//----------------------------------------------------------------------------
MaterialInstance::MaterialInstance (const Material* material,
int techniqueIndex)
:
mMaterial((Material*)material), // conceptual constness
mIsShareMtl(false),
mTechniqueIndex(techniqueIndex),
mNumPasses(0),
mVertexParameters(0),
mPixelParameters(0),
mIsNeedUpdate(false)
{
assertion(material != 0, "Material must be specified.\n");
assertion(
0 <= techniqueIndex && techniqueIndex < material->GetNumTechniques(),
"Invalid technique index.\n");
MaterialTechnique* technique = mMaterial->GetTechnique(mTechniqueIndex);
mNumPasses = technique->GetNumPasses();
mVertexParameters = new1<ShaderParametersPtr>(mNumPasses);
mPixelParameters = new1<ShaderParametersPtr>(mNumPasses);
int p;
for (p = 0; p < mNumPasses; ++p)
{
MaterialPass* pass = technique->GetPass(p);
mVertexParameters[p] =
new0 ShaderParameters(pass->GetVertexShader());
mVertexParameters[p]->SetName("VParams_" + StringHelp::IntToString(p));
mPixelParameters[p] =
new0 ShaderParameters(pass->GetPixelShader());
mPixelParameters[p]->SetName("PParams_" + StringHelp::IntToString(p));
}
}
//----------------------------------------------------------------------------
MaterialTechnique *MaterialInstance::_RefreshMaterial(
const std::string &mtlFilename,
const std::string &intanceTechName, ShaderParametersPtr* &vp,
ShaderParametersPtr* &pp, bool shareMtl, MaterialPtr &outMtl,
int &outTechIndex)
{
// we reload the mtl
outMtl = PX2_MATERIALMAN.GetMaterial(mtlFilename.c_str(),
intanceTechName.c_str(), shareMtl);
assertion(outMtl != 0, "Material must be specified.\n");
MaterialTechnique* technique = outMtl->GetTechnique(intanceTechName,
outTechIndex);
int newNumPass = technique->GetNumPasses();
if (0 == vp)
vp = new1<ShaderParametersPtr>(newNumPass);
if (0 == pp)
pp = new1<ShaderParametersPtr>(newNumPass);
for (int p = 0; p < newNumPass; ++p)
{
MaterialPass* pass = technique->GetPass(p);
VertexShader *vs = pass->GetVertexShader();
PixelShader *ps = pass->GetPixelShader();
_CreateConstants(vp[p], vs);
_CreateConstants(pp[p], ps);
}
return technique;
}
void MaterialTechnique<RS>::addPass(const MaterialPassDescription& desc)
{
MaterialPass<RS> mp;
mp.setVertexShader(desc.vertexFilename, desc.vertexFunction, desc.vertexDef);
mp.setFragmentShader(desc.fragmentFilename, desc.fragmentFunction);
for(auto i = desc.samplers.begin(), end = desc.samplers.end(); i<end; i++)
{
auto op = desc.samplerOptions[i - desc.samplers.begin()];
if(op == MPDO_VERTEX || op == MPDO_BOTH)
mp.addSamplerReferenceForVertex(SamplerManager<RS>::getPtr()->getResource(*i));
if(op == MPDO_FRAGMENT || op == MPDO_BOTH)
mp.addSamplerReferenceForFragment(SamplerManager<RS>::getPtr()->getResource(*i));
}
for(auto i = desc.textures.begin(), end = desc.textures.end(); i<end; i++)
