// Copyright 2016 The SwiftShader Authors. All Rights Reserved.
//
// 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 sw_Context_hpp
#define sw_Context_hpp
#include "Sampler.hpp"
#include "TextureStage.hpp"
#include "Stream.hpp"
#include "Point.hpp"
#include "Vertex.hpp"
#include "Common/Types.hpp"
namespace sw
{
class Sampler;
class Surface;
class PixelShader;
class VertexShader;
struct Triangle;
struct Primitive;
struct Vertex;
class Resource;
enum In // Default input stream semantic
{
Position = 0,
BlendWeight = 1,
BlendIndices = 2,
Normal = 3,
PointSize = 4,
Color0 = 5,
Color1 = 6,
TexCoord0 = 7,
TexCoord1 = 8,
TexCoord2 = 9,
TexCoord3 = 10,
TexCoord4 = 11,
TexCoord5 = 12,
TexCoord6 = 13,
TexCoord7 = 14,
PositionT = 15
};
enum DrawType ENUM_UNDERLYING_TYPE_UNSIGNED_INT
{
// These types must stay ordered by vertices per primitive. Also, if these basic types
// are modified, verify the value assigned to task->verticesPerPrimitive in Renderer.cpp
DRAW_POINTLIST = 0x00,
DRAW_LINELIST = 0x01,
DRAW_LINESTRIP = 0x02,
DRAW_LINELOOP = 0x03,
DRAW_TRIANGLELIST = 0x04,
DRAW_TRIANGLESTRIP = 0x05,
DRAW_TRIANGLEFAN = 0x06,
DRAW_QUADLIST = 0x07,
DRAW_NONINDEXED = 0x00,
DRAW_INDEXED8 = 0x10,
DRAW_INDEXED16 = 0x20,
DRAW_INDEXED32 = 0x30,
DRAW_INDEXEDPOINTLIST8 = DRAW_POINTLIST | DRAW_INDEXED8,
DRAW_INDEXEDLINELIST8 = DRAW_LINELIST | DRAW_INDEXED8,
DRAW_INDEXEDLINESTRIP8 = DRAW_LINESTRIP | DRAW_INDEXED8,
DRAW_INDEXEDLINELOOP8 = DRAW_LINELOOP | DRAW_INDEXED8,
DRAW_INDEXEDTRIANGLELIST8 = DRAW_TRIANGLELIST | DRAW_INDEXED8,
DRAW_INDEXEDTRIANGLESTRIP8 = DRAW_TRIANGLESTRIP | DRAW_INDEXED8,
DRAW_INDEXEDTRIANGLEFAN8 = DRAW_TRIANGLEFAN | DRAW_INDEXED8,
DRAW_INDEXEDPOINTLIST16 = DRAW_POINTLIST | DRAW_INDEXED16,
DRAW_INDEXEDLINELIST16 = DRAW_LINELIST | DRAW_INDEXED16,
DRAW_INDEXEDLINESTRIP16 = DRAW_LINESTRIP | DRAW_INDEXED16,
DRAW_INDEXEDLINELOOP16 = DRAW_LINELOOP | DRAW_INDEXED16,
DRAW_INDEXEDTRIANGLELIST16 = DRAW_TRIANGLELIST | DRAW_INDEXED16,
DRAW_INDEXEDTRIANGLESTRIP16 = DRAW_TRIANGLESTRIP | DRAW_INDEXED16,
DRAW_INDEXEDTRIANGLEFAN16 = DRAW_TRIANGLEFAN | DRAW_INDEXED16,
DRAW_INDEXEDPOINTLIST32 = DRAW_POINTLIST | DRAW_INDEXED32,
DRAW_INDEXEDLINELIST32 = DRAW_LINELIST | DRAW_INDEXED32,
DRAW_INDEXEDLINESTRIP32 = DRAW_LINESTRIP | DRAW_INDEXED32,
DRAW_INDEXEDLINELOOP32 = DRAW_LINELOOP | DRAW_INDEXED32,
DRAW_INDEXEDTRIANGLELIST32 = DRAW_TRIANGLELIST | DRAW_INDEXED32,
DRAW_INDEXEDTRIANGLESTRIP32 = DRAW_TRIANGLESTRIP | DRAW_INDEXED32,
DRAW_INDEXEDTRIANGLEFAN32 = DRAW_TRIANGLEFAN | DRAW_INDEXED32,
DRAW_LAST = DRAW_INDEXEDTRIANGLEFAN32
};
enum FillMode ENUM_UNDERLYING_TYPE_UNSIGNED_INT
{
FILL_SOLID,
FILL_WIREFRAME,
FILL_VERTEX,
FILL_LAST = FILL_VERTEX
};
enum ShadingMode ENUM_UNDERLYING_TYPE_UNSIGNED_INT
{
SHADING_FLAT,
SHADING_GOURAUD,
SHADING_LAST = SHADING_GOURAUD
};
enum DepthCompareMode ENUM_UNDERLYING_TYPE_UNSIGNED_INT
{
DEPTH_ALWAYS,
DEPTH_NEVER,
DEPTH_EQUAL,
DEPTH_NOTEQUAL,
DEPTH_LESS,
DEPTH_LESSEQUAL,
DEPTH_GREATER,
DEPTH_GREATEREQUAL,
DEPTH_LAST = DEPTH_GREATEREQUAL
};
enum StencilCompareMode ENUM_UNDERLYING_TYPE_UNSIGNED_INT
{
STENCIL_ALWAYS,
STENCIL_NEVER,
