x
Yes
No
Do you want to visit DriveHQ English website?
首页
产品服务
价格
免费试用
下载客户端
关于我们
云文件服务
|
云备份服务
|
FTP服务
|
企业邮箱服务
|
网站托管
|
客户端软件
云文件服务
云备份服务
FTP服务
企业级邮箱服务
网站托管
客户端软件
domTypes.cpp - Hosted on DriveHQ Cloud IT Platform
返回上层目录
上传
下载
共享
发布
新建文件夹
新建文件
复制
剪切
删除
粘贴
评论
升级服务
路径: \\game3dprogramming\materials\DarkPuzzle\libs\bullet_sdk\Extras\COLLADA_DOM\src\1.4\dom\domTypes.cpp
旋转
特效
属性
历史版本
/* * Copyright 2006 Sony Computer Entertainment Inc. * * Licensed under the SCEA Shared Source License, Version 1.0 (the "License"); you may not use this * file except in compliance with the License. You may obtain a copy of the License at: * http://research.scea.com/scea_shared_source_license.html * * 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. */ #include
#include
#include
void registerDomTypes() { daeAtomicType* type = NULL; // TYPEDEF: Bool //check if this type has an existing base type = daeAtomicType::get("xsBoolean"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Bool"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Bool"); } // TYPEDEF: DateTime //check if this type has an existing base type = daeAtomicType::get("xsDateTime"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("DateTime"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("DateTime"); } // TYPEDEF: Float //check if this type has an existing base type = daeAtomicType::get("xsDouble"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Float"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Float"); } // TYPEDEF: Int //check if this type has an existing base type = daeAtomicType::get("xsLong"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Int"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Int"); } // TYPEDEF: Name //check if this type has an existing base type = daeAtomicType::get("xsName"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Name"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Name"); } // TYPEDEF: String //check if this type has an existing base type = daeAtomicType::get("xsString"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("String"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("String"); } // TYPEDEF: Token //check if this type has an existing base type = daeAtomicType::get("xsToken"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Token"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Token"); } // TYPEDEF: Uint //check if this type has an existing base type = daeAtomicType::get("xsUnsignedLong"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Uint"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Uint"); } // TYPEDEF: ListOfBools //check if this type has an existing base type = daeAtomicType::get("Bool"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("ListOfBools"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("ListOfBools"); } // TYPEDEF: ListOfFloats //check if this type has an existing base type = daeAtomicType::get("Float"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("ListOfFloats"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("ListOfFloats"); } // TYPEDEF: ListOfHexBinary //check if this type has an existing base type = daeAtomicType::get("xsHexBinary"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("ListOfHexBinary"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("ListOfHexBinary"); } // TYPEDEF: ListOfInts //check if this type has an existing base type = daeAtomicType::get("Int"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("ListOfInts"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("ListOfInts"); } // TYPEDEF: ListOfNames //check if this type has an existing base type = daeAtomicType::get("Name"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("ListOfNames"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("ListOfNames"); } // TYPEDEF: ListOfTokens //check if this type has an existing base type = daeAtomicType::get("Token"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("ListOfTokens"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("ListOfTokens"); } // TYPEDEF: ListOfUInts //check if this type has an existing base type = daeAtomicType::get("Uint"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("ListOfUInts"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("ListOfUInts"); } // TYPEDEF: Bool2 //check if this type has an existing base type = daeAtomicType::get("ListOfBools"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Bool2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Bool2"); } // TYPEDEF: Bool3 //check if this type has an existing base type = daeAtomicType::get("ListOfBools"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Bool3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Bool3"); } // TYPEDEF: Bool4 //check if this type has an existing base type = daeAtomicType::get("ListOfBools"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Bool4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Bool4"); } // TYPEDEF: Float2 //check if this type has an existing base type = daeAtomicType::get("ListOfFloats"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Float2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Float2"); } // TYPEDEF: Float3 //check if this type has an existing base type = daeAtomicType::get("ListOfFloats"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Float3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Float3"); } // TYPEDEF: Float4 //check if this type has an existing base type = daeAtomicType::get("ListOfFloats"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Float4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Float4"); } // TYPEDEF: Float7 //check if this type has an existing base type = daeAtomicType::get("ListOfFloats"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Float7"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Float7"); } // TYPEDEF: Float2x2 //check if this type has an existing base type = daeAtomicType::get("ListOfFloats"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Float2x2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Float2x2"); } // TYPEDEF: Float3x3 //check if this type has an existing base type = daeAtomicType::get("ListOfFloats"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Float3x3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Float3x3"); } // TYPEDEF: Float4x4 //check if this type has an existing base type = daeAtomicType::get("ListOfFloats"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Float4x4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Float4x4"); } // TYPEDEF: Float2x3 //check if this type has an existing base type = daeAtomicType::get("ListOfFloats"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Float2x3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Float2x3"); } // TYPEDEF: Float2x4 //check if this type has an existing base type = daeAtomicType::get("ListOfFloats"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Float2x4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Float2x4"); } // TYPEDEF: Float3x2 //check if this type has an existing base type = daeAtomicType::get("ListOfFloats"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Float3x2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Float3x2"); } // TYPEDEF: Float3x4 //check if this type has an existing base type = daeAtomicType::get("ListOfFloats"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Float3x4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Float3x4"); } // TYPEDEF: Float4x2 //check if this type has an existing base type = daeAtomicType::get("ListOfFloats"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Float4x2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Float4x2"); } // TYPEDEF: Float4x3 //check if this type has an existing base type = daeAtomicType::get("ListOfFloats"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Float4x3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Float4x3"); } // TYPEDEF: Int2 //check if this type has an existing base type = daeAtomicType::get("ListOfInts"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Int2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Int2"); } // TYPEDEF: Int3 //check if this type has an existing base type = daeAtomicType::get("ListOfInts"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Int3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Int3"); } // TYPEDEF: Int4 //check if this type has an existing base type = daeAtomicType::get("ListOfInts"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Int4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Int4"); } // TYPEDEF: Int2x2 //check if this type has an existing base type = daeAtomicType::get("ListOfInts"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Int2x2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Int2x2"); } // TYPEDEF: Int3x3 //check if this type has an existing base type = daeAtomicType::get("ListOfInts"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Int3x3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Int3x3"); } // TYPEDEF: Int4x4 //check if this type has an existing base type = daeAtomicType::get("ListOfInts"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Int4x4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Int4x4"); } // ENUM: MorphMethodType type = new daeEnumType; type->_nameBindings.append("MorphMethodType"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("NORMALIZED"); ((daeEnumType*)type)->_values->append(MORPHMETHODTYPE_NORMALIZED); ((daeEnumType*)type)->_strings->append("RELATIVE"); ((daeEnumType*)type)->_values->append(MORPHMETHODTYPE_RELATIVE); daeAtomicType::append( type ); // ENUM: NodeType type = new daeEnumType; type->_nameBindings.append("NodeType"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("JOINT"); ((daeEnumType*)type)->_values->append(NODETYPE_JOINT); ((daeEnumType*)type)->_strings->append("NODE"); ((daeEnumType*)type)->_values->append(NODETYPE_NODE); daeAtomicType::append( type ); // TYPEDEF: URIFragmentType //check if this type has an existing base type = daeAtomicType::get("xsAnyURI"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("URIFragmentType"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("URIFragmentType"); } // ENUM: UpAxisType type = new daeEnumType; type->_nameBindings.append("UpAxisType"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("X_UP"); ((daeEnumType*)type)->_values->append(UPAXISTYPE_X_UP); ((daeEnumType*)type)->_strings->append("Y_UP"); ((daeEnumType*)type)->_values->append(UPAXISTYPE_Y_UP); ((daeEnumType*)type)->_strings->append("Z_UP"); ((daeEnumType*)type)->_values->append(UPAXISTYPE_Z_UP); daeAtomicType::append( type ); // ENUM: VersionType type = new daeEnumType; type->_nameBindings.append("VersionType"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("1.4.0"); ((daeEnumType*)type)->_values->append(VERSIONTYPE_1_4_0); ((daeEnumType*)type)->_strings->append("1.4.1"); ((daeEnumType*)type)->_values->append(VERSIONTYPE_1_4_1); daeAtomicType::append( type ); // TYPEDEF: Fx_color_common //check if this type has an existing base type = daeAtomicType::get("Float4"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Fx_color_common"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Fx_color_common"); } // ENUM: Fx_opaque_enum type = new daeEnumType; type->_nameBindings.append("Fx_opaque_enum"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("A_ONE"); ((daeEnumType*)type)->_values->append(FX_OPAQUE_ENUM_A_ONE); ((daeEnumType*)type)->_strings->append("RGB_ZERO"); ((daeEnumType*)type)->_values->append(FX_OPAQUE_ENUM_RGB_ZERO); daeAtomicType::append( type ); // ENUM: Fx_surface_type_enum type = new daeEnumType; type->_nameBindings.append("Fx_surface_type_enum"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("UNTYPED"); ((daeEnumType*)type)->_values->append(FX_SURFACE_TYPE_ENUM_UNTYPED); ((daeEnumType*)type)->_strings->append("1D"); ((daeEnumType*)type)->_values->append(FX_SURFACE_TYPE_ENUM_1D); ((daeEnumType*)type)->_strings->append("2D"); ((daeEnumType*)type)->_values->append(FX_SURFACE_TYPE_ENUM_2D); ((daeEnumType*)type)->_strings->append("3D"); ((daeEnumType*)type)->_values->append(FX_SURFACE_TYPE_ENUM_3D); ((daeEnumType*)type)->_strings->append("RECT"); ((daeEnumType*)type)->_values->append(FX_SURFACE_TYPE_ENUM_RECT); ((daeEnumType*)type)->_strings->append("CUBE"); ((daeEnumType*)type)->_values->append(FX_SURFACE_TYPE_ENUM_CUBE); ((daeEnumType*)type)->_strings->append("DEPTH"); ((daeEnumType*)type)->_values->append(FX_SURFACE_TYPE_ENUM_DEPTH); daeAtomicType::append( type ); // ENUM: Fx_surface_face_enum type = new daeEnumType; type->_nameBindings.append("Fx_surface_face_enum"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("POSITIVE_X"); ((daeEnumType*)type)->_values->append(FX_SURFACE_FACE_ENUM_POSITIVE_X); ((daeEnumType*)type)->_strings->append("NEGATIVE_X"); ((daeEnumType*)type)->_values->append(FX_SURFACE_FACE_ENUM_NEGATIVE_X); ((daeEnumType*)type)->_strings->append("POSITIVE_Y"); ((daeEnumType*)type)->_values->append(FX_SURFACE_FACE_ENUM_POSITIVE_Y); ((daeEnumType*)type)->_strings->append("NEGATIVE_Y"); ((daeEnumType*)type)->_values->append(FX_SURFACE_FACE_ENUM_NEGATIVE_Y); ((daeEnumType*)type)->_strings->append("POSITIVE_Z"); ((daeEnumType*)type)->_values->append(FX_SURFACE_FACE_ENUM_POSITIVE_Z); ((daeEnumType*)type)->_strings->append("NEGATIVE_Z"); ((daeEnumType*)type)->_values->append(FX_SURFACE_FACE_ENUM_NEGATIVE_Z); daeAtomicType::append( type ); // ENUM: Fx_surface_format_hint_channels_enum type = new daeEnumType; type->_nameBindings.append("Fx_surface_format_hint_channels_enum"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("RGB"); ((daeEnumType*)type)->_values->append(FX_SURFACE_FORMAT_HINT_CHANNELS_ENUM_RGB); ((daeEnumType*)type)->_strings->append("RGBA"); ((daeEnumType*)type)->_values->append(FX_SURFACE_FORMAT_HINT_CHANNELS_ENUM_RGBA); ((daeEnumType*)type)->_strings->append("L"); ((daeEnumType*)type)->_values->append(FX_SURFACE_FORMAT_HINT_CHANNELS_ENUM_L); ((daeEnumType*)type)->_strings->append("LA"); ((daeEnumType*)type)->_values->append(FX_SURFACE_FORMAT_HINT_CHANNELS_ENUM_LA); ((daeEnumType*)type)->_strings->append("D"); ((daeEnumType*)type)->_values->append(FX_SURFACE_FORMAT_HINT_CHANNELS_ENUM_D); ((daeEnumType*)type)->_strings->append("XYZ"); ((daeEnumType*)type)->_values->append(FX_SURFACE_FORMAT_HINT_CHANNELS_ENUM_XYZ); ((daeEnumType*)type)->_strings->append("XYZW"); ((daeEnumType*)type)->_values->append(FX_SURFACE_FORMAT_HINT_CHANNELS_ENUM_XYZW); daeAtomicType::append( type ); // ENUM: Fx_surface_format_hint_precision_enum type = new daeEnumType; type->_nameBindings.append("Fx_surface_format_hint_precision_enum"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("LOW"); ((daeEnumType*)type)->_values->append(FX_SURFACE_FORMAT_HINT_PRECISION_ENUM_LOW); ((daeEnumType*)type)->_strings->append("MID"); ((daeEnumType*)type)->_values->append(FX_SURFACE_FORMAT_HINT_PRECISION_ENUM_MID); ((daeEnumType*)type)->_strings->append("HIGH"); ((daeEnumType*)type)->_values->append(FX_SURFACE_FORMAT_HINT_PRECISION_ENUM_HIGH); daeAtomicType::append( type ); // ENUM: Fx_surface_format_hint_range_enum type = new daeEnumType; type->_nameBindings.append("Fx_surface_format_hint_range_enum"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("SNORM"); ((daeEnumType*)type)->_values->append(FX_SURFACE_FORMAT_HINT_RANGE_ENUM_SNORM); ((daeEnumType*)type)->_strings->append("UNORM"); ((daeEnumType*)type)->_values->append(FX_SURFACE_FORMAT_HINT_RANGE_ENUM_UNORM); ((daeEnumType*)type)->_strings->append("SINT"); ((daeEnumType*)type)->_values->append(FX_SURFACE_FORMAT_HINT_RANGE_ENUM_SINT); ((daeEnumType*)type)->_strings->append("UINT"); ((daeEnumType*)type)->_values->append(FX_SURFACE_FORMAT_HINT_RANGE_ENUM_UINT); ((daeEnumType*)type)->_strings->append("FLOAT"); ((daeEnumType*)type)->_values->append(FX_SURFACE_FORMAT_HINT_RANGE_ENUM_FLOAT); daeAtomicType::append( type ); // ENUM: Fx_surface_format_hint_option_enum type = new daeEnumType; type->_nameBindings.append("Fx_surface_format_hint_option_enum"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("SRGB_GAMMA"); ((daeEnumType*)type)->_values->append(FX_SURFACE_FORMAT_HINT_OPTION_ENUM_SRGB_GAMMA); ((daeEnumType*)type)->_strings->append("NORMALIZED3"); ((daeEnumType*)type)->_values->append(FX_SURFACE_FORMAT_HINT_OPTION_ENUM_NORMALIZED3); ((daeEnumType*)type)->_strings->append("NORMALIZED4"); ((daeEnumType*)type)->_values->append(FX_SURFACE_FORMAT_HINT_OPTION_ENUM_NORMALIZED4); ((daeEnumType*)type)->_strings->append("COMPRESSABLE"); ((daeEnumType*)type)->_values->append(FX_SURFACE_FORMAT_HINT_OPTION_ENUM_COMPRESSABLE); daeAtomicType::append( type ); // ENUM: Fx_sampler_wrap_common type = new daeEnumType; type->_nameBindings.append("Fx_sampler_wrap_common"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("NONE"); ((daeEnumType*)type)->_values->append(FX_SAMPLER_WRAP_COMMON_NONE); ((daeEnumType*)type)->_strings->append("WRAP"); ((daeEnumType*)type)->_values->append(FX_SAMPLER_WRAP_COMMON_WRAP); ((daeEnumType*)type)->_strings->append("MIRROR"); ((daeEnumType*)type)->_values->append(FX_SAMPLER_WRAP_COMMON_MIRROR); ((daeEnumType*)type)->_strings->append("CLAMP"); ((daeEnumType*)type)->_values->append(FX_SAMPLER_WRAP_COMMON_CLAMP); ((daeEnumType*)type)->_strings->append("BORDER"); ((daeEnumType*)type)->_values->append(FX_SAMPLER_WRAP_COMMON_BORDER); daeAtomicType::append( type ); // ENUM: Fx_sampler_filter_common type = new daeEnumType; type->_nameBindings.append("Fx_sampler_filter_common"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("NONE"); ((daeEnumType*)type)->_values->append(FX_SAMPLER_FILTER_COMMON_NONE); ((daeEnumType*)type)->_strings->append("NEAREST"); ((daeEnumType*)type)->_values->append(FX_SAMPLER_FILTER_COMMON_NEAREST); ((daeEnumType*)type)->_strings->append("LINEAR"); ((daeEnumType*)type)->_values->append(FX_SAMPLER_FILTER_COMMON_LINEAR); ((daeEnumType*)type)->_strings->append("NEAREST_MIPMAP_NEAREST"); ((daeEnumType*)type)->_values->append(FX_SAMPLER_FILTER_COMMON_NEAREST_MIPMAP_NEAREST); ((daeEnumType*)type)->_strings->append("LINEAR_MIPMAP_NEAREST"); ((daeEnumType*)type)->_values->append(FX_SAMPLER_FILTER_COMMON_LINEAR_MIPMAP_NEAREST); ((daeEnumType*)type)->_strings->append("NEAREST_MIPMAP_LINEAR"); ((daeEnumType*)type)->_values->append(FX_SAMPLER_FILTER_COMMON_NEAREST_MIPMAP_LINEAR); ((daeEnumType*)type)->_strings->append("LINEAR_MIPMAP_LINEAR"); ((daeEnumType*)type)->_values->append(FX_SAMPLER_FILTER_COMMON_LINEAR_MIPMAP_LINEAR); daeAtomicType::append( type ); // ENUM: Fx_modifier_enum_common type = new daeEnumType; type->_nameBindings.append("Fx_modifier_enum_common"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("CONST"); ((daeEnumType*)type)->_values->append(FX_MODIFIER_ENUM_COMMON_CONST); ((daeEnumType*)type)->_strings->append("UNIFORM"); ((daeEnumType*)type)->_values->append(FX_MODIFIER_ENUM_COMMON_UNIFORM); ((daeEnumType*)type)->_strings->append("VARYING"); ((daeEnumType*)type)->_values->append(FX_MODIFIER_ENUM_COMMON_VARYING); ((daeEnumType*)type)->_strings->append("STATIC"); ((daeEnumType*)type)->_values->append(FX_MODIFIER_ENUM_COMMON_STATIC); ((daeEnumType*)type)->_strings->append("VOLATILE"); ((daeEnumType*)type)->_values->append(FX_MODIFIER_ENUM_COMMON_VOLATILE); ((daeEnumType*)type)->_strings->append("EXTERN"); ((daeEnumType*)type)->_values->append(FX_MODIFIER_ENUM_COMMON_EXTERN); ((daeEnumType*)type)->_strings->append("SHARED"); ((daeEnumType*)type)->_values->append(FX_MODIFIER_ENUM_COMMON_SHARED); daeAtomicType::append( type ); // TYPEDEF: Fx_draw_common //check if this type has an existing base type = daeAtomicType::get("xsString"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Fx_draw_common"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Fx_draw_common"); } // ENUM: Fx_pipeline_stage_common type = new daeEnumType; type->_nameBindings.append("Fx_pipeline_stage_common"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("VERTEXPROGRAM"); ((daeEnumType*)type)->_values->append(FX_PIPELINE_STAGE_COMMON_VERTEXPROGRAM); ((daeEnumType*)type)->_strings->append("FRAGMENTPROGRAM"); ((daeEnumType*)type)->_values->append(FX_PIPELINE_STAGE_COMMON_FRAGMENTPROGRAM); ((daeEnumType*)type)->_strings->append("VERTEXSHADER"); ((daeEnumType*)type)->_values->append(FX_PIPELINE_STAGE_COMMON_VERTEXSHADER); ((daeEnumType*)type)->_strings->append("PIXELSHADER"); ((daeEnumType*)type)->_values->append(FX_PIPELINE_STAGE_COMMON_PIXELSHADER); daeAtomicType::append( type ); // TYPEDEF: GL_MAX_LIGHTS_index //check if this type has an existing base type = daeAtomicType::get("xsNonNegativeInteger"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("GL_MAX_LIGHTS_index"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("GL_MAX_LIGHTS_index"); } // TYPEDEF: GL_MAX_CLIP_PLANES_index //check if this type has an existing base type = daeAtomicType::get("xsNonNegativeInteger"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("GL_MAX_CLIP_PLANES_index"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("GL_MAX_CLIP_PLANES_index"); } // TYPEDEF: GL_MAX_TEXTURE_IMAGE_UNITS_index //check if this type has an existing base type = daeAtomicType::get("xsNonNegativeInteger"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("GL_MAX_TEXTURE_IMAGE_UNITS_index"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("GL_MAX_TEXTURE_IMAGE_UNITS_index"); } // ENUM: Gl_blend_type type = new daeEnumType; type->_nameBindings.append("Gl_blend_type"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("ZERO"); ((daeEnumType*)type)->_values->append(GL_BLEND_TYPE_ZERO); ((daeEnumType*)type)->_strings->append("ONE"); ((daeEnumType*)type)->_values->append(GL_BLEND_TYPE_ONE); ((daeEnumType*)type)->_strings->append("SRC_COLOR"); ((daeEnumType*)type)->_values->append(GL_BLEND_TYPE_SRC_COLOR); ((daeEnumType*)type)->_strings->append("ONE_MINUS_SRC_COLOR"); ((daeEnumType*)type)->_values->append(GL_BLEND_TYPE_ONE_MINUS_SRC_COLOR); ((daeEnumType*)type)->_strings->append("DEST_COLOR"); ((daeEnumType*)type)->_values->append(GL_BLEND_TYPE_DEST_COLOR); ((daeEnumType*)type)->_strings->append("ONE_MINUS_DEST_COLOR"); ((daeEnumType*)type)->_values->append(GL_BLEND_TYPE_ONE_MINUS_DEST_COLOR); ((daeEnumType*)type)->_strings->append("SRC_ALPHA"); ((daeEnumType*)type)->_values->append(GL_BLEND_TYPE_SRC_ALPHA); ((daeEnumType*)type)->_strings->append("ONE_MINUS_SRC_ALPHA"); ((daeEnumType*)type)->_values->append(GL_BLEND_TYPE_ONE_MINUS_SRC_ALPHA); ((daeEnumType*)type)->_strings->append("DST_ALPHA"); ((daeEnumType*)type)->_values->append(GL_BLEND_TYPE_DST_ALPHA); ((daeEnumType*)type)->_strings->append("ONE_MINUS_DST_ALPHA"); ((daeEnumType*)type)->_values->append(GL_BLEND_TYPE_ONE_MINUS_DST_ALPHA); ((daeEnumType*)type)->_strings->append("CONSTANT_COLOR"); ((daeEnumType*)type)->_values->append(GL_BLEND_TYPE_CONSTANT_COLOR); ((daeEnumType*)type)->_strings->append("ONE_MINUS_CONSTANT_COLOR"); ((daeEnumType*)type)->_values->append(GL_BLEND_TYPE_ONE_MINUS_CONSTANT_COLOR); ((daeEnumType*)type)->_strings->append("CONSTANT_ALPHA"); ((daeEnumType*)type)->_values->append(GL_BLEND_TYPE_CONSTANT_ALPHA); ((daeEnumType*)type)->_strings->append("ONE_MINUS_CONSTANT_ALPHA"); ((daeEnumType*)type)->_values->append(GL_BLEND_TYPE_ONE_MINUS_CONSTANT_ALPHA); ((daeEnumType*)type)->_strings->append("SRC_ALPHA_SATURATE"); ((daeEnumType*)type)->_values->append(GL_BLEND_TYPE_SRC_ALPHA_SATURATE); daeAtomicType::append( type ); // ENUM: Gl_face_type type = new daeEnumType; type->_nameBindings.append("Gl_face_type"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("FRONT"); ((daeEnumType*)type)->_values->append(GL_FACE_TYPE_FRONT); ((daeEnumType*)type)->_strings->append("BACK"); ((daeEnumType*)type)->_values->append(GL_FACE_TYPE_BACK); ((daeEnumType*)type)->_strings->append("FRONT_AND_BACK"); ((daeEnumType*)type)->_values->append(GL_FACE_TYPE_FRONT_AND_BACK); daeAtomicType::append( type ); // ENUM: Gl_blend_equation_type type = new daeEnumType; type->_nameBindings.append("Gl_blend_equation_type"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("FUNC_ADD"); ((daeEnumType*)type)->_values->append(GL_BLEND_EQUATION_TYPE_FUNC_ADD); ((daeEnumType*)type)->_strings->append("FUNC_SUBTRACT"); ((daeEnumType*)type)->_values->append(GL_BLEND_EQUATION_TYPE_FUNC_SUBTRACT); ((daeEnumType*)type)->_strings->append("FUNC_REVERSE_SUBTRACT"); ((daeEnumType*)type)->_values->append(GL_BLEND_EQUATION_TYPE_FUNC_REVERSE_SUBTRACT); ((daeEnumType*)type)->_strings->append("MIN"); ((daeEnumType*)type)->_values->append(GL_BLEND_EQUATION_TYPE_MIN); ((daeEnumType*)type)->_strings->append("MAX"); ((daeEnumType*)type)->_values->append(GL_BLEND_EQUATION_TYPE_MAX); daeAtomicType::append( type ); // ENUM: Gl_func_type