AndroidOpenGLES如何给相机添加滤镜详解
滤镜介绍
创新互联拥有10余年成都网站建设工作经验,为各大企业提供网站建设、网站设计服务,对于网页设计、PC网站建设(电脑版网站建设)、app软件定制开发、wap网站建设(手机版网站建设)、程序开发、网站优化(SEO优化)、微网站、域名与空间等,凭借多年来在互联网的打拼,我们在互联网网站建设行业积累了很多网站制作、网站设计、网络营销经验,集策划、开发、设计、营销、管理等网站化运作于一体,具备承接各种规模类型的网站建设项目的能力。
目前市面上的滤镜有很多,但整体归类也就几样,都是在fragment shader中进行处理。目前滤镜最常用的就是 lut滤镜以及调整RGB曲线的滤镜了。其他的类型变更大同小异。
动态滤镜的构建
为了实现动态下载的滤镜,我们接下来实现一套滤镜的json参数,主要包括滤镜类型、滤镜名称、vertex shader、fragment shader 文件、统一变量列表、与统一变量绑定的纹理图片、默认滤镜强度、是否带纹理宽高偏移量、音乐路径、音乐是否循环播放等参数。
json 以及各个字段的介绍如下:
{ "filterList": [{ "type": "filter", // 表明滤镜类型,目前filter是只普通滤镜,后续还会加入其它类型的滤镜 "name": "amaro", // 滤镜名称 "vertexShader": "", // vertex shader 文件名 "fragmentShader": "fragment.glsl", // fragment shader 文件名 "uniformList":["blowoutTexture", "overlayTexture", "mapTexture"], // 统一变量 "uniformData": { // 与统一变量绑定的纹理图片 "blowoutTexture": "blowout.png", "overlayTexture": "overlay.png", "mapTexture": "map.png" }, "strength": 1.0, // 默认滤镜强度 0.0 ~ 1.0之间 "texelOffset": 0, // 是否需要支持宽高偏移值,即需要传递 1.0f/width, 1.0f/height到shader中 "audioPath": "", // 音乐路径 "audioLooping": 1 // 是否循环播放音乐 }] }
有了json 之后,我们需要解码得到滤镜参数对象,解码如下:
/** * 解码滤镜数据 * @param folderPath * @return */ public static DynamicColor decodeFilterData(String folderPath) throws IOException, JSONException { File file = new File(folderPath, "json"); String filterJson = FileUtils.convertToString(new FileInputStream(file)); JSONObject jsonObject = new JSONObject(filterJson); DynamicColor dynamicColor = new DynamicColor(); dynamicColor.unzipPath = folderPath; if (dynamicColor.filterList == null) { dynamicColor.filterList = new ArrayList<>(); } JSONArray filterList = jsonObject.getJSONArray("filterList"); for (int filterIndex = 0; filterIndex < filterList.length(); filterIndex++) { DynamicColorData filterData = new DynamicColorData(); JSONObject jsonData = filterList.getJSONObject(filterIndex); String type = jsonData.getString("type"); // TODO 目前滤镜只做普通的filter,其他复杂的滤镜类型后续在做处理 if ("filter".equals(type)) { filterData.name = jsonData.getString("name"); filterData.vertexShader = jsonData.getString("vertexShader"); filterData.fragmentShader = jsonData.getString("fragmentShader"); // 获取统一变量字段 JSONArray uniformList = jsonData.getJSONArray("uniformList"); for (int uniformIndex = 0; uniformIndex < uniformList.length(); uniformIndex++) { String uniform = uniformList.getString(uniformIndex); filterData.uniformList.add(uniform); } // 获取统一变量字段绑定的图片资源 JSONObject uniformData = jsonData.getJSONObject("uniformData"); if (uniformData != null) { IteratordataIterator = uniformData.keys(); while (dataIterator.hasNext()) { String key = dataIterator.next(); String value = uniformData.getString(key); filterData.uniformDataList.add(new DynamicColorData.UniformData(key, value)); } } filterData.strength = (float) jsonData.getDouble("strength"); filterData.texelOffset = (jsonData.getInt("texelOffset") == 1); filterData.audioPath = jsonData.getString("audioPath"); filterData.audioLooping = (jsonData.getInt("audioLooping") == 1); } dynamicColor.filterList.add(filterData); } return dynamicColor; }
滤镜的实现
在解码得到滤镜参数之后,我们接下来实现动态滤镜渲染过程。为了方便构建滤镜,我们创建一个滤镜资源加载器,代码如下:
/** * 滤镜资源加载器 */ public class DynamicColorLoader { private static final String TAG = "DynamicColorLoader"; // 滤镜所在的文件夹 private String mFolderPath; // 动态滤镜数据 private DynamicColorData mColorData; // 资源索引加载器 private ResourceDataCodec mResourceCodec; // 动态滤镜 private final WeakReferencemWeakFilter; // 统一变量列表 private HashMap mUniformHandleList = new HashMap<>(); // 纹理列表 private int[] mTextureList; // 句柄 private int mTexelWidthOffsetHandle = OpenGLUtils.GL_NOT_INIT; private int mTexelHeightOffsetHandle = OpenGLUtils.GL_NOT_INIT; private int mStrengthHandle = OpenGLUtils.GL_NOT_INIT; private float mStrength = 1.0f; private float mTexelWidthOffset = 1.0f; private float mTexelHeightOffset = 1.0f; public DynamicColorLoader(DynamicColorBaseFilter filter, DynamicColorData colorData, String folderPath) { mWeakFilter = new WeakReference<>(filter); mFolderPath = folderPath.startsWith("file://") ? folderPath.substring("file://".length()) : folderPath; mColorData = colorData; mStrength = (colorData == null) ? 