STENCIL_EQUAL,
STENCIL_NOTEQUAL,
STENCIL_LESS,
STENCIL_LESSEQUAL,
STENCIL_GREATER,
STENCIL_GREATEREQUAL,
STENCIL_LAST = STENCIL_GREATEREQUAL
};
enum StencilOperation ENUM_UNDERLYING_TYPE_UNSIGNED_INT
{
OPERATION_KEEP,
OPERATION_ZERO,
OPERATION_REPLACE,
OPERATION_INCRSAT,
OPERATION_DECRSAT,
OPERATION_INVERT,
OPERATION_INCR,
OPERATION_DECR,
OPERATION_LAST = OPERATION_DECR
};
enum AlphaCompareMode ENUM_UNDERLYING_TYPE_UNSIGNED_INT
{
ALPHA_ALWAYS,
ALPHA_NEVER,
ALPHA_EQUAL,
ALPHA_NOTEQUAL,
ALPHA_LESS,
ALPHA_LESSEQUAL,
ALPHA_GREATER,
ALPHA_GREATEREQUAL,
ALPHA_LAST = ALPHA_GREATEREQUAL
};
enum CullMode ENUM_UNDERLYING_TYPE_UNSIGNED_INT
{
CULL_NONE,
CULL_CLOCKWISE,
CULL_COUNTERCLOCKWISE,
CULL_LAST = CULL_COUNTERCLOCKWISE
};
enum BlendFactor ENUM_UNDERLYING_TYPE_UNSIGNED_INT
{
BLEND_ZERO,
BLEND_ONE,
BLEND_SOURCE,
BLEND_INVSOURCE,
BLEND_DEST,
BLEND_INVDEST,
BLEND_SOURCEALPHA,
BLEND_INVSOURCEALPHA,
BLEND_DESTALPHA,
BLEND_INVDESTALPHA,
BLEND_SRCALPHASAT,
BLEND_CONSTANT,
BLEND_INVCONSTANT,
BLEND_CONSTANTALPHA,
BLEND_INVCONSTANTALPHA,
BLEND_LAST = BLEND_INVCONSTANTALPHA
};
enum BlendOperation ENUM_UNDERLYING_TYPE_UNSIGNED_INT
{
BLENDOP_ADD,
BLENDOP_SUB,
BLENDOP_INVSUB,
BLENDOP_MIN,
BLENDOP_MAX,
BLENDOP_SOURCE, // Copy source
BLENDOP_DEST, // Copy dest
BLENDOP_NULL, // Nullify result
BLENDOP_LAST = BLENDOP_NULL
};
enum LogicalOperation ENUM_UNDERLYING_TYPE_UNSIGNED_INT
{
LOGICALOP_CLEAR,
LOGICALOP_SET,
LOGICALOP_COPY,
LOGICALOP_COPY_INVERTED,
LOGICALOP_NOOP,
LOGICALOP_INVERT,
LOGICALOP_AND,
LOGICALOP_NAND,
LOGICALOP_OR,
LOGICALOP_NOR,
LOGICALOP_XOR,
LOGICALOP_EQUIV,
LOGICALOP_AND_REVERSE,
LOGICALOP_AND_INVERTED,
LOGICALOP_OR_REVERSE,
LOGICALOP_OR_INVERTED,
LOGICALOP_LAST = LOGICALOP_OR_INVERTED
};
enum MaterialSource ENUM_UNDERLYING_TYPE_UNSIGNED_INT
{
MATERIAL_MATERIAL,
MATERIAL_COLOR1,
MATERIAL_COLOR2,
MATERIAL_LAST = MATERIAL_COLOR2
};
enum FogMode ENUM_UNDERLYING_TYPE_UNSIGNED_INT
{
FOG_NONE,
FOG_LINEAR,
FOG_EXP,
FOG_EXP2,
FOG_LAST = FOG_EXP2
};
enum TexGen ENUM_UNDERLYING_TYPE_UNSIGNED_INT
{
TEXGEN_PASSTHRU,
TEXGEN_NORMAL,
TEXGEN_POSITION,
TEXGEN_REFLECTION,
TEXGEN_SPHEREMAP,
TEXGEN_NONE,
TEXGEN_LAST = TEXGEN_NONE
};
enum TransparencyAntialiasing ENUM_UNDERLYING_TYPE_UNSIGNED_INT
{
TRANSPARENCY_NONE,
TRANSPARENCY_ALPHA_TO_COVERAGE,
TRANSPARENCY_LAST = TRANSPARENCY_ALPHA_TO_COVERAGE
};
class Context
{
public:
Context();
~Context();
void *operator new(size_t bytes);
void operator delete(void *pointer, size_t bytes);
bool isDrawPoint(bool fillModeAware = false) const;
bool isDrawLine(bool fillModeAware = false) const;
bool isDrawTriangle(bool fillModeAware = false) const;
void init();
const float &exp2Bias(); // NOTE: Needs address for JIT
const Point &getLightPosition(int light);
void setGlobalMipmapBias(float bias);
// Set fixed-function vertex pipeline states
void setLightingEnable(bool lightingEnable);
void setSpecularEnable(bool specularEnable);
void setLightEnable(int light, bool lightEnable);
void setLightPosition(int light, Point worldLightPosition);
void setColorVertexEnable(bool colorVertexEnable);
void setAmbientMaterialSource(MaterialSource ambientMaterialSource);
