//---------------------------------------------------------------------------- StringTree* DirectionalLight::SaveStrings () { StringTree* pkTree = new StringTree(2,0,1,0); // strings pkTree->SetString(0,MakeString(&ms_kRTTI,GetName())); pkTree->SetString(1,MakeString("direction =",m_kDirection)); // children pkTree->SetChild(0,Light::SaveStrings()); return pkTree; }
//---------------------------------------------------------------------------- StringTree* DitherState::SaveStrings () { StringTree* pkTree = new StringTree(2,0,1,0); // strings pkTree->SetString(0,MakeString(&ms_kRTTI,GetName())); pkTree->SetString(1,MakeString("enabled =",m_bEnabled)); // children pkTree->SetChild(0,RenderState::SaveStrings()); return pkTree; }
//---------------------------------------------------------------------------- StringTree* BezierCylinder::SaveStrings () { StringTree* pkTree = new StringTree(2,0,1,0); // strings pkTree->SetString(0,MakeString(&ms_kRTTI,GetName())); pkTree->SetString(1,MakeString("cyln level =",m_iCylinderLevel)); // children pkTree->SetChild(0,BezierPatch::SaveStrings()); return pkTree; }
//---------------------------------------------------------------------------- StringTree* Polyline::SaveStrings () { StringTree* pkTree = new StringTree(4,0,1,0); // strings pkTree->SetString(0,MakeString(&ms_kRTTI,GetName())); pkTree->SetString(1,MakeString("closed =",m_bClosed)); pkTree->SetString(2,MakeString("active quantity =",m_iActiveQuantity)); pkTree->SetString(3,MakeString("contiguous =",m_bContiguous)); // children pkTree->SetChild(0,Geometry::SaveStrings()); return pkTree; }
//---------------------------------------------------------------------------- StringTree* ConvexRegionManager::SaveStrings () { // TO DO. Finish implementation. StringTree* pkTree = new StringTree(1,0,1,0); pkTree->SetString(0,MakeString(&ms_kRTTI,GetName())); pkTree->SetChild(0,BspNode::SaveStrings()); return pkTree; }
//---------------------------------------------------------------------------- StringTree* ParticleController::SaveStrings () { // TO DO. Finish implementation. StringTree* pkTree = new StringTree(1,0,1,0); pkTree->SetString(0,MakeString(&ms_kRTTI,GetName())); pkTree->SetChild(0,Controller::SaveStrings()); return pkTree; }
//---------------------------------------------------------------------------- StringTree* Image::SaveStrings () { StringTree* pkTree = new StringTree(4,0,1,0); // strings pkTree->SetString(0,MakeString(&ms_kRTTI,GetName())); switch ( m_eType ) { case IT_RGBA4444: pkTree->SetString(1,MakeString("type = RGBA4444")); break; case IT_RGB888: pkTree->SetString(1,MakeString("type = RGB888")); break; case IT_RGBA5551: pkTree->SetString(1,MakeString("type = RGBA5551")); break; case IT_RGBA8888: pkTree->SetString(1,MakeString("type = RGBA8888")); break; default: // IT_QUANTITY break; } pkTree->SetString(2,MakeString("width =",m_iWidth)); pkTree->SetString(3,MakeString("height =",m_iHeight)); // children pkTree->SetChild(0,Object::SaveStrings()); return pkTree; }
//---------------------------------------------------------------------------- StringTree* Controller::SaveStrings () { StringTree* pkTree = new StringTree(5,0,1,0); // strings pkTree->SetString(0,MakeString(&ms_kRTTI,GetName())); pkTree->SetString(1,MakeString("min time =",m_fMinTime)); pkTree->SetString(2,MakeString("max time =",m_fMaxTime)); pkTree->SetString(3,MakeString("phase =",m_fPhase)); pkTree->SetString(4,MakeString("frequency =",m_fFrequency)); // children pkTree->SetChild(0,Object::SaveStrings()); // Object will iterate over controllers to save strings return pkTree; }