{
auto op = desc.textureOptions[i - desc.textures.begin()];
if(op == MPDO_VERTEX || op == MPDO_BOTH)
mp.addTextureReferenceForVertex(TextureManager<RS>::getPtr()->getResource(*i));
if(op == MPDO_FRAGMENT || op == MPDO_BOTH)
mp.addTextureReferenceForFragment(TextureManager<RS>::getPtr()->getResource(*i));
}
mp.setBlendState(desc.blendState);
mp.finalize();
passes.push_back(Pair<MaterialPass<RS>,MaterialPassDescription>(mp,desc));
}
//----------------------------------------------------------------------------
JunglerMaterial::JunglerMaterial ()
{
VertexShader* vshader = new0 VertexShader("PX2.JunglerMaterial",
3, 3, 8, 0, false);
vshader->SetInput(0, "modelPosition", Shader::VT_FLOAT3,
Shader::VS_POSITION);
vshader->SetInput(1, "modelNormal", Shader::VT_FLOAT3,
Shader::VS_NORMAL);
vshader->SetInput(2, "modelTCoord0", Shader::VT_FLOAT2,
Shader::VS_TEXCOORD0);
vshader->SetOutput(0, "clipPosition", Shader::VT_FLOAT4,
Shader::VS_POSITION);
vshader->SetOutput(1, "vertexTCoord0", Shader::VT_FLOAT2,
Shader::VS_TEXCOORD0);
vshader->SetOutput(2, "vertexTCoord1", Shader::VT_FLOAT4,
Shader::VS_TEXCOORD1);
vshader->SetConstant(0, "gPVWMatrix", 4);
vshader->SetConstant(1, "gShineEmissive", 1);
vshader->SetConstant(2, "gShineAmbient", 1);
vshader->SetConstant(3, "gShineDiffuse", 1);
vshader->SetConstant(4, "gLightColour", 1);
vshader->SetConstant(5, "gLightAttenuation", 1);
vshader->SetConstant(6, "gLightModelDirection", 1);
vshader->SetConstant(7, "gUser", 1);
vshader->SetBaseRegisters(msVRegisters);
vshader->SetPrograms(msVPrograms);
PixelShader* pshader = new0 PixelShader("PX2.JunglerMaterial",
2, 1, 0, 1, false);
pshader->SetInput(0, "vertexTCoord0", Shader::VT_FLOAT2,
Shader::VS_TEXCOORD0);
pshader->SetInput(1, "vertexTCoord1", Shader::VT_FLOAT4,
Shader::VS_TEXCOORD1);
pshader->SetOutput(0, "pixelColor", Shader::VT_FLOAT4,
Shader::VS_COLOR0);
pshader->SetSampler(0, "gDiffuseSampler", Shader::ST_2D);
pshader->SetFilter(0, Shader::SF_LINEAR);
pshader->SetCoordinate(0, 0, Shader::SC_REPEAT);
pshader->SetCoordinate(0, 1, Shader::SC_REPEAT);
pshader->SetTextureUnits(msPTextureUnits);
pshader->SetPrograms(msPPrograms);
MaterialPass* pass = new0 MaterialPass();
pass->SetVertexShader(vshader);
pass->SetPixelShader(pshader);
pass->SetAlphaProperty(new0 AlphaProperty());
pass->SetCullProperty(new0 CullProperty());
pass->SetDepthProperty(new0 DepthProperty());
pass->SetOffsetProperty(new0 OffsetProperty());
pass->SetStencilProperty(new0 StencilProperty());
pass->SetWireProperty(new0 WireProperty());
MaterialTechnique* technique = new0 MaterialTechnique();
technique->InsertPass(pass);
InsertTechnique(technique);
}
//----------------------------------------------------------------------------
void JunglerMaterial::PostLink ()
