TARGET_GPU: ShaderProgram shaderProgram = new ShaderProgram(context, mDocumentaryShader); shaderProgram.setMaximumTileSize(mTileSize); mProgram = shaderProgram; break; default: throw new RuntimeException("Filter Sharpen does not support frames of " + "target " + target + "!"); } mTarget = target; } @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(); int[] buffer = new int[mWidth * mHeight]; for (int i = 0; i < mWidth * mHeight; ++i) { buffer[i] = mRandom.nextInt(255); } FrameFormat format = ImageFormat.create(mWidth, mHeight, ImageFormat.COLORSPACE_RGBA, FrameFormat.TARGET_GPU); if (mNoiseFrame != null) { mNoiseFrame.release(); } mNoiseFrame = context.getFrameManager().newFrame(format); mNoiseFrame.setInts(buffer); initParameters(); } if (mNoiseFrame != null && (mNoiseFrame.getFormat().getWidth() != mWidth || mNoiseFrame.getFormat().getHeight() != mHeight)) { throw new RuntimeException("Random map and imput image size mismatch!"); } // Create output frame Frame output = context.getFrameManager().newFrame(inputFormat); // Process Frame[] inputs = {input, mNoiseFrame}; mProgram.process(inputs, output); // Push output pushOutput("image", output); // Release pushed frame output.release(); } private void initParameters() { if (mProgram != null) { float centerX = (float) (0.5 * mWidth); float centerY = (float) (0.5 * mHeight); float center[] = {centerX, centerY}; float max_dist = (float) Math.sqrt(centerX * centerX + centerY * centerY); mProgram.setHostValue("center", center); mProgram.setHostValue("inv_max_dist", 1.0f / max_dist); mProgram.setHostValue("stepsize", 1.0f / 255.0f); } } }