1.0f : colorData.strength; Pair pair = ResourceCodec.getResourceFile(mFolderPath); if (pair != null) { mResourceCodec = new ResourceDataCodec(mFolderPath + "/" + (String) pair.first, mFolderPath + "/" + pair.second); } if (mResourceCodec != null) { try { mResourceCodec.init(); } catch (IOException e) { Log.e(TAG, "DynamicColorLoader: ", e); mResourceCodec = null; } } if (!TextUtils.isEmpty(mColorData.audioPath)) { if (mWeakFilter.get() != null) { mWeakFilter.get().setAudioPath(Uri.parse(mFolderPath + "/" + mColorData.audioPath)); mWeakFilter.get().setLooping(mColorData.audioLooping); } } loadColorTexture(); } /** * 加载纹理 */ private void loadColorTexture() { if (mColorData.uniformDataList == null || mColorData.uniformDataList.size() <= 0) { return; } mTextureList = new int[mColorData.uniformDataList.size()]; for (int dataIndex = 0; dataIndex < mColorData.uniformDataList.size(); dataIndex++) { Bitmap bitmap = null; if (mResourceCodec != null) { bitmap = mResourceCodec.loadBitmap(mColorData.uniformDataList.get(dataIndex).value); } if (bitmap == null) { bitmap = BitmapUtils.getBitmapFromFile(mFolderPath + "/" + String.format(mColorData.uniformDataList.get(dataIndex).value)); } if (bitmap != null) { mTextureList[dataIndex] = OpenGLUtils.createTexture(bitmap); bitmap.recycle(); } else { mTextureList[dataIndex] = OpenGLUtils.GL_NOT_TEXTURE; } } } /** * 绑定统一变量句柄 * @param programHandle */ public void onBindUniformHandle(int programHandle) { if (programHandle == OpenGLUtils.GL_NOT_INIT || mColorData == null) { return; } mStrengthHandle = GLES30.glGetUniformLocation(programHandle, "strength"); if (mColorData.texelOffset) { mTexelWidthOffsetHandle = GLES30.glGetUniformLocation(programHandle, "texelWidthOffset"); mTexelHeightOffsetHandle = GLES30.glGetUniformLocation(programHandle, "texelHeightOffset"); } else { mTexelWidthOffsetHandle = OpenGLUtils.GL_NOT_INIT; mTexelHeightOffsetHandle = OpenGLUtils.GL_NOT_INIT; } for (int uniformIndex = 0; uniformIndex < mColorData.uniformList.size(); uniformIndex++) { String uniformString = mColorData.uniformList.get(uniformIndex); int handle = GLES30.glGetUniformLocation(programHandle, uniformString); mUniformHandleList.put(uniformString, handle); } } /** * 输入纹理大小 * @param width * @param height */ public void onInputSizeChange(int width, int height) { mTexelWidthOffset = 1.0f / width; mTexelHeightOffset = 1.0f / height; } /** * 绑定滤镜纹理,只需要绑定一次就行,不用重复绑定,减少开销 */ public void onDrawFrameBegin() { if (mStrengthHandle != OpenGLUtils.GL_NOT_INIT) { GLES30.glUniform1f(mStrengthHandle, mStrength); } if (mTexelWidthOffsetHandle != OpenGLUtils.GL_NOT_INIT) { GLES30.glUniform1f(mTexelWidthOffsetHandle, mTexelWidthOffset); } if (mTexelHeightOffsetHandle != OpenGLUtils.GL_NOT_INIT) { GLES30.glUniform1f(mTexelHeightOffsetHandle, mTexelHeightOffset); } if (mTextureList == null || mColorData == null) { return; } // 逐个绑定纹理 for (int dataIndex = 0; dataIndex < mColorData.uniformDataList.size(); dataIndex++) { for (int uniformIndex = 0; uniformIndex < mUniformHandleList.size(); uniformIndex++) { // 如果统一变量存在,则直接绑定纹理 Integer handle = mUniformHandleList.get(mColorData.uniformDataList.get(dataIndex).uniform); if (handle != null && mTextureList[dataIndex] != OpenGLUtils.GL_NOT_TEXTURE) { OpenGLUtils.bindTexture(handle, mTextureList[dataIndex], dataIndex + 1); } } } } /** * 释放资源 */ public void release() { if (mTextureList != null && mTextureList.length > 0) { GLES30.glDeleteTextures(mTextureList.length, mTextureList, 0); mTextureList = null; } if (mWeakFilter.get() != null) { mWeakFilter.clear(); } } /** * 设置强度 * @param strength */ public void setStrength(float strength) { mStrength = strength; } }
