/* * Copyright (C) 2010 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. */ #ifndef ANDROID_HWUI_PROGRAM_H #define ANDROID_HWUI_PROGRAM_H #include #include #include #include #include "Matrix.h" #include "Properties.h" namespace android { namespace uirenderer { /////////////////////////////////////////////////////////////////////////////// // Defines /////////////////////////////////////////////////////////////////////////////// // Debug #if DEBUG_PROGRAMS #define PROGRAM_LOGD(...) ALOGD(__VA_ARGS__) #else #define PROGRAM_LOGD(...) #endif #define COLOR_COMPONENT_THRESHOLD (1.0f - (0.5f / PANEL_BIT_DEPTH)) #define COLOR_COMPONENT_INV_THRESHOLD (0.5f / PANEL_BIT_DEPTH) #define PROGRAM_KEY_TEXTURE 0x1 #define PROGRAM_KEY_A8_TEXTURE 0x2 #define PROGRAM_KEY_BITMAP 0x4 #define PROGRAM_KEY_GRADIENT 0x8 #define PROGRAM_KEY_BITMAP_FIRST 0x10 #define PROGRAM_KEY_COLOR_MATRIX 0x20 #define PROGRAM_KEY_COLOR_LIGHTING 0x40 #define PROGRAM_KEY_COLOR_BLEND 0x80 #define PROGRAM_KEY_BITMAP_NPOT 0x100 #define PROGRAM_KEY_SWAP_SRC_DST 0x2000 #define PROGRAM_KEY_BITMAP_WRAPS_MASK 0x600 #define PROGRAM_KEY_BITMAP_WRAPT_MASK 0x1800 // Encode the xfermodes on 6 bits #define PROGRAM_MAX_XFERMODE 0x1f #define PROGRAM_XFERMODE_SHADER_SHIFT 26 #define PROGRAM_XFERMODE_COLOR_OP_SHIFT 20 #define PROGRAM_XFERMODE_FRAMEBUFFER_SHIFT 14 #define PROGRAM_BITMAP_WRAPS_SHIFT 9 #define PROGRAM_BITMAP_WRAPT_SHIFT 11 #define PROGRAM_GRADIENT_TYPE_SHIFT 33 #define PROGRAM_MODULATE_SHIFT 35 #define PROGRAM_IS_POINT_SHIFT 36 #define PROGRAM_HAS_AA_SHIFT 37 #define PROGRAM_HAS_EXTERNAL_TEXTURE_SHIFT 38 #define PROGRAM_HAS_TEXTURE_TRANSFORM_SHIFT 39 /////////////////////////////////////////////////////////////////////////////// // Types /////////////////////////////////////////////////////////////////////////////// typedef uint64_t programid; /////////////////////////////////////////////////////////////////////////////// // Program description /////////////////////////////////////////////////////////////////////////////// /** * Describe the features required for a given program. The features * determine the generation of both the vertex and fragment shaders. * A ProgramDescription must be used in conjunction with a ProgramCache. */ struct ProgramDescription { enum ColorModifier { kColorNone, kColorMatrix, kColorLighting, kColorBlend }; enum Gradient { kGradientLinear, kGradientCircular, kGradientSweep }; ProgramDescription() { reset(); } // Texturing bool hasTexture; bool hasAlpha8Texture; bool hasExternalTexture; bool hasTextureTransform; // Modulate, this should only be set when setColor() return true bool modulate; // Shaders bool hasBitmap; bool isBitmapNpot; bool isAA; bool hasGradient; Gradient gradientType; SkXfermode::Mode shadersMode; bool isBitmapFirst; GLenum bitmapWrapS; GLenum bitmapWrapT; // Color operations ColorModifier colorOp; SkXfermode::Mode colorMode; // Framebuffer blending (requires Extensions.hasFramebufferFetch()) // Ignored for all values < SkXfermode::kPlus_Mode SkXfermode::Mode framebufferMode; bool swapSrcDst; bool isPoint; float pointSize; /** * Resets this description. All fields are reset back to the default * values they hold after building a new instance. */ void reset() { hasTexture = false; hasAlpha8Texture = false; hasExternalTexture = false; hasTextureTransform = false; isAA = false; modulate = false; hasBitmap = false; isBitmapNpot = false; hasGradient = false; gradientType = kGradientLinear; shadersMode = SkXfermode::kClear_Mode; isBitmapFirst = false; bitmapWrapS = GL_CLAMP_TO_EDGE; bitmapWrapT = GL_CLAMP_TO_EDGE; colorOp = kColorNone; colorMode = SkXfermode::kClear_Mode; framebufferMode = SkXfermode::kClear_Mode; swapSrcDst = false; isPoint = false; pointSize = 0.0f; } /** * Indicates, for a given color, whether color modulation is required in * the fragment shader. When this method returns true, the program should * be provided with a modulation color. */ bool setColor(const float r, const float g, const float b, const float a) { modulate = a < COLOR_COMPONENT_THRESHOLD || r < COLOR_COMPONENT_THRESHOLD || g < COLOR_COMPONENT_THRESHOLD || b < COLOR_COMPONENT_THRESHOLD; return modulate; } /** * Indicates, for a given color, whether color modulation is required in * the fragment shader. When this method returns true, the program should * be provided with a modulation color. */ bool setAlpha8Color(const float r, const float g, const float b, const float a) { modulate = a < COLOR_COMPONENT_THRESHOLD || r > COLOR_COMPONENT_INV_THRESHOLD || g > COLOR_COMPONENT_INV_THRESHOLD || b > COLOR_COMPONENT_INV_THRESHOLD; return modulate; } /** * Computes the unique key identifying this program. */ programid key() const { programid key = 0; if (hasTexture) key |= PROGRAM_KEY_TEXTURE; if (hasAlpha8Texture) key |= PROGRAM_KEY_A8_TEXTURE; if (hasBitmap) { key |= PROGRAM_KEY_BITMAP; if (isBitmapNpot) { key |= PROGRAM_KEY_BITMAP_NPOT; key |= getEnumForWrap(bitmapWrapS) << PROGRAM_BITMAP_WRAPS_SHIFT; key |= getEnumForWrap(bitmapWrapT) << PROGRAM_BITMAP_WRAPT_SHIFT; } } if (hasGradient) key |= PROGRAM_KEY_GRADIENT; key |= programid(gradientType) << PROGRAM_GRADIENT_TYPE_SHIFT; if (isBitmapFirst) key |= PROGRAM_KEY_BITMAP_FIRST; if (hasBitmap && hasGradient) { key |= (shadersMode & PROGRAM_MAX_XFERMODE) << PROGRAM_XFERMODE_SHADER_SHIFT; } switch (colorOp) { case kColorMatrix: key |= PROGRAM_KEY_COLOR_MATRIX; break; case kColorLighting: key |= PROGRAM_KEY_COLOR_LIGHTING; break; case kColorBlend: key |= PROGRAM_KEY_COLOR_BLEND; key |= (colorMode & PROGRAM_MAX_XFERMODE) << PROGRAM_XFERMODE_COLOR_OP_SHIFT; break; case kColorNone: break; } key |= (framebufferMode & PROGRAM_MAX_XFERMODE) << PROGRAM_XFERMODE_FRAMEBUFFER_SHIFT; if (swapSrcDst) key |= PROGRAM_KEY_SWAP_SRC_DST; if (modulate) key |= programid(0x1) << PROGRAM_MODULATE_SHIFT; if (isPoint) key |= programid(0x1) << PROGRAM_IS_POINT_SHIFT; if (isAA) key |= programid(0x1) << PROGRAM_HAS_AA_SHIFT; if (hasExternalTexture) key |= programid(0x1) << PROGRAM_HAS_EXTERNAL_TEXTURE_SHIFT; if (hasTextureTransform) key |= programid(0x1) << PROGRAM_HAS_TEXTURE_TRANSFORM_SHIFT; return key; } /** * Logs the specified message followed by the key identifying this program. */ void log(const char* message) const { #if DEBUG_PROGRAMS programid k = key(); PROGRAM_LOGD("%s (key = 0x%.8x%.8x)", message, uint32_t(k >> 32), uint32_t(k & 0xffffffff)); #endif } private: inline uint32_t getEnumForWrap(GLenum wrap) const { switch (wrap) { case GL_CLAMP_TO_EDGE: return 0; case GL_REPEAT: return 1; case GL_MIRRORED_REPEAT: return 2; } return 0; } }; // struct ProgramDescription /** * A program holds a vertex and a fragment shader. It offers several utility * methods to query attributes and uniforms. */ class Program { public: enum ShaderBindings { kBindingPosition, kBindingTexCoords }; /** * Creates a new program with the specified vertex and fragment * shaders sources. */ Program(const ProgramDescription& description, const char* vertex, const char* fragment); virtual ~Program(); /** * Binds this program to the GL context. */ virtual void use(); /** * Marks this program as unused. This will not unbind * the program from the GL context. */ virtual void remove(); /** * Returns the OpenGL name of the specified attribute. */ int getAttrib(const char* name); /** * Returns the OpenGL name of the specified uniform. */ int getUniform(const char* name); /** * Indicates whether this program is currently in use with * the GL context. */ inline bool isInUse() const { return mUse; } /** * Indicates whether this program was correctly compiled and linked. */ inline bool isInitialized() const { return mInitialized; } /** * Binds the program with the specified projection, modelView and * transform matrices. */ void set(const mat4& projectionMatrix, const mat4& modelViewMatrix, const mat4& transformMatrix, bool offset = false); /** * Sets the color associated with this shader. */ void setColor(const float r, const float g, const float b, const float a); /** * Name of the position attribute. */ int position; /** * Name of the texCoords attribute if it exists, -1 otherwise. */ int texCoords; /** * Name of the transform uniform. */ int transform; protected: /** * Adds an attribute with the specified name. * * @return The OpenGL name of the attribute. */ int addAttrib(const char* name); /** * Binds the specified attribute name to the specified slot. */ int bindAttrib(const char* name, ShaderBindings bindingSlot); /** * Adds a uniform with the specified name. * * @return The OpenGL name of the uniform. */ int addUniform(const char* name); private: /** * Compiles the specified shader of the specified type. * * @return The name of the compiled shader. */ GLuint buildShader(const char* source, GLenum type); // Name of the OpenGL program and shaders GLuint mProgramId; GLuint mVertexShader; GLuint mFragmentShader; // Keeps track of attributes and uniforms slots KeyedVector mAttributes; KeyedVector mUniforms; bool mUse; bool mInitialized; bool mHasColorUniform; int mColorUniform; bool mHasSampler; }; // class Program }; // namespace uirenderer }; // namespace android #endif // ANDROID_HWUI_PROGRAM_H