{
Material::PostLink();
MaterialPass* pass = mTechniques[0]->GetPass(0);
VertexShader* vshader = pass->GetVertexShader();
PixelShader* pshader = pass->GetPixelShader();
vshader->SetBaseRegisters(msVRegisters);
vshader->SetPrograms(msVPrograms);
pshader->SetTextureUnits(msPTextureUnits);
pshader->SetPrograms(msPPrograms);
}
//----------------------------------------------------------------------------
UIMaterial::UIMaterial ()
{
VertexShader* vshader = new0 VertexShader("PX2.UI",
3, 3, 1, 0, false);
vshader->SetInput(0, "modelPosition", Shader::VT_FLOAT3,
Shader::VS_POSITION);
vshader->SetInput(1, "modelColor0", Shader::VT_FLOAT4,
Shader::VS_COLOR0);
vshader->SetInput(2, "modelTCoord0", Shader::VT_FLOAT2,
Shader::VS_TEXCOORD0);
vshader->SetOutput(0, "clipPosition", Shader::VT_FLOAT4,
Shader::VS_POSITION);
vshader->SetOutput(1, "vertexColor0", Shader::VT_FLOAT4,
Shader::VS_COLOR0);
vshader->SetOutput(2, "vertexTCoord0", Shader::VT_FLOAT2,
Shader::VS_TEXCOORD0);
vshader->SetConstant(0, "gPVWMatrix", 4);
vshader->SetBaseRegisters(msVRegisters);
vshader->SetPrograms(msVPrograms);
PixelShader* pshader = new0 PixelShader("PX2.UI",
2, 1, 0, 1, false);
pshader->SetInput(0, "vertexColor0", Shader::VT_FLOAT4,
Shader::VS_COLOR0);
pshader->SetInput(1, "vertexTCoord0", Shader::VT_FLOAT2,
Shader::VS_TEXCOORD0);
pshader->SetOutput(0, "pixelColor", Shader::VT_FLOAT4,
Shader::VS_COLOR0);
pshader->SetSampler(0, "gDiffuseSampler", Shader::ST_2D);
pshader->SetFilter(0, Shader::SF_NEAREST);
pshader->SetCoordinate(0, 0, Shader::SC_CLAMP_EDGE);
pshader->SetCoordinate(0, 1, Shader::SC_CLAMP_EDGE);
pshader->SetTextureUnits(msPTextureUnits);
pshader->SetPrograms(msPPrograms);
MaterialPass* pass = new0 MaterialPass();
pass->SetVertexShader(vshader);
pass->SetPixelShader(pshader);
pass->SetAlphaProperty(new0 AlphaProperty());
pass->SetCullProperty(new0 CullProperty());
pass->SetDepthProperty(new0 DepthProperty());
pass->SetOffsetProperty(new0 OffsetProperty());
pass->SetStencilProperty(new0 StencilProperty());
pass->SetWireProperty(new0 WireProperty());
pass->GetAlphaProperty()->BlendEnabled = true;
MaterialTechnique* technique = new0 MaterialTechnique();
technique->InsertPass(pass);
InsertTechnique(technique);
}
//----------------------------------------------------------------------------
void StandardESMaterial_AlphaTest::PostLink ()
{
Material::PostLink();
MaterialPass* pass = mTechniques[0]->GetPass(0);
VertexShader* vshader = pass->GetVertexShader();
PixelShader* pshader = pass->GetPixelShader();
vshader->SetBaseRegisters(msVRegisters);
vshader->SetPrograms(msVPrograms);
pshader->SetTextureUnits(msPTextureUnits);
pshader->SetPrograms(msPPrograms);
vshader->SetShaderKey(SKT_STANNDES_ALPHATEST);
pshader->SetShaderKey(SKT_STANNDES_ALPHATEST);
