irrlicht/source/Irrlicht/OpenGL/MaterialRenderer.cpp

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// Copyright (C) 2014 Patryk Nadrowski
// This file is part of the "Irrlicht Engine".
// For conditions of distribution and use, see copyright notice in irrlicht.h
#include "MaterialRenderer.h"
#include "EVertexAttributes.h"
#include "IGPUProgrammingServices.h"
#include "IShaderConstantSetCallBack.h"
#include "IVideoDriver.h"
#include "os.h"
#include "Driver.h"
#include "COpenGLCoreTexture.h"
#include "COpenGLCoreCacheHandler.h"
namespace irr
{
namespace video
{
COpenGL3MaterialRenderer::COpenGL3MaterialRenderer(COpenGL3DriverBase* driver,
s32& outMaterialTypeNr,
const c8* vertexShaderProgram,
const c8* pixelShaderProgram,
IShaderConstantSetCallBack* callback,
E_MATERIAL_TYPE baseMaterial,
s32 userData)
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: Driver(driver), CallBack(callback), Alpha(false), Blending(false), Program(0), UserData(userData)
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{
#ifdef _DEBUG
setDebugName("MaterialRenderer");
#endif
switch (baseMaterial)
{
case EMT_TRANSPARENT_VERTEX_ALPHA:
case EMT_TRANSPARENT_ALPHA_CHANNEL:
Alpha = true;
break;
case EMT_ONETEXTURE_BLEND:
Blending = true;
break;
default:
break;
}
if (CallBack)
CallBack->grab();
init(outMaterialTypeNr, vertexShaderProgram, pixelShaderProgram);
}
COpenGL3MaterialRenderer::COpenGL3MaterialRenderer(COpenGL3DriverBase* driver,
IShaderConstantSetCallBack* callback,
E_MATERIAL_TYPE baseMaterial, s32 userData)
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: Driver(driver), CallBack(callback), Alpha(false), Blending(false), Program(0), UserData(userData)
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{
switch (baseMaterial)
{
case EMT_TRANSPARENT_VERTEX_ALPHA:
case EMT_TRANSPARENT_ALPHA_CHANNEL:
Alpha = true;
break;
case EMT_ONETEXTURE_BLEND:
Blending = true;
break;
default:
break;
}
if (CallBack)
CallBack->grab();
}
COpenGL3MaterialRenderer::~COpenGL3MaterialRenderer()
{
if (CallBack)
CallBack->drop();
if (Program)
{
GLuint shaders[8];
GLint count;
GL.GetAttachedShaders(Program, 8, &count, shaders);
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count=core::min_(count,8);
for (GLint i=0; i<count; ++i)
GL.DeleteShader(shaders[i]);
GL.DeleteProgram(Program);
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Program = 0;
}
UniformInfo.clear();
}
GLuint COpenGL3MaterialRenderer::getProgram() const
{
return Program;
}
void COpenGL3MaterialRenderer::init(s32& outMaterialTypeNr,
const c8* vertexShaderProgram,
const c8* pixelShaderProgram,
bool addMaterial)
{
outMaterialTypeNr = -1;
Program = GL.CreateProgram();
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if (!Program)
return;
if (vertexShaderProgram)
if (!createShader(GL_VERTEX_SHADER, vertexShaderProgram))
return;
if (pixelShaderProgram)
if (!createShader(GL_FRAGMENT_SHADER, pixelShaderProgram))
return;
for ( size_t i = 0; i < EVA_COUNT; ++i )
GL.BindAttribLocation( Program, i, sBuiltInVertexAttributeNames[i]);
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if (!linkProgram())
return;
if (addMaterial)
outMaterialTypeNr = Driver->addMaterialRenderer(this);
}
bool COpenGL3MaterialRenderer::OnRender(IMaterialRendererServices* service, E_VERTEX_TYPE vtxtype)
{
if (CallBack && Program)
CallBack->OnSetConstants(this, UserData);
return true;
}
void COpenGL3MaterialRenderer::OnSetMaterial(const video::SMaterial& material,
const video::SMaterial& lastMaterial,