然后我们构建一个DynamicColorFilter的基类,方便后续添加其他类型的滤镜,代码如下:
public class DynamicColorBaseFilter extends GLImageAudioFilter { // 颜色滤镜参数 protected DynamicColorData mDynamicColorData; protected DynamicColorLoader mDynamicColorLoader; public DynamicColorBaseFilter(Context context, DynamicColorData dynamicColorData, String unzipPath) { super(context, (dynamicColorData == null || TextUtils.isEmpty(dynamicColorData.vertexShader)) ? VERTEX_SHADER : getShaderString(context, unzipPath, dynamicColorData.vertexShader), (dynamicColorData == null || TextUtils.isEmpty(dynamicColorData.fragmentShader)) ? FRAGMENT_SHADER_2D : getShaderString(context, unzipPath, dynamicColorData.fragmentShader)); mDynamicColorData = dynamicColorData; mDynamicColorLoader = new DynamicColorLoader(this, mDynamicColorData, unzipPath); mDynamicColorLoader.onBindUniformHandle(mProgramHandle); } @Override public void onInputSizeChanged(int width, int height) { super.onInputSizeChanged(width, height); if (mDynamicColorLoader != null) { mDynamicColorLoader.onInputSizeChange(width, height); } } @Override public void onDrawFrameBegin() { super.onDrawFrameBegin(); if (mDynamicColorLoader != null) { mDynamicColorLoader.onDrawFrameBegin(); } } @Override public void release() { super.release(); if (mDynamicColorLoader != null) { mDynamicColorLoader.release(); } } /** * 设置强度,调节滤镜的轻重程度 * @param strength */ public void setStrength(float strength) { if (mDynamicColorLoader != null) { mDynamicColorLoader.setStrength(strength); } } /** * 根据解压路径和shader名称读取shader的字符串内容 * @param unzipPath * @param shaderName * @return */ protected static String getShaderString(Context context, String unzipPath, String shaderName) { if (TextUtils.isEmpty(unzipPath) || TextUtils.isEmpty(shaderName)) { throw new IllegalArgumentException("shader is empty!"); } String path = unzipPath + "/" + shaderName; if (path.startsWith("assets://")) { return OpenGLUtils.getShaderFromAssets(context, path.substring("assets://".length())); } else if (path.startsWith("file://")) { return OpenGLUtils.getShaderFromFile(path.substring("file://".length())); } return OpenGLUtils.getShaderFromFile(path); } }
接下来我们构建动态滤镜组,因为动态滤镜有可能有多个滤镜组合而成。代码如下:
public class GLImageDynamicColorFilter extends GLImageGroupFilter { public GLImageDynamicColorFilter(Context context, DynamicColor dynamicColor) { super(context); // 判断数据是否存在 if (dynamicColor == null || dynamicColor.filterList == null || TextUtils.isEmpty(dynamicColor.unzipPath)) { return; } // 添加滤镜 for (int i = 0; i < dynamicColor.filterList.size(); i++) { mFilters.add(new DynamicColorFilter(context, dynamicColor.filterList.get(i), dynamicColor.unzipPath)); } } /** * 设置滤镜强度 * @param strength */ public void setStrength(float strength) { for (int i = 0; i < mFilters.size(); i++) { if (mFilters.get(i) != null && mFilters.get(i) instanceof DynamicColorBaseFilter) { ((DynamicColorBaseFilter) mFilters.get(i)).setStrength(strength); } } } }
总结
基本的动态滤镜实现起来比较简单,总的来说就是简单的json参数、shader、统一变量和纹理绑定需要做成动态构建的过程而已。
效果如下:
动态滤镜效果
该效果是通过解压asset目录下的压缩包资源来实现的。你只需要提供包含shader 、纹理资源、以及json的压缩包即可更改滤镜。
详细实现过程,可参考本人的开源项目:
CainCamera
好了,以上就是这篇文章的全部内容了,希望本文的内容对大家的学习或者工作具有一定的参考学习价值,谢谢大家对创新互联的支持。
新闻标题:AndroidOpenGLES如何给相机添加滤镜详解
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