}
//----------------------------------------------------------------------------
Texture2DMaterial::Texture2DMaterial (Shader::SamplerFilter filter,
Shader::SamplerCoordinate coordinate0,
Shader::SamplerCoordinate coordinate1)
{
VertexShader* vshader = new0 VertexShader("PX2.Texture2D",
2, 2, 1, 0, false);
vshader->SetInput(0, "modelPosition", Shader::VT_FLOAT3,
Shader::VS_POSITION);
vshader->SetInput(1, "modelTCoord0", Shader::VT_FLOAT2,
Shader::VS_TEXCOORD0);
vshader->SetOutput(0, "clipPosition", Shader::VT_FLOAT4,
Shader::VS_POSITION);
vshader->SetOutput(1, "vertexTCoord0", Shader::VT_FLOAT2,
Shader::VS_TEXCOORD0);
vshader->SetConstant(0, "gPVWMatrix", 4);
vshader->SetBaseRegisters(msVRegisters);
vshader->SetPrograms(msVPrograms);
PixelShader* pshader = new0 PixelShader("PX2.Texture2D",
1, 1, 0, 1, false);
pshader->SetInput(0, "vertexTCoord0", Shader::VT_FLOAT2,
Shader::VS_TEXCOORD0);
pshader->SetOutput(0, "pixelColor", Shader::VT_FLOAT4,
Shader::VS_COLOR0);
pshader->SetSampler(0, "gDiffuseSampler", Shader::ST_2D);
pshader->SetFilter(0, filter);
pshader->SetCoordinate(0, 0, coordinate0);
pshader->SetCoordinate(0, 1, coordinate1);
pshader->SetTextureUnits(msPTextureUnits);
pshader->SetPrograms(msPPrograms);
MaterialPass* pass = new0 MaterialPass();
pass->SetVertexShader(vshader);
pass->SetPixelShader(pshader);
pass->SetAlphaProperty(new0 AlphaProperty());
pass->SetCullProperty(new0 CullProperty());
pass->SetDepthProperty(new0 DepthProperty());
pass->SetOffsetProperty(new0 OffsetProperty());
pass->SetStencilProperty(new0 StencilProperty());
pass->SetWireProperty(new0 WireProperty());
MaterialTechnique* technique = new0 MaterialTechnique();
technique->InsertPass(pass);
InsertTechnique(technique);
}
//----------------------------------------------------------------------------
void ImageProcessing::CreateMaterial (PixelShader* pshader,
Material*& material, MaterialInstance*& instance)
{
// 创建pass
MaterialPass* pass = new0 MaterialPass();
pass->SetPixelShader(pshader);
// 所有材质都共享相同的顶点着色器
pass->SetVertexShader(mVertexShader);
// 创建渲染状态
pass->SetAlphaProperty(new0 AlphaProperty());
pass->SetOffsetProperty(new0 OffsetProperty());
pass->SetStencilProperty(new0 StencilProperty());
pass->SetWireProperty(new0 WireProperty());
// 不裁剪三角形
CullProperty* cproperty = new0 CullProperty();
cproperty->Enabled = false;
pass->SetCullProperty(cproperty);
// 不需要深度缓冲区
DepthProperty* dproperty = new0 DepthProperty();
dproperty->Enabled = false;
dproperty->Writable = false;
pass->SetDepthProperty(dproperty);
// 创建Technique
MaterialTechnique* technique = new0 MaterialTechnique();
technique->InsertPass(pass);
material = new0 Material();
material->InsertTechnique(technique);
// Create the material instance and set the vertex shader constants.