bool resetAllRenderstates,
video::IMaterialRendererServices* services)
{
COpenGL3CacheHandler* cacheHandler = Driver->getCacheHandler();
cacheHandler->setProgram(Program);
Driver->setBasicRenderStates(material, lastMaterial, resetAllRenderstates);
if (Alpha)
{
cacheHandler->setBlend(true);
cacheHandler->setBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
}
else if (Blending)
{
E_BLEND_FACTOR srcRGBFact,dstRGBFact,srcAlphaFact,dstAlphaFact;
E_MODULATE_FUNC modulate;
u32 alphaSource;
unpack_textureBlendFuncSeparate(srcRGBFact, dstRGBFact, srcAlphaFact, dstAlphaFact, modulate, alphaSource, material.MaterialTypeParam);
cacheHandler->setBlendFuncSeparate(Driver->getGLBlend(srcRGBFact), Driver->getGLBlend(dstRGBFact),
Driver->getGLBlend(srcAlphaFact), Driver->getGLBlend(dstAlphaFact));
cacheHandler->setBlend(true);
}
if (CallBack)
CallBack->OnSetMaterial(material);
}
void COpenGL3MaterialRenderer::OnUnsetMaterial()
{
}
bool COpenGL3MaterialRenderer::isTransparent() const
{
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return (Alpha || Blending);
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}
s32 COpenGL3MaterialRenderer::getRenderCapability() const
{
return 0;
}
bool COpenGL3MaterialRenderer::createShader(GLenum shaderType, const char* shader)
{
if (Program)
{
GLuint shaderHandle = GL.CreateShader(shaderType);
GL.ShaderSource(shaderHandle, 1, &shader, NULL);
GL.CompileShader(shaderHandle);
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GLint status = 0;
GL.GetShaderiv(shaderHandle, GL_COMPILE_STATUS, &status);
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if (status != GL_TRUE)
{
os::Printer::log("GLSL shader failed to compile", ELL_ERROR);
GLint maxLength=0;
GLint length;
GL.GetShaderiv(shaderHandle, GL_INFO_LOG_LENGTH,
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&maxLength);
if (maxLength)
{
GLchar *infoLog = new GLchar[maxLength];
GL.GetShaderInfoLog(shaderHandle, maxLength, &length, infoLog);
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os::Printer::log(reinterpret_cast<const c8*>(infoLog), ELL_ERROR);
delete [] infoLog;
}
return false;
}
GL.AttachShader(Program, shaderHandle);
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}
return true;
}
bool COpenGL3MaterialRenderer::linkProgram()
{
if (Program)
{
GL.LinkProgram(Program);
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GLint status = 0;
GL.GetProgramiv(Program, GL_LINK_STATUS, &status);
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if (!status)
{
os::Printer::log("GLSL shader program failed to link", ELL_ERROR);
GLint maxLength=0;
GLsizei length;
GL.GetProgramiv(Program, GL_INFO_LOG_LENGTH, &maxLength);
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if (maxLength)
{
GLchar *infoLog = new GLchar[maxLength];
GL.GetProgramInfoLog(Program, maxLength, &length, infoLog);
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os::Printer::log(reinterpret_cast<const c8*>(infoLog), ELL_ERROR);
delete [] infoLog;
}
return false;
}
GLint num = 0;
GL.GetProgramiv(Program, GL_ACTIVE_UNIFORMS, &num);
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if (num == 0)
return true;
GLint maxlen = 0;
GL.GetProgramiv(Program, GL_ACTIVE_UNIFORM_MAX_LENGTH, &maxlen);
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if (maxlen == 0)
{
os::Printer::log("GLSL: failed to retrieve uniform information", ELL_ERROR);
return false;
}
// seems that some implementations use an extra null terminator.