//---------------------------------------------------------------------------- StringTree* BezierCylinder2::SaveStrings () { StringTree* pkTree = new StringTree(1,0,1,0); // strings pkTree->SetString(0,MakeString(&ms_kRTTI,GetName())); // children pkTree->SetChild(0,BezierCylinder::SaveStrings()); return pkTree; }
//---------------------------------------------------------------------------- StringTree* Object::SaveStrings () { int iCQuantity = ( m_spkControl ? 1 : 0 ); StringTree* pkTree = new StringTree(4,0,iCQuantity,0); // strings pkTree->SetString(0,MakeString(&ms_kRTTI,GetName())); pkTree->SetString(1,MakeString("this =",this)); pkTree->SetString(2,MakeString("ID =",m_uiID)); pkTree->SetString(3,MakeString("refs =",m_uiReferences)); // children if ( m_spkControl ) { Controller* pkControl = WmlSmartPointerCast(Controller,m_spkControl); iCQuantity = 0; while ( pkControl ) { iCQuantity++; pkControl = pkControl->GetNext(); } StringTree* pkCTree = new StringTree(1,0,iCQuantity,0); pkTree->SetChild(0,pkCTree); pkCTree->SetString(0,MakeString("controllers")); int iSlot = 0; pkControl = WmlSmartPointerCast(Controller,m_spkControl); while ( pkControl ) { pkCTree->SetChild(iSlot++,pkControl->SaveStrings()); pkControl = pkControl->GetNext(); } } return pkTree; }
//---------------------------------------------------------------------------- StringTree* LightNode::SaveStrings () { int iCQuantity = ( m_spkLight ? 2 : 1 ); StringTree* pkTree = new StringTree(1,0,iCQuantity,0); // strings pkTree->SetString(0,MakeString(&ms_kRTTI,GetName())); // children pkTree->SetChild(0,Spatial::SaveStrings()); if ( m_spkLight ) pkTree->SetChild(1,m_spkLight->SaveStrings()); return pkTree; }
//---------------------------------------------------------------------------- StringTree* MaterialState::SaveStrings () { StringTree* pkTree = new StringTree(7,0,1,0); // strings pkTree->SetString(0,MakeString(&ms_kRTTI,GetName())); pkTree->SetString(1,MakeString("emissive =",m_kEmissive)); pkTree->SetString(2,MakeString("ambient =",m_kAmbient)); pkTree->SetString(3,MakeString("diffuse =",m_kDiffuse)); pkTree->SetString(4,MakeString("specular =",m_kSpecular)); pkTree->SetString(5,MakeString("shininess =",m_fShininess)); pkTree->SetString(6,MakeString("alpha =",m_fAlpha)); // children pkTree->SetChild(0,RenderState::SaveStrings()); return pkTree; }
//---------------------------------------------------------------------------- StringTree* VertexColorState::SaveStrings () { StringTree* pkTree = new StringTree(3,0,1,0); // strings pkTree->SetString(0,MakeString(&ms_kRTTI,GetName())); switch ( m_eSource ) { case SM_IGNORE: pkTree->SetString(1,MakeString("source = IGNORE")); break; case SM_EMISSIVE: pkTree->SetString(1,MakeString("source = EMISSIVE")); break; case SM_DIFFUSE: pkTree->SetString(1,MakeString("source = DIFFUSE")); break; default: // SM_QUANTITY break; }; switch ( m_eLighting ) { case LM_EMISSIVE: pkTree->SetString(2,MakeString("lighting = EMISSIVE")); break; case LM_DIFFUSE: pkTree->SetString(2,MakeString("lighting = DIFFUSE")); break; default: // LM_QUANTITY break; } // children pkTree->SetChild(0,RenderState::SaveStrings()); return pkTree; }