// 创建材质实例
instance = new0 MaterialInstance(material, 0);
// 顶点着色器变换
instance->SetVertexConstant(0, "PVWMatrix", mPVWMatrixConstant);
}
//----------------------------------------------------------------------------
StandardESMaterial_AlphaTest::StandardESMaterial_AlphaTest ()
{
VertexShader* vshader = new0 VertexShader("PX2.StandardESMaterial_AlphaTest",
3, 3, 7, 0, false);
vshader->SetInput(0, "modelPosition", Shader::VT_FLOAT3,
Shader::VS_POSITION);
vshader->SetInput(1, "modelNormal", Shader::VT_FLOAT3,
Shader::VS_NORMAL);
vshader->SetInput(2, "modelTCoord0", Shader::VT_FLOAT2,
Shader::VS_TEXCOORD0);
vshader->SetOutput(0, "clipPosition", Shader::VT_FLOAT4,
Shader::VS_POSITION);
vshader->SetOutput(1, "vertexTCoord0", Shader::VT_FLOAT2,
Shader::VS_TEXCOORD0);
vshader->SetOutput(2, "vertexTCoord1", Shader::VT_FLOAT4,
Shader::VS_TEXCOORD1);
vshader->SetConstant(0, "gPVWMatrix", 4);
vshader->SetConstant(1, "gShineEmissive", 1);
vshader->SetConstant(2, "gShineAmbient", 1);
vshader->SetConstant(3, "gShineDiffuse", 1);
vshader->SetConstant(4, "gLightAmbient", 1);
vshader->SetConstant(5, "gLightDiffuse", 1);
vshader->SetConstant(6, "gLightModelDirection", 1);
vshader->SetBaseRegisters(msVRegisters);
vshader->SetPrograms(msVPrograms);
PixelShader* pshader = new0 PixelShader("PX2.StandardESMaterial_AlphaTest",
2, 1, 0, 1, false);
pshader->SetInput(0, "vertexTCoord0", Shader::VT_FLOAT2,
Shader::VS_TEXCOORD0);
pshader->SetInput(1, "vertexTCoord1", Shader::VT_FLOAT4,
Shader::VS_TEXCOORD1);
pshader->SetOutput(0, "pixelColor", Shader::VT_FLOAT4,
Shader::VS_COLOR0);
pshader->SetSampler(0, "gDiffuseSampler", Shader::ST_2D);
pshader->SetFilter(0, Shader::SF_LINEAR);
pshader->SetCoordinate(0, 0, Shader::SC_CLAMP);
pshader->SetCoordinate(0, 1, Shader::SC_CLAMP);
pshader->SetTextureUnits(msPTextureUnits);
pshader->SetPrograms(msPPrograms);
vshader->SetShaderKey(SKT_STANNDES_ALPHATEST);
pshader->SetShaderKey(SKT_STANNDES_ALPHATEST);
MaterialPass* pass = new0 MaterialPass();
pass->SetVertexShader(vshader);
pass->SetPixelShader(pshader);
pass->SetAlphaProperty(new0 AlphaProperty());
pass->SetCullProperty(new0 CullProperty());
pass->SetDepthProperty(new0 DepthProperty());
pass->SetOffsetProperty(new0 OffsetProperty());
pass->SetStencilProperty(new0 StencilProperty());
pass->SetWireProperty(new0 WireProperty());
pass->GetAlphaProperty()->CompareEnabled = true;
pass->GetAlphaProperty()->Compare = PX2::AlphaProperty::CM_GREATER;
pass->GetAlphaProperty()->Reference = 0.25f;
MaterialTechnique* technique = new0 MaterialTechnique();
technique->InsertPass(pass);
InsertTechnique(technique);
}
//-----------------------------------------------------------------------------
void ProjTreeItem::SetTreeLevel(ProjTreeLevel level, bool isShowHelpNode)
{
mTreeLevel = level;
mIsShowHelpNode = isShowHelpNode;
Project *proj = DynamicCast<Project>(mObject);
Scene *scene = DynamicCast<Scene>(mObject);
if (proj || scene)
return;
Actor *actor = DynamicCast<Actor>(mObject);
Movable *mov = DynamicCast<Movable>(mObject);
Node *node = DynamicCast<Node>(mObject);
Renderable *renderable = DynamicCast<Renderable>(mObject);