void setDiffuseMaterialSource(MaterialSource diffuseMaterialSource);
void setSpecularMaterialSource(MaterialSource specularMaterialSource);
void setEmissiveMaterialSource(MaterialSource emissiveMaterialSource);
void setPointSpriteEnable(bool pointSpriteEnable);
void setPointScaleEnable(bool pointScaleEnable);
// Set fixed-function pixel pipeline states, return true when modified
bool setDepthBufferEnable(bool depthBufferEnable);
bool setAlphaBlendEnable(bool alphaBlendEnable);
bool setSourceBlendFactor(BlendFactor sourceBlendFactor);
bool setDestBlendFactor(BlendFactor destBlendFactor);
bool setBlendOperation(BlendOperation blendOperation);
bool setSeparateAlphaBlendEnable(bool separateAlphaBlendEnable);
bool setSourceBlendFactorAlpha(BlendFactor sourceBlendFactorAlpha);
bool setDestBlendFactorAlpha(BlendFactor destBlendFactorAlpha);
bool setBlendOperationAlpha(BlendOperation blendOperationAlpha);
bool setColorWriteMask(int index, int colorWriteMask);
bool setWriteSRGB(bool sRGB);
bool setColorLogicOpEnabled(bool colorLogicOpEnabled);
bool setLogicalOperation(LogicalOperation logicalOperation);
// Active fixed-function pixel pipeline states
bool fogActive();
bool pointSizeActive();
FogMode pixelFogActive();
bool depthWriteActive();
bool alphaTestActive();
bool depthBufferActive();
bool stencilActive();
bool perspectiveActive();
// Active fixed-function vertex pipeline states
bool vertexLightingActive();
bool texCoordActive(int coordinate, int component);
bool texCoordActive(int coordinate);
bool isProjectionComponent(unsigned int coordinate, int component);
bool vertexSpecularInputActive();
bool vertexSpecularActive();
bool vertexNormalActive();
bool vertexLightActive();
bool vertexLightActive(int i);
MaterialSource vertexDiffuseMaterialSourceActive();
MaterialSource vertexSpecularMaterialSourceActive();
MaterialSource vertexAmbientMaterialSourceActive();
MaterialSource vertexEmissiveMaterialSourceActive();
bool pointSpriteActive();
bool pointScaleActive();
bool alphaBlendActive();
BlendFactor sourceBlendFactor();
BlendFactor destBlendFactor();
BlendOperation blendOperation();
BlendFactor sourceBlendFactorAlpha();
BlendFactor destBlendFactorAlpha();
BlendOperation blendOperationAlpha();
LogicalOperation colorLogicOp();
LogicalOperation indexLogicOp();
bool indexedVertexBlendActive();
int vertexBlendMatrixCountActive();
bool localViewerActive();
bool normalizeNormalsActive();
FogMode vertexFogModeActive();
bool rangeFogActive();
TexGen texGenActive(int stage);
int textureTransformCountActive(int stage);
int texCoordIndexActive(int stage);
// Active context states
bool diffuseUsed(); // Used by pixel processor but not provided by vertex processor
bool diffuseUsed(int component); // Used by pixel processor but not provided by vertex processor
bool diffuseActive();
bool diffuseActive(int component);
bool specularUsed();
bool specularUsed(int component);
bool specularActive();
bool specularActive(int component);
bool colorActive(int color, int component);
bool textureActive();
bool textureActive(int coordinate);