//---------------------------------------------------------------------------- StringTree* Texture::SaveStrings () { StringTree* pkTree = new StringTree(26,0,2,0); // strings pkTree->SetString(0,MakeString(&ms_kRTTI,GetName())); switch ( m_eCorrection ) { case CM_AFFINE: pkTree->SetString(1,MakeString("correction = AFFINE")); break; case CM_PERSPECTIVE: pkTree->SetString(1,MakeString("correction = PERSPECTIVE")); break; default: // CM_QUANTITY break; }; switch ( m_eApply ) { case AM_REPLACE: pkTree->SetString(2,MakeString("apply = REPLACE")); break; case AM_DECAL: pkTree->SetString(2,MakeString("apply = DECAL")); break; case AM_MODULATE: pkTree->SetString(2,MakeString("apply = MODULATE")); break; case AM_BLEND: pkTree->SetString(2,MakeString("apply = BLEND")); break; case AM_ADD: pkTree->SetString(2,MakeString("apply = ADD")); break; case AM_COMBINE: pkTree->SetString(2,MakeString("apply = COMBINE")); break; default: // AM_QUANTITY break; }; switch ( m_eCombineFuncRGB ) { case ACF_REPLACE: pkTree->SetString(3,MakeString("CombFuncRGB = REPLACE")); break; case ACF_MODULATE: pkTree->SetString(3,MakeString("CombFuncRGB = MODULATE")); break; case ACF_ADD: pkTree->SetString(3,MakeString("CombFuncRGB = ADD")); break; case ACF_ADD_SIGNED: pkTree->SetString(3,MakeString("CombFuncRGB = ADD_SIGNED")); break; case ACF_SUBTRACT: pkTree->SetString(3,MakeString("CombFuncRGB = SUBTRACT")); break; case ACF_INTERPOLATE: pkTree->SetString(3,MakeString("CombFuncRGB = INTERPOLATE")); break; case ACF_DOT3_RGB: pkTree->SetString(3,MakeString("CombFuncRGB = DOT3_RGB")); break; case ACF_DOT3_RGBA: pkTree->SetString(3,MakeString("CombFuncRGB = DOT3_RGBA")); break; default: // ACF_QUANTITY break; } switch ( m_eCombineFuncAlpha ) { case ACF_REPLACE: pkTree->SetString(4,MakeString("CombineFuncAlpha = REPLACE")); break; case ACF_MODULATE: pkTree->SetString(4,MakeString("CombineFuncAlpha = MODULATE")); break; case ACF_ADD: pkTree->SetString(4,MakeString("CombineFuncAlpha = ADD")); break; case ACF_ADD_SIGNED: pkTree->SetString(4,MakeString("CombineFuncAlpha = ADD_SIGNED")); break; case ACF_SUBTRACT: pkTree->SetString(4,MakeString("CombineFuncAlpha = SUBTRACT")); break; case ACF_INTERPOLATE: pkTree->SetString(4,MakeString("CombineFuncAlpha = INTERPOLATE")); break; case ACF_DOT3_RGB: pkTree->SetString(4,MakeString("CombineFuncAlpha = DOT3_RGB")); break; case ACF_DOT3_RGBA: pkTree->SetString(4,MakeString("CombineFuncAlpha = DOT3_RGBA")); break; default: // ACF_QUANTITY break; } switch ( m_eCombineSrc0RGB ) { case ACS_TEXTURE: pkTree->SetString(5,MakeString("CombineSrc0RGB = TEXTURE")); break; case ACS_PRIMARY_COLOR: pkTree->SetString(5,MakeString("CombineSrc0RGB = PRIMARY_COLOR")); break; case ACS_CONSTANT: pkTree->SetString(5,MakeString("CombineSrc0RGB = CONSTANT")); break; case ACS_PREVIOUS: pkTree->SetString(5,MakeString("CombineSrc0RGB = PREVIOUS")); break; default: // ACS_QUANTITY break; } switch ( m_eCombineSrc1RGB ) { case ACS_TEXTURE: pkTree->SetString(6,MakeString("CombineSrc1RGB = TEXTURE")); break; case ACS_PRIMARY_COLOR: pkTree->SetString(6,MakeString("CombineSrc1RGB = PRIMARY_COLOR")); break; case ACS_CONSTANT: pkTree->SetString(6,MakeString("CombineSrc1RGB = CONSTANT")); break; case ACS_PREVIOUS: pkTree->SetString(6,MakeString("CombineSrc1RGB = PREVIOUS")); break; default: // ACS_QUANTITY break; } switch ( m_eCombineSrc2RGB ) { case ACS_TEXTURE: pkTree->SetString(7,MakeString("CombineSrc1RGB = TEXTURE")); break; case ACS_PRIMARY_COLOR: pkTree->SetString(7,MakeString("CombineSrc1RGB = PRIMARY_COLOR")); break; case ACS_CONSTANT: pkTree->SetString(7,MakeString("CombineSrc1RGB = CONSTANT")); break; case ACS_PREVIOUS: pkTree->SetString(7,MakeString("CombineSrc1RGB = PREVIOUS")); break; default: // ACS_QUANTITY break; } switch ( m_eCombineSrc0Alpha ) { case ACS_TEXTURE: pkTree->SetString(8,MakeString("CombineSrc0Alpha = TEXTURE")); break; case ACS_PRIMARY_COLOR: pkTree->SetString(8,MakeString("CombineSrc0Alpha = PRIMARY_COLOR")); break; case ACS_CONSTANT: pkTree->SetString(8,MakeString("CombineSrc0Alpha = CONSTANT")); break; case ACS_PREVIOUS: pkTree->SetString(8,MakeString("CombineSrc0Alpha = PREVIOUS")); break; default: // ACS_QUANTITY break; } switch ( m_eCombineSrc1Alpha ) { case ACS_TEXTURE: pkTree->SetString(9,MakeString("CombineSrc1Alpha = TEXTURE")); break; case ACS_PRIMARY_COLOR: pkTree->SetString(9,MakeString("CombineSrc1Alpha = PRIMARY_COLOR")); break; case ACS_CONSTANT: pkTree->SetString(9,MakeString("CombineSrc1Alpha = CONSTANT")); break; case ACS_PREVIOUS: pkTree->SetString(9,MakeString("CombineSrc1Alpha = PREVIOUS")); break; default: // ACS_QUANTITY break; } switch ( m_eCombineSrc2Alpha ) { case ACS_TEXTURE: pkTree->SetString(10,MakeString("CombineSrc2Alpha = TEXTURE")); break; case ACS_PRIMARY_COLOR: pkTree->SetString(10,MakeString("CombineSrc2Alpha = PRIMARY_COLOR")); break; case ACS_CONSTANT: pkTree->SetString(10,MakeString("CombineSrc2Alpha = CONSTANT")); break; case ACS_PREVIOUS: pkTree->SetString(10,MakeString("CombineSrc2Alpha = PREVIOUS")); break; default: // ACS_QUANTITY break; } switch ( m_eCombineOp0RGB ) { case ACO_SRC_COLOR: pkTree->SetString(11,MakeString("CombineOp0RGB = SRC_COLOR")); break; case ACO_ONE_MINUS_SRC_COLOR: pkTree->SetString(11, MakeString("CombineOp0RGB = ONE_MINUS_SRC_COLOR")); break; case ACO_SRC_ALPHA: pkTree->SetString(11,MakeString("CombineOp0RGB = SRC_ALPHA")); break; case ACO_ONE_MINUS_SRC_ALPHA: pkTree->SetString(11, MakeString("CombineOp0RGB = ONE_MINUS_SRC_ALPHA")); break; default: // ACO_QUANTITY break; } switch ( m_eCombineOp1RGB ) { case ACO_SRC_COLOR: pkTree->SetString(12,MakeString("CombineOp1RGB = SRC_COLOR")); break; case ACO_ONE_MINUS_SRC_COLOR: pkTree->SetString(12, MakeString("CombineOp1RGB = ONE_MINUS_SRC_COLOR")); break; case ACO_SRC_ALPHA: pkTree->SetString(12,MakeString("CombineOp1RGB = SRC_ALPHA")); break; case ACO_ONE_MINUS_SRC_ALPHA: pkTree->SetString(12, MakeString("CombineOp1RGB = ONE_MINUS_SRC_ALPHA")); break; default: // ACO_QUANTITY break; } switch ( m_eCombineOp2RGB ) { case ACO_SRC_COLOR: pkTree->SetString(13,MakeString("CombineOp2RGB = SRC_COLOR")); break; case ACO_ONE_MINUS_SRC_COLOR: pkTree->SetString(13, MakeString("CombineOp2RGB = ONE_MINUS_SRC_COLOR")); break; case ACO_SRC_ALPHA: pkTree->SetString(13,MakeString("CombineOp2RGB = SRC_ALPHA")); break; case ACO_ONE_MINUS_SRC_ALPHA: pkTree->SetString(13, MakeString("CombineOp2RGB = ONE_MINUS_SRC_ALPHA")); break; default: // ACO_QUANTITY break; } switch ( m_eCombineOp0Alpha ) { case ACO_SRC_COLOR: pkTree->SetString(14,MakeString("CombineOp0Alpha = SRC_COLOR")); break; case ACO_ONE_MINUS_SRC_COLOR: pkTree->SetString(14, MakeString("CombineOp0Alpha = ONE_MINUS_SRC_COLOR")); break; case ACO_SRC_ALPHA: pkTree->SetString(14,MakeString("CombineOp0Alpha = SRC_ALPHA")); break; case ACO_ONE_MINUS_SRC_ALPHA: pkTree->SetString(14, MakeString("CombineOp0Alpha = ONE_MINUS_SRC_ALPHA")); break; default: // ACO_QUANTITY break; } switch ( m_eCombineOp1Alpha ) { case ACO_SRC_COLOR: pkTree->SetString(15,MakeString("CombineOp1Alpha = SRC_COLOR")); break; case ACO_ONE_MINUS_SRC_COLOR: pkTree->SetString(15, MakeString("CombineOp1Alpha = ONE_MINUS_SRC_COLOR")); break; case ACO_SRC_ALPHA: pkTree->SetString(15,MakeString("CombineOp1Alpha = SRC_ALPHA")); break; case ACO_ONE_MINUS_SRC_ALPHA: pkTree->SetString(15, MakeString("CombineOp1Alpha = ONE_MINUS_SRC_ALPHA")); break; default: // ACO_QUANTITY break; } switch ( m_eCombineOp2Alpha ) { case ACO_SRC_COLOR: pkTree->SetString(16,MakeString("CombineOp2Alpha = SRC_COLOR")); break; case ACO_ONE_MINUS_SRC_COLOR: pkTree->SetString(16, MakeString("CombineOp2Alpha = ONE_MINUS_SRC_COLOR")); break; case ACO_SRC_ALPHA: pkTree->SetString(16,MakeString("CombineOp2Alpha = SRC_ALPHA")); break; case ACO_ONE_MINUS_SRC_ALPHA: pkTree->SetString(16, MakeString("CombineOp2Alpha = ONE_MINUS_SRC_ALPHA")); break; default: // ACO_QUANTITY break; } switch ( m_eCombineScaleRGB ) { case ACSC_ONE: pkTree->SetString(17,MakeString("CombineScaleRGB = ONE")); break; case ACSC_TWO: pkTree->SetString(17,MakeString("CombineScaleRGB = TWO")); break; case ACSC_FOUR: pkTree->SetString(17,MakeString("CombineScaleRGB = FOUR")); break; default: // ACSC_QUANTITY break; } switch ( m_eCombineScaleAlpha ) { case ACSC_ONE: pkTree->SetString(18,MakeString("CombineScaleAlpha = ONE")); break; case ACSC_TWO: pkTree->SetString(18,MakeString("CombineScaleAlpha = TWO")); break; case ACSC_FOUR: pkTree->SetString(18,MakeString("CombineScaleAlpha = FOUR")); break; default: // ACSC_QUANTITY break; } switch ( m_eWrap ) { case WM_CLAMP_S_CLAMP_T: pkTree->SetString(19,MakeString("uv mode = CLAMP_S_CLAMP_T")); break; case WM_CLAMP_S_WRAP_T: pkTree->SetString(19,MakeString("uv mode = CLAMP_S_WRAP_T")); break; case WM_WRAP_S_CLAMP_T: pkTree->SetString(19,MakeString("uv mode = WRAP_S_CLAMP_T")); break; case WM_WRAP_S_WRAP_T: pkTree->SetString(19,MakeString("uv mode = WRAP_S_WRAP_T")); break; case WM_CLAMP_BORDER_S_CLAMP_BORDER_T: pkTree->SetString(19, MakeString("uv mode = CLAMP_BORDER_S_CLAMP_BORDER_T")); break; default: // WM_QUANTITY break; }; switch ( m_eFilter ) { case FM_NEAREST: pkTree->SetString(20,MakeString("filter = NEAREST")); break; case FM_LINEAR: pkTree->SetString(20,MakeString("filter = LINEAR")); break; default: // FM_QUANTITY break; }; switch ( m_eMipmap ) { case MM_NONE: pkTree->SetString(21,MakeString("mipmap = NONE")); break; case MM_NEAREST: pkTree->SetString(21,MakeString("mipmap = NEAREST")); break; case MM_LINEAR: pkTree->SetString(21,MakeString("mipmap = LINEAR")); break; case MM_NEAREST_NEAREST: pkTree->SetString(21,MakeString("mipmap = NEAREST_NEAREST")); break; case MM_NEAREST_LINEAR: pkTree->SetString(21,MakeString("mipmap = NEAREST_LINEAR")); break; case MM_LINEAR_NEAREST: pkTree->SetString(21,MakeString("mipmap = LINEAR_NEAREST")); break; case MM_LINEAR_LINEAR: pkTree->SetString(21,MakeString("mipmap = LINEAR_LINEAR")); break; default: // MM_QUANTITY break; } switch ( m_eEnvmap ) { case EM_NONE: pkTree->SetString(22,MakeString("envmap = NONE")); break; case EM_IGNORE: pkTree->SetString(22,MakeString("envmap = IGNORE")); break; case EM_SPHERE: pkTree->SetString(22,MakeString("envmap = SPHERE")); break; default: // EM_QUANTITY break; } pkTree->SetString(23,MakeString("blend color =",m_kBlendColor)); pkTree->SetString(24,MakeString("priority =",m_fPriority)); pkTree->SetString(25,MakeString("border color =",m_kBorderColor)); // children pkTree->SetChild(0,Object::SaveStrings()); pkTree->SetChild(1,m_spkImage->SaveStrings()); return pkTree; }
//---------------------------------------------------------------------------- StringTree* AlphaState::SaveStrings () { StringTree* pkTree = new StringTree(6,0,1,0); // strings pkTree->SetString(0,MakeString(&ms_kRTTI,GetName())); pkTree->SetString(1,MakeString("blend =",m_bBlendEnabled)); switch ( m_eSrcBlend ) { case SBF_ZERO: pkTree->SetString(2,MakeString("src blend = ZERO")); break; case SBF_ONE: pkTree->SetString(2,MakeString("src blend = ONE")); break; case SBF_DST_COLOR: pkTree->SetString(2,MakeString("src blend = DST_COLOR")); break; case SBF_ONE_MINUS_DST_COLOR: pkTree->SetString(2,MakeString("src blend = ONE_MINUS_DST_COLOR")); break; case SBF_SRC_ALPHA: pkTree->SetString(2,MakeString("src blend = SRC_ALPHA")); break; case SBF_ONE_MINUS_SRC_ALPHA: pkTree->SetString(2,MakeString("src blend = ONE_MINUS_SRC_ALPHA")); break; case SBF_DST_ALPHA: pkTree->SetString(2,MakeString("src blend = DST_ALPHA")); break; case SBF_ONE_MINUS_DST_ALPHA: pkTree->SetString(2,MakeString("src blend = ONE_MINUS_DST_ALPHA")); break; case SBF_SRC_ALPHA_SATURATE: pkTree->SetString(2,MakeString("src blend = SRC_ALPHA_SATURATE")); break; default: // SBF_QUANTITY break; } switch ( m_eDstBlend ) { case DBF_ZERO: pkTree->SetString(3,MakeString("dst blend = ZERO")); break; case DBF_ONE: pkTree->SetString(3,MakeString("dst blend = ONE")); break; case DBF_SRC_COLOR: pkTree->SetString(3,MakeString("dst blend = DST_COLOR")); break; case DBF_ONE_MINUS_SRC_COLOR: pkTree->SetString(3,MakeString("dst blend = ONE_MINUS_DST_COLOR")); break; case DBF_SRC_ALPHA: pkTree->SetString(3,MakeString("dst blend = SRC_ALPHA")); break; case DBF_ONE_MINUS_SRC_ALPHA: pkTree->SetString(3,MakeString("dst blend = ONE_MINUS_SRC_ALPHA")); break; case DBF_DST_ALPHA: pkTree->SetString(3,MakeString("dst blend = DST_ALPHA")); break; case DBF_ONE_MINUS_DST_ALPHA: pkTree->SetString(3,MakeString("dst blend = ONE_MINUS_DST_ALPHA")); break; default: // DBF_QUANTITY break; } pkTree->SetString(1,MakeString("test =",m_bTestEnabled)); switch ( m_eTest ) { case TF_NEVER: pkTree->SetString(4,MakeString("test func = NEVER")); break; case TF_LESS: pkTree->SetString(4,MakeString("test func = LESS")); break; case TF_EQUAL: pkTree->SetString(4,MakeString("test func = EQUAL")); break; case TF_LEQUAL: pkTree->SetString(4,MakeString("test func = LEQUAL")); break; case TF_GREATER: pkTree->SetString(4,MakeString("test func = GREATER")); break; case TF_NOTEQUAL: pkTree->SetString(4,MakeString("test func = NOTEQUAL")); break; case TF_GEQUAL: pkTree->SetString(4,MakeString("test func = GEQUAL")); break; case TF_ALWAYS: pkTree->SetString(4,MakeString("test func = ALWAYS")); break; default: // TF_QUANTITY break; } pkTree->SetString(5,MakeString("test ref =",m_fReference)); // children pkTree->SetChild(0,RenderState::SaveStrings()); return pkTree; }