EffectableController *effectableCtrl = DynamicCast<EffectableController>(mObject);
Material *mtl = DynamicCast<Material>(mObject);
MaterialTechnique *mtlTechnique = DynamicCast<MaterialTechnique>(mObject);
MaterialPass *mtlPass = DynamicCast<MaterialPass>(mObject);
if (!mObject)
{ // IT_CATALOG
for (int i = 0; i < (int)mChildItems.size(); i++)
{
ProjTreeItem *item = mChildItems[i];
if (item) item->SetTreeLevel(level, isShowHelpNode);
}
return;
}
else
{
ClearChildren();
}
bool addCtrl = false;
bool addModule = false;
bool addNode = false;
bool addMaterial = false;
if (PTL_GENERAL == mTreeLevel)
{
}
else if (PTL_CHILDREN == mTreeLevel)
{
if (!scene && !proj && node)
{
addNode = true;
}
}
else if (PTL_CONTROLS == mTreeLevel)
{
if (!scene && !proj && mov)
{
addCtrl = true;
}
if (!scene && !proj && node)
{
addNode = true;
}
if (effectableCtrl)
{
addModule = true;
}
}
else if (PTL_MATERIALS == mTreeLevel)
{
if (!scene && !proj && mov)
{
addCtrl = true;
}
if (!scene && !proj && node)
{
addNode = true;
}
if (renderable)
{
addMaterial = true;
}
}
else if (PTL_DETAIL == mTreeLevel)
{
if (!scene && !proj && mov)
{
addCtrl = true;
}
if (!scene && !proj && node)
{
addNode = true;
}
if (renderable)
{
addMaterial = true;
}
}
if (addCtrl)
{
int numCtrls = mov->GetNumControllers();
for (int i = 0; i < numCtrls; i++)
{
Controller *ctrl = mov->GetController(i);
AddChild(ctrl, mIconID, mTreeLevel, mIsShowHelpNode);
}
}
if (addMaterial)
{
MaterialInstance *mtlInst = renderable->GetMaterialInstance();
Material *mtl = mtlInst->GetMaterial();
AddChild(mtl, mIconID, mTreeLevel, mIsShowHelpNode);
}
if (mtl)
{
int numTechniques = mtl->GetNumTechniques();
for (int i = 0; i < numTechniques; i++)
{
MaterialTechnique *mtlTechnique = mtl->GetTechnique(i);
AddChild(mtlTechnique, mIconID, mTreeLevel, isShowHelpNode);
}
}
if (mtlTechnique)
{
int numPasses = mtlTechnique->GetNumPasses();
for (int i = 0; i < numPasses; i++)
{
MaterialPass *mtlPass = mtlTechnique->GetPass(i);
AddChild(mtlPass, mIconID, mTreeLevel, isShowHelpNode);
}
}
if (mtlPass)
{
AddChild(mtlPass->GetVertexShader(), mIconID, mTreeLevel, isShowHelpNode);
AddChild(mtlPass->GetPixelShader(), mIconID, mTreeLevel, isShowHelpNode);
AddChild(mtlPass->GetAlphaProperty(), mIconID, mTreeLevel, isShowHelpNode);
AddChild(mtlPass->GetCullProperty(), mIconID, mTreeLevel, isShowHelpNode);
AddChild(mtlPass->GetDepthProperty(), mIconID, mTreeLevel, isShowHelpNode);
AddChild(mtlPass->GetOffsetProperty(), mIconID, mTreeLevel, isShowHelpNode);
AddChild(mtlPass->GetStencilProperty(), mIconID, mTreeLevel, isShowHelpNode);
AddChild(mtlPass->GetWireProperty(), mIconID, mTreeLevel, isShowHelpNode);
}
if (addModule)
{
int numModules = effectableCtrl->GetNumModules();
for (int i = 0; i < numModules; i++)
{
EffectModule *module = effectableCtrl->GetModule(i);
AddChild(module, mIconID, mTreeLevel, mIsShowHelpNode);
}
}
if (addNode)
{
int numChildren = node->GetNumChildren();
for (int i = 0; i < numChildren; i++)
{
Movable *child = node->GetChild(i);
if (child)
{
bool ingore = false;
if (!isShowHelpNode && ("HelpNode" == child->GetName()))
ingore = true;
if (!ingore)
{
AddChild(child, mIconID, mTreeLevel, mIsShowHelpNode);
}
}
}
}
}