type = new daeEnumType; type->_nameBindings.append("Gl_func_type"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("NEVER"); ((daeEnumType*)type)->_values->append(GL_FUNC_TYPE_NEVER); ((daeEnumType*)type)->_strings->append("LESS"); ((daeEnumType*)type)->_values->append(GL_FUNC_TYPE_LESS); ((daeEnumType*)type)->_strings->append("LEQUAL"); ((daeEnumType*)type)->_values->append(GL_FUNC_TYPE_LEQUAL); ((daeEnumType*)type)->_strings->append("EQUAL"); ((daeEnumType*)type)->_values->append(GL_FUNC_TYPE_EQUAL); ((daeEnumType*)type)->_strings->append("GREATER"); ((daeEnumType*)type)->_values->append(GL_FUNC_TYPE_GREATER); ((daeEnumType*)type)->_strings->append("NOTEQUAL"); ((daeEnumType*)type)->_values->append(GL_FUNC_TYPE_NOTEQUAL); ((daeEnumType*)type)->_strings->append("GEQUAL"); ((daeEnumType*)type)->_values->append(GL_FUNC_TYPE_GEQUAL); ((daeEnumType*)type)->_strings->append("ALWAYS"); ((daeEnumType*)type)->_values->append(GL_FUNC_TYPE_ALWAYS); daeAtomicType::append( type ); // ENUM: Gl_stencil_op_type type = new daeEnumType; type->_nameBindings.append("Gl_stencil_op_type"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("KEEP"); ((daeEnumType*)type)->_values->append(GL_STENCIL_OP_TYPE_KEEP); ((daeEnumType*)type)->_strings->append("ZERO"); ((daeEnumType*)type)->_values->append(GL_STENCIL_OP_TYPE_ZERO); ((daeEnumType*)type)->_strings->append("REPLACE"); ((daeEnumType*)type)->_values->append(GL_STENCIL_OP_TYPE_REPLACE); ((daeEnumType*)type)->_strings->append("INCR"); ((daeEnumType*)type)->_values->append(GL_STENCIL_OP_TYPE_INCR); ((daeEnumType*)type)->_strings->append("DECR"); ((daeEnumType*)type)->_values->append(GL_STENCIL_OP_TYPE_DECR); ((daeEnumType*)type)->_strings->append("INVERT"); ((daeEnumType*)type)->_values->append(GL_STENCIL_OP_TYPE_INVERT); ((daeEnumType*)type)->_strings->append("INCR_WRAP"); ((daeEnumType*)type)->_values->append(GL_STENCIL_OP_TYPE_INCR_WRAP); ((daeEnumType*)type)->_strings->append("DECR_WRAP"); ((daeEnumType*)type)->_values->append(GL_STENCIL_OP_TYPE_DECR_WRAP); daeAtomicType::append( type ); // ENUM: Gl_material_type type = new daeEnumType; type->_nameBindings.append("Gl_material_type"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("EMISSION"); ((daeEnumType*)type)->_values->append(GL_MATERIAL_TYPE_EMISSION); ((daeEnumType*)type)->_strings->append("AMBIENT"); ((daeEnumType*)type)->_values->append(GL_MATERIAL_TYPE_AMBIENT); ((daeEnumType*)type)->_strings->append("DIFFUSE"); ((daeEnumType*)type)->_values->append(GL_MATERIAL_TYPE_DIFFUSE); ((daeEnumType*)type)->_strings->append("SPECULAR"); ((daeEnumType*)type)->_values->append(GL_MATERIAL_TYPE_SPECULAR); ((daeEnumType*)type)->_strings->append("AMBIENT_AND_DIFFUSE"); ((daeEnumType*)type)->_values->append(GL_MATERIAL_TYPE_AMBIENT_AND_DIFFUSE); daeAtomicType::append( type ); // ENUM: Gl_fog_type type = new daeEnumType; type->_nameBindings.append("Gl_fog_type"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("LINEAR"); ((daeEnumType*)type)->_values->append(GL_FOG_TYPE_LINEAR); ((daeEnumType*)type)->_strings->append("EXP"); ((daeEnumType*)type)->_values->append(GL_FOG_TYPE_EXP); ((daeEnumType*)type)->_strings->append("EXP2"); ((daeEnumType*)type)->_values->append(GL_FOG_TYPE_EXP2); daeAtomicType::append( type ); // ENUM: Gl_fog_coord_src_type type = new daeEnumType; type->_nameBindings.append("Gl_fog_coord_src_type"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("FOG_COORDINATE"); ((daeEnumType*)type)->_values->append(GL_FOG_COORD_SRC_TYPE_FOG_COORDINATE); ((daeEnumType*)type)->_strings->append("FRAGMENT_DEPTH"); ((daeEnumType*)type)->_values->append(GL_FOG_COORD_SRC_TYPE_FRAGMENT_DEPTH); daeAtomicType::append( type ); // ENUM: Gl_front_face_type type = new daeEnumType; type->_nameBindings.append("Gl_front_face_type"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("CW"); ((daeEnumType*)type)->_values->append(GL_FRONT_FACE_TYPE_CW); ((daeEnumType*)type)->_strings->append("CCW"); ((daeEnumType*)type)->_values->append(GL_FRONT_FACE_TYPE_CCW); daeAtomicType::append( type ); // ENUM: Gl_light_model_color_control_type type = new daeEnumType; type->_nameBindings.append("Gl_light_model_color_control_type"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("SINGLE_COLOR"); ((daeEnumType*)type)->_values->append(GL_LIGHT_MODEL_COLOR_CONTROL_TYPE_SINGLE_COLOR); ((daeEnumType*)type)->_strings->append("SEPARATE_SPECULAR_COLOR"); ((daeEnumType*)type)->_values->append(GL_LIGHT_MODEL_COLOR_CONTROL_TYPE_SEPARATE_SPECULAR_COLOR); daeAtomicType::append( type ); // ENUM: Gl_logic_op_type type = new daeEnumType; type->_nameBindings.append("Gl_logic_op_type"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("CLEAR"); ((daeEnumType*)type)->_values->append(GL_LOGIC_OP_TYPE_CLEAR); ((daeEnumType*)type)->_strings->append("AND"); ((daeEnumType*)type)->_values->append(GL_LOGIC_OP_TYPE_AND); ((daeEnumType*)type)->_strings->append("AND_REVERSE"); ((daeEnumType*)type)->_values->append(GL_LOGIC_OP_TYPE_AND_REVERSE); ((daeEnumType*)type)->_strings->append("COPY"); ((daeEnumType*)type)->_values->append(GL_LOGIC_OP_TYPE_COPY); ((daeEnumType*)type)->_strings->append("AND_INVERTED"); ((daeEnumType*)type)->_values->append(GL_LOGIC_OP_TYPE_AND_INVERTED); ((daeEnumType*)type)->_strings->append("NOOP"); ((daeEnumType*)type)->_values->append(GL_LOGIC_OP_TYPE_NOOP); ((daeEnumType*)type)->_strings->append("XOR"); ((daeEnumType*)type)->_values->append(GL_LOGIC_OP_TYPE_XOR); ((daeEnumType*)type)->_strings->append("OR"); ((daeEnumType*)type)->_values->append(GL_LOGIC_OP_TYPE_OR); ((daeEnumType*)type)->_strings->append("NOR"); ((daeEnumType*)type)->_values->append(GL_LOGIC_OP_TYPE_NOR); ((daeEnumType*)type)->_strings->append("EQUIV"); ((daeEnumType*)type)->_values->append(GL_LOGIC_OP_TYPE_EQUIV); ((daeEnumType*)type)->_strings->append("INVERT"); ((daeEnumType*)type)->_values->append(GL_LOGIC_OP_TYPE_INVERT); ((daeEnumType*)type)->_strings->append("OR_REVERSE"); ((daeEnumType*)type)->_values->append(GL_LOGIC_OP_TYPE_OR_REVERSE); ((daeEnumType*)type)->_strings->append("COPY_INVERTED"); ((daeEnumType*)type)->_values->append(GL_LOGIC_OP_TYPE_COPY_INVERTED); ((daeEnumType*)type)->_strings->append("NAND"); ((daeEnumType*)type)->_values->append(GL_LOGIC_OP_TYPE_NAND); ((daeEnumType*)type)->_strings->append("SET"); ((daeEnumType*)type)->_values->append(GL_LOGIC_OP_TYPE_SET); daeAtomicType::append( type ); // ENUM: Gl_polygon_mode_type type = new daeEnumType; type->_nameBindings.append("Gl_polygon_mode_type"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("POINT"); ((daeEnumType*)type)->_values->append(GL_POLYGON_MODE_TYPE_POINT); ((daeEnumType*)type)->_strings->append("LINE"); ((daeEnumType*)type)->_values->append(GL_POLYGON_MODE_TYPE_LINE); ((daeEnumType*)type)->_strings->append("FILL"); ((daeEnumType*)type)->_values->append(GL_POLYGON_MODE_TYPE_FILL); daeAtomicType::append( type ); // ENUM: Gl_shade_model_type type = new daeEnumType; type->_nameBindings.append("Gl_shade_model_type"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("FLAT"); ((daeEnumType*)type)->_values->append(GL_SHADE_MODEL_TYPE_FLAT); ((daeEnumType*)type)->_strings->append("SMOOTH"); ((daeEnumType*)type)->_values->append(GL_SHADE_MODEL_TYPE_SMOOTH); daeAtomicType::append( type ); // TYPEDEF: Gl_alpha_value_type //check if this type has an existing base type = daeAtomicType::get("xsFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Gl_alpha_value_type"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Gl_alpha_value_type"); } // ENUM: Gl_enumeration type = new daeEnumType; type->_nameBindings.append("Gl_enumeration"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("ZERO"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_ZERO); ((daeEnumType*)type)->_strings->append("ONE"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_ONE); ((daeEnumType*)type)->_strings->append("SRC_COLOR"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_SRC_COLOR); ((daeEnumType*)type)->_strings->append("ONE_MINUS_SRC_COLOR"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_ONE_MINUS_SRC_COLOR); ((daeEnumType*)type)->_strings->append("DEST_COLOR"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_DEST_COLOR); ((daeEnumType*)type)->_strings->append("ONE_MINUS_DEST_COLOR"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_ONE_MINUS_DEST_COLOR); ((daeEnumType*)type)->_strings->append("SRC_ALPHA"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_SRC_ALPHA); ((daeEnumType*)type)->_strings->append("ONE_MINUS_SRC_ALPHA"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_ONE_MINUS_SRC_ALPHA); ((daeEnumType*)type)->_strings->append("DST_ALPHA"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_DST_ALPHA); ((daeEnumType*)type)->_strings->append("ONE_MINUS_DST_ALPHA"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_ONE_MINUS_DST_ALPHA); ((daeEnumType*)type)->_strings->append("CONSTANT_COLOR"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_CONSTANT_COLOR); ((daeEnumType*)type)->_strings->append("ONE_MINUS_CONSTANT_COLOR"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_ONE_MINUS_CONSTANT_COLOR); ((daeEnumType*)type)->_strings->append("CONSTANT_ALPHA"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_CONSTANT_ALPHA); ((daeEnumType*)type)->_strings->append("ONE_MINUS_CONSTANT_ALPHA"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_ONE_MINUS_CONSTANT_ALPHA); ((daeEnumType*)type)->_strings->append("SRC_ALPHA_SATURATE"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_SRC_ALPHA_SATURATE); ((daeEnumType*)type)->_strings->append("FRONT"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_FRONT); ((daeEnumType*)type)->_strings->append("BACK"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_BACK); ((daeEnumType*)type)->_strings->append("FRONT_AND_BACK"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_FRONT_AND_BACK); ((daeEnumType*)type)->_strings->append("FUNC_ADD"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_FUNC_ADD); ((daeEnumType*)type)->_strings->append("FUNC_SUBTRACT"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_FUNC_SUBTRACT); ((daeEnumType*)type)->_strings->append("FUNC_REVERSE_SUBTRACT"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_FUNC_REVERSE_SUBTRACT); ((daeEnumType*)type)->_strings->append("MIN"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_MIN); ((daeEnumType*)type)->_strings->append("MAX"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_MAX); ((daeEnumType*)type)->_strings->append("NEVER"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_NEVER); ((daeEnumType*)type)->_strings->append("LESS"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_LESS); ((daeEnumType*)type)->_strings->append("LEQUAL"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_LEQUAL); ((daeEnumType*)type)->_strings->append("EQUAL"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_EQUAL); ((daeEnumType*)type)->_strings->append("GREATER"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_GREATER); ((daeEnumType*)type)->_strings->append("NOTEQUAL"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_NOTEQUAL); ((daeEnumType*)type)->_strings->append("GEQUAL"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_GEQUAL); ((daeEnumType*)type)->_strings->append("ALWAYS"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_ALWAYS); ((daeEnumType*)type)->_strings->append("KEEP"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_KEEP); ((daeEnumType*)type)->_strings->append("REPLACE"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_REPLACE); ((daeEnumType*)type)->_strings->append("INCR"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_INCR); ((daeEnumType*)type)->_strings->append("DECR"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_DECR); ((daeEnumType*)type)->_strings->append("INVERT"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_INVERT); ((daeEnumType*)type)->_strings->append("INCR_WRAP"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_INCR_WRAP); ((daeEnumType*)type)->_strings->append("DECR_WRAP"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_DECR_WRAP); ((daeEnumType*)type)->_strings->append("EMISSION"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_EMISSION); ((daeEnumType*)type)->_strings->append("AMBIENT"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_AMBIENT); ((daeEnumType*)type)->_strings->append("DIFFUSE"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_DIFFUSE); ((daeEnumType*)type)->_strings->append("SPECULAR"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_SPECULAR); ((daeEnumType*)type)->_strings->append("AMBIENT_AND_DIFFUSE"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_AMBIENT_AND_DIFFUSE); ((daeEnumType*)type)->_strings->append("LINEAR"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_LINEAR); ((daeEnumType*)type)->_strings->append("EXP"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_EXP); ((daeEnumType*)type)->_strings->append("EXP2"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_EXP2); ((daeEnumType*)type)->_strings->append("FOG_COORDINATE"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_FOG_COORDINATE); ((daeEnumType*)type)->_strings->append("FRAGMENT_DEPTH"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_FRAGMENT_DEPTH); ((daeEnumType*)type)->_strings->append("CW"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_CW); ((daeEnumType*)type)->_strings->append("CCW"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_CCW); ((daeEnumType*)type)->_strings->append("SINGLE_COLOR"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_SINGLE_COLOR); ((daeEnumType*)type)->_strings->append("SEPARATE_SPECULAR_COLOR"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_SEPARATE_SPECULAR_COLOR); ((daeEnumType*)type)->_strings->append("CLEAR"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_CLEAR); ((daeEnumType*)type)->_strings->append("AND"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_AND); ((daeEnumType*)type)->_strings->append("AND_REVERSE"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_AND_REVERSE); ((daeEnumType*)type)->_strings->append("COPY"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_COPY); ((daeEnumType*)type)->_strings->append("AND_INVERTED"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_AND_INVERTED); ((daeEnumType*)type)->_strings->append("NOOP"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_NOOP); ((daeEnumType*)type)->_strings->append("XOR"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_XOR); ((daeEnumType*)type)->_strings->append("OR"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_OR); ((daeEnumType*)type)->_strings->append("NOR"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_NOR); ((daeEnumType*)type)->_strings->append("EQUIV"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_EQUIV); ((daeEnumType*)type)->_strings->append("OR_REVERSE"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_OR_REVERSE); ((daeEnumType*)type)->_strings->append("COPY_INVERTED"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_COPY_INVERTED); ((daeEnumType*)type)->_strings->append("NAND"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_NAND); ((daeEnumType*)type)->_strings->append("SET"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_SET); ((daeEnumType*)type)->_strings->append("POINT"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_POINT); ((daeEnumType*)type)->_strings->append("LINE"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_LINE); ((daeEnumType*)type)->_strings->append("FILL"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_FILL); ((daeEnumType*)type)->_strings->append("FLAT"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_FLAT); ((daeEnumType*)type)->_strings->append("SMOOTH"); ((daeEnumType*)type)->_values->append(GL_ENUMERATION_SMOOTH); daeAtomicType::append( type ); // TYPEDEF: Glsl_float //check if this type has an existing base type = daeAtomicType::get("xsFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Glsl_float"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Glsl_float"); } // TYPEDEF: Glsl_int //check if this type has an existing base type = daeAtomicType::get("xsInt"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Glsl_int"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Glsl_int"); } // TYPEDEF: Glsl_bool //check if this type has an existing base type = daeAtomicType::get("xsBoolean"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Glsl_bool"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Glsl_bool"); } // TYPEDEF: Glsl_ListOfBool //check if this type has an existing base type = daeAtomicType::get("Glsl_bool"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Glsl_ListOfBool"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Glsl_ListOfBool"); } // TYPEDEF: Glsl_ListOfFloat //check if this type has an existing base type = daeAtomicType::get("Glsl_float"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Glsl_ListOfFloat"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Glsl_ListOfFloat"); } // TYPEDEF: Glsl_ListOfInt //check if this type has an existing base type = daeAtomicType::get("Glsl_int"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Glsl_ListOfInt"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Glsl_ListOfInt"); } // TYPEDEF: Glsl_bool2 //check if this type has an existing base type = daeAtomicType::get("Glsl_ListOfBool"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Glsl_bool2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Glsl_bool2"); } // TYPEDEF: Glsl_bool3 //check if this type has an existing base type = daeAtomicType::get("Glsl_ListOfBool"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Glsl_bool3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Glsl_bool3"); } // TYPEDEF: Glsl_bool4 //check if this type has an existing base type = daeAtomicType::get("Glsl_ListOfBool"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Glsl_bool4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Glsl_bool4"); } // TYPEDEF: Glsl_float2 //check if this type has an existing base type = daeAtomicType::get("Glsl_ListOfFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Glsl_float2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Glsl_float2"); } // TYPEDEF: Glsl_float3 //check if this type has an existing base type = daeAtomicType::get("Glsl_ListOfFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Glsl_float3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Glsl_float3"); } // TYPEDEF: Glsl_float4 //check if this type has an existing base type = daeAtomicType::get("Glsl_ListOfFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Glsl_float4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Glsl_float4"); } // TYPEDEF: Glsl_float2x2 //check if this type has an existing base type = daeAtomicType::get("Glsl_ListOfFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Glsl_float2x2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Glsl_float2x2"); } // TYPEDEF: Glsl_float3x3 //check if this type has an existing base type = daeAtomicType::get("Glsl_ListOfFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Glsl_float3x3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Glsl_float3x3"); } // TYPEDEF: Glsl_float4x4 //check if this type has an existing base type = daeAtomicType::get("Glsl_ListOfFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Glsl_float4x4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Glsl_float4x4"); } // TYPEDEF: Glsl_int2 //check if this type has an existing base type = daeAtomicType::get("Glsl_ListOfInt"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Glsl_int2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Glsl_int2"); } // TYPEDEF: Glsl_int3 //check if this type has an existing base type = daeAtomicType::get("Glsl_ListOfInt"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Glsl_int3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Glsl_int3"); } // TYPEDEF: Glsl_int4 //check if this type has an existing base type = daeAtomicType::get("Glsl_ListOfInt"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Glsl_int4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Glsl_int4"); } // ENUM: Glsl_pipeline_stage type = new daeEnumType; type->_nameBindings.append("Glsl_pipeline_stage"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("VERTEXPROGRAM"); ((daeEnumType*)type)->_values->append(GLSL_PIPELINE_STAGE_VERTEXPROGRAM); ((daeEnumType*)type)->_strings->append("FRAGMENTPROGRAM"); ((daeEnumType*)type)->_values->append(GLSL_PIPELINE_STAGE_FRAGMENTPROGRAM); daeAtomicType::append( type ); // TYPEDEF: Glsl_identifier //check if this type has an existing base type = daeAtomicType::get("xsToken"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Glsl_identifier"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Glsl_identifier"); } // TYPEDEF: Cg_bool //check if this type has an existing base type = daeAtomicType::get("xsBoolean"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_bool"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_bool"); } // TYPEDEF: Cg_float //check if this type has an existing base type = daeAtomicType::get("xsFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_float"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_float"); } // TYPEDEF: Cg_int //check if this type has an existing base type = daeAtomicType::get("xsInt"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_int"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_int"); } // TYPEDEF: Cg_half //check if this type has an existing base type = daeAtomicType::get("xsFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_half"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_half"); } // TYPEDEF: Cg_fixed //check if this type has an existing base type = daeAtomicType::get("xsFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_fixed"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_fixed"); } // TYPEDEF: Cg_bool1 //check if this type has an existing base type = daeAtomicType::get("xsBoolean"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_bool1"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_bool1"); } // TYPEDEF: Cg_float1 //check if this type has an existing base type = daeAtomicType::get("xsFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_float1"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_float1"); } // TYPEDEF: Cg_int1 //check if this type has an existing base type = daeAtomicType::get("xsInt"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_int1"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_int1"); } // TYPEDEF: Cg_half1 //check if this type has an existing base type = daeAtomicType::get("xsFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_half1"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_half1"); } // TYPEDEF: Cg_fixed1 //check if this type has an existing base type = daeAtomicType::get("xsFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_fixed1"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_fixed1"); } // TYPEDEF: Cg_ListOfBool //check if this type has an existing base type = daeAtomicType::get("Cg_bool"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_ListOfBool"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_ListOfBool"); } // TYPEDEF: Cg_ListOfFloat //check if this type has an existing base type = daeAtomicType::get("Cg_float"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_ListOfFloat"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_ListOfFloat"); } // TYPEDEF: Cg_ListOfInt //check if this type has an existing base type = daeAtomicType::get("Cg_int"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_ListOfInt"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_ListOfInt"); } // TYPEDEF: Cg_ListOfHalf //check if this type has an existing base type = daeAtomicType::get("Cg_half"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_ListOfHalf"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_ListOfHalf"); } // TYPEDEF: Cg_ListOfFixed //check if this type has an existing base type = daeAtomicType::get("Cg_fixed"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_ListOfFixed"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_ListOfFixed"); } // TYPEDEF: Cg_bool2 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfBool"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_bool2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_bool2"); } // TYPEDEF: Cg_bool3 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfBool"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_bool3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_bool3"); } // TYPEDEF: Cg_bool4 