bool textureActive(int coordinate, int component);
unsigned short pixelShaderModel() const;
unsigned short vertexShaderModel() const;
int getMultiSampleCount() const;
int getSuperSampleCount() const;
DrawType drawType;
bool stencilEnable;
StencilCompareMode stencilCompareMode;
int stencilReference;
int stencilMask;
StencilOperation stencilFailOperation;
StencilOperation stencilPassOperation;
StencilOperation stencilZFailOperation;
int stencilWriteMask;
bool twoSidedStencil;
StencilCompareMode stencilCompareModeCCW;
int stencilReferenceCCW;
int stencilMaskCCW;
StencilOperation stencilFailOperationCCW;
StencilOperation stencilPassOperationCCW;
StencilOperation stencilZFailOperationCCW;
int stencilWriteMaskCCW;
// Pixel processor states
AlphaCompareMode alphaCompareMode;
bool alphaTestEnable;
FillMode fillMode;
ShadingMode shadingMode;
CullMode cullMode;
bool frontFacingCCW;
float alphaReference;
float depthBias;
float slopeDepthBias;
TextureStage textureStage[8];
Sampler sampler[TOTAL_IMAGE_UNITS];
Format renderTargetInternalFormat(int index);
int colorWriteActive();
int colorWriteActive(int index);
bool colorUsed();
Resource *texture[TOTAL_IMAGE_UNITS];
Stream input[MAX_VERTEX_INPUTS];
Resource *indexBuffer;
bool preTransformed; // FIXME: Private
float fogStart;
float fogEnd;
bool textureWrapActive;
unsigned char textureWrap[TEXTURE_IMAGE_UNITS];
TexGen texGen[8];
bool localViewer;
bool normalizeNormals;
int textureTransformCount[8];
bool textureTransformProject[8];
Surface *renderTarget[RENDERTARGETS];
unsigned int renderTargetLayer[RENDERTARGETS];
Surface *depthBuffer;
unsigned int depthBufferLayer;
Surface *stencilBuffer;
unsigned int stencilBufferLayer;
// Fog
bool fogEnable;
FogMode pixelFogMode;
FogMode vertexFogMode;
bool wBasedFog;
bool rangeFogEnable;
// Vertex blending
bool indexedVertexBlendEnable;
int vertexBlendMatrixCount;
// Shaders
const PixelShader *pixelShader;
const VertexShader *vertexShader;
// Global mipmap bias
float bias;
// Instancing
int instanceID;
// Fixed-function vertex pipeline state
bool lightingEnable;
bool specularEnable;
bool lightEnable[8];
Point worldLightPosition[8];
MaterialSource ambientMaterialSource;
MaterialSource diffuseMaterialSource;
MaterialSource specularMaterialSource;
MaterialSource emissiveMaterialSource;
bool colorVertexEnable;
bool occlusionEnabled;
bool transformFeedbackQueryEnabled;
uint64_t transformFeedbackEnabled;
// Pixel processor states
bool rasterizerDiscard;
bool depthBufferEnable;
DepthCompareMode depthCompareMode;
bool depthWriteEnable;
bool alphaBlendEnable;
BlendFactor sourceBlendFactorState;
BlendFactor destBlendFactorState;
BlendOperation blendOperationState;
bool separateAlphaBlendEnable;
BlendFactor sourceBlendFactorStateAlpha;
BlendFactor destBlendFactorStateAlpha;
BlendOperation blendOperationStateAlpha;
bool pointSpriteEnable;
bool pointScaleEnable;
float lineWidth;
int colorWriteMask[RENDERTARGETS]; // RGBA
bool writeSRGB;
unsigned int sampleMask;
unsigned int multiSampleMask;
bool colorLogicOpEnabled;
LogicalOperation logicalOperation;
};
}
#endif // sw_Context_hpp