++maxlen;
c8 *buf = new c8[maxlen];
UniformInfo.clear();
UniformInfo.reallocate(num);
for (GLint i=0; i < num; ++i)
{
SUniformInfo ui;
memset(buf, 0, maxlen);
GLint size;
GL.GetActiveUniform(Program, i, maxlen, 0, &size, &ui.type, reinterpret_cast<GLchar*>(buf));
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core::stringc name = "";
// array support, workaround for some bugged drivers.
for (s32 i = 0; i < maxlen; ++i)
{
if (buf[i] == '[' || buf[i] == '\0')
break;
name += buf[i];
}
ui.name = name;
ui.location = GL.GetUniformLocation(Program, buf);
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UniformInfo.push_back(ui);
}
delete [] buf;
}
return true;
}
void COpenGL3MaterialRenderer::setBasicRenderStates(const SMaterial& material,
const SMaterial& lastMaterial,
bool resetAllRenderstates)
{
Driver->setBasicRenderStates(material, lastMaterial, resetAllRenderstates);
}
s32 COpenGL3MaterialRenderer::getVertexShaderConstantID(const c8* name)
{
return getPixelShaderConstantID(name);
}
s32 COpenGL3MaterialRenderer::getPixelShaderConstantID(const c8* name)
{
for (u32 i = 0; i < UniformInfo.size(); ++i)
{
if (UniformInfo[i].name == name)
return i;
}
return -1;
}
bool COpenGL3MaterialRenderer::setVertexShaderConstant(s32 index, const f32* floats, int count)
{
return setPixelShaderConstant(index, floats, count);
}
bool COpenGL3MaterialRenderer::setVertexShaderConstant(s32 index, const s32* ints, int count)
{
return setPixelShaderConstant(index, ints, count);
}
bool COpenGL3MaterialRenderer::setVertexShaderConstant(s32 index, const u32* ints, int count)
{
return setPixelShaderConstant(index, ints, count);
}
bool COpenGL3MaterialRenderer::setPixelShaderConstant(s32 index, const f32* floats, int count)
{
if(index < 0 || UniformInfo[index].location < 0)
return false;
bool status = true;
switch (UniformInfo[index].type)
{
case GL_FLOAT:
GL.Uniform1fv(UniformInfo[index].location, count, floats);
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break;
case GL_FLOAT_VEC2:
GL.Uniform2fv(UniformInfo[index].location, count/2, floats);
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break;
case GL_FLOAT_VEC3:
GL.Uniform3fv(UniformInfo[index].location, count/3, floats);
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break;
case GL_FLOAT_VEC4:
GL.Uniform4fv(UniformInfo[index].location, count/4, floats);
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break;
case GL_FLOAT_MAT2:
GL.UniformMatrix2fv(UniformInfo[index].location, count/4, false, floats);
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break;
case GL_FLOAT_MAT3:
GL.UniformMatrix3fv(UniformInfo[index].location, count/9, false, floats);
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break;
case GL_FLOAT_MAT4:
GL.UniformMatrix4fv(UniformInfo[index].location, count/16, false, floats);
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break;
case GL_SAMPLER_2D:
case GL_SAMPLER_CUBE:
{
if(floats)
{
const GLint id = (GLint)(*floats);
GL.Uniform1iv(UniformInfo[index].location, 1, &id);
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}
else
status = false;
}
break;
default:
status = false;
break;
}
return status;
}
bool COpenGL3MaterialRenderer::setPixelShaderConstant(s32 index, const s32* ints, int count)
{
if(index < 0 || UniformInfo[index].location < 0)
return false;
bool status = true;
switch (UniformInfo[index].type)
{
case GL_INT:
case GL_BOOL:
GL.Uniform1iv(UniformInfo[index].location, count, ints);
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break;
case GL_INT_VEC2:
case GL_BOOL_VEC2:
GL.Uniform2iv(UniformInfo[index].location, count/2, ints);
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break;
case GL_INT_VEC3:
case GL_BOOL_VEC3:
GL.Uniform3iv(UniformInfo[index].location, count/3, ints);
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break;
case GL_INT_VEC4:
case GL_BOOL_VEC4:
GL.Uniform4iv(UniformInfo[index].location, count/4, ints);
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break;
case GL_SAMPLER_2D:
case GL_SAMPLER_CUBE:
GL.Uniform1iv(UniformInfo[index].location, 1, ints);
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break;
default:
status = false;
break;
}
return status;
}
bool COpenGL3MaterialRenderer::setPixelShaderConstant(s32 index, const u32* ints, int count)
{
os::Printer::log("Unsigned int support needs at least GLES 3.0", ELL_WARNING);
return false;
}
IVideoDriver* COpenGL3MaterialRenderer::getVideoDriver()
{
return Driver;
}
}
}