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfBool"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_bool4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_bool4"); } // TYPEDEF: Cg_bool1x1 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfBool"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_bool1x1"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_bool1x1"); } // TYPEDEF: Cg_bool1x2 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfBool"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_bool1x2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_bool1x2"); } // TYPEDEF: Cg_bool1x3 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfBool"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_bool1x3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_bool1x3"); } // TYPEDEF: Cg_bool1x4 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfBool"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_bool1x4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_bool1x4"); } // TYPEDEF: Cg_bool2x1 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfBool"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_bool2x1"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_bool2x1"); } // TYPEDEF: Cg_bool2x2 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfBool"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_bool2x2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_bool2x2"); } // TYPEDEF: Cg_bool2x3 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfBool"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_bool2x3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_bool2x3"); } // TYPEDEF: Cg_bool2x4 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfBool"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_bool2x4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_bool2x4"); } // TYPEDEF: Cg_bool3x1 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfBool"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_bool3x1"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_bool3x1"); } // TYPEDEF: Cg_bool3x2 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfBool"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_bool3x2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_bool3x2"); } // TYPEDEF: Cg_bool3x3 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfBool"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_bool3x3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_bool3x3"); } // TYPEDEF: Cg_bool3x4 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfBool"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_bool3x4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_bool3x4"); } // TYPEDEF: Cg_bool4x1 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfBool"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_bool4x1"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_bool4x1"); } // TYPEDEF: Cg_bool4x2 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfBool"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_bool4x2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_bool4x2"); } // TYPEDEF: Cg_bool4x3 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfBool"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_bool4x3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_bool4x3"); } // TYPEDEF: Cg_bool4x4 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfBool"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_bool4x4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_bool4x4"); } // TYPEDEF: Cg_float2 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_float2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_float2"); } // TYPEDEF: Cg_float3 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_float3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_float3"); } // TYPEDEF: Cg_float4 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_float4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_float4"); } // TYPEDEF: Cg_float1x1 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_float1x1"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_float1x1"); } // TYPEDEF: Cg_float1x2 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_float1x2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_float1x2"); } // TYPEDEF: Cg_float1x3 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_float1x3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_float1x3"); } // TYPEDEF: Cg_float1x4 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_float1x4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_float1x4"); } // TYPEDEF: Cg_float2x1 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_float2x1"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_float2x1"); } // TYPEDEF: Cg_float2x2 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_float2x2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_float2x2"); } // TYPEDEF: Cg_float2x3 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_float2x3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_float2x3"); } // TYPEDEF: Cg_float2x4 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_float2x4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_float2x4"); } // TYPEDEF: Cg_float3x1 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_float3x1"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_float3x1"); } // TYPEDEF: Cg_float3x2 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_float3x2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_float3x2"); } // TYPEDEF: Cg_float3x3 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_float3x3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_float3x3"); } // TYPEDEF: Cg_float3x4 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_float3x4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_float3x4"); } // TYPEDEF: Cg_float4x1 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_float4x1"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_float4x1"); } // TYPEDEF: Cg_float4x2 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_float4x2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_float4x2"); } // TYPEDEF: Cg_float4x3 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_float4x3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_float4x3"); } // TYPEDEF: Cg_float4x4 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFloat"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_float4x4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_float4x4"); } // TYPEDEF: Cg_int2 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfInt"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_int2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_int2"); } // TYPEDEF: Cg_int3 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfInt"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_int3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_int3"); } // TYPEDEF: Cg_int4 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfInt"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_int4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_int4"); } // TYPEDEF: Cg_int1x1 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfInt"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_int1x1"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_int1x1"); } // TYPEDEF: Cg_int1x2 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfInt"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_int1x2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_int1x2"); } // TYPEDEF: Cg_int1x3 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfInt"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_int1x3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_int1x3"); } // TYPEDEF: Cg_int1x4 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfInt"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_int1x4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_int1x4"); } // TYPEDEF: Cg_int2x1 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfInt"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_int2x1"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_int2x1"); } // TYPEDEF: Cg_int2x2 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfInt"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_int2x2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_int2x2"); } // TYPEDEF: Cg_int2x3 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfInt"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_int2x3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_int2x3"); } // TYPEDEF: Cg_int2x4 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfInt"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_int2x4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_int2x4"); } // TYPEDEF: Cg_int3x1 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfInt"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_int3x1"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_int3x1"); } // TYPEDEF: Cg_int3x2 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfInt"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_int3x2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_int3x2"); } // TYPEDEF: Cg_int3x3 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfInt"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_int3x3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_int3x3"); } // TYPEDEF: Cg_int3x4 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfInt"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_int3x4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_int3x4"); } // TYPEDEF: Cg_int4x1 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfInt"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_int4x1"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_int4x1"); } // TYPEDEF: Cg_int4x2 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfInt"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_int4x2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_int4x2"); } // TYPEDEF: Cg_int4x3 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfInt"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_int4x3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_int4x3"); } // TYPEDEF: Cg_int4x4 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfInt"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_int4x4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_int4x4"); } // TYPEDEF: Cg_half2 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfHalf"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_half2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_half2"); } // TYPEDEF: Cg_half3 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfHalf"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_half3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_half3"); } // TYPEDEF: Cg_half4 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfHalf"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_half4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_half4"); } // TYPEDEF: Cg_half1x1 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfHalf"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_half1x1"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_half1x1"); } // TYPEDEF: Cg_half1x2 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfHalf"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_half1x2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_half1x2"); } // TYPEDEF: Cg_half1x3 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfHalf"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_half1x3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_half1x3"); } // TYPEDEF: Cg_half1x4 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfHalf"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_half1x4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_half1x4"); } // TYPEDEF: Cg_half2x1 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfHalf"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_half2x1"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_half2x1"); } // TYPEDEF: Cg_half2x2 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfHalf"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_half2x2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_half2x2"); } // TYPEDEF: Cg_half2x3 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfHalf"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_half2x3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_half2x3"); } // TYPEDEF: Cg_half2x4 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfHalf"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_half2x4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_half2x4"); } // TYPEDEF: Cg_half3x1 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfHalf"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_half3x1"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_half3x1"); } // TYPEDEF: Cg_half3x2 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfHalf"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_half3x2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_half3x2"); } // TYPEDEF: Cg_half3x3 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfHalf"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_half3x3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_half3x3"); } // TYPEDEF: Cg_half3x4 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfHalf"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_half3x4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_half3x4"); } // TYPEDEF: Cg_half4x1 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfHalf"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_half4x1"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_half4x1"); } // TYPEDEF: Cg_half4x2 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfHalf"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_half4x2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_half4x2"); } // TYPEDEF: Cg_half4x3 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfHalf"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_half4x3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_half4x3"); } // TYPEDEF: Cg_half4x4 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfHalf"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_half4x4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_half4x4"); } // TYPEDEF: Cg_fixed2 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFixed"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_fixed2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_fixed2"); } // TYPEDEF: Cg_fixed3 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFixed"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_fixed3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_fixed3"); } // TYPEDEF: Cg_fixed4 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFixed"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_fixed4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_fixed4"); } // TYPEDEF: Cg_fixed1x1 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFixed"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_fixed1x1"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_fixed1x1"); } // TYPEDEF: Cg_fixed1x2 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFixed"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_fixed1x2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_fixed1x2"); } // TYPEDEF: Cg_fixed1x3 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFixed"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_fixed1x3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_fixed1x3"); } // TYPEDEF: Cg_fixed1x4 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFixed"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_fixed1x4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_fixed1x4"); } // TYPEDEF: Cg_fixed2x1 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFixed"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_fixed2x1"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_fixed2x1"); } // TYPEDEF: Cg_fixed2x2 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFixed"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_fixed2x2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_fixed2x2"); } // TYPEDEF: Cg_fixed2x3 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFixed"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_fixed2x3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_fixed2x3"); } // TYPEDEF: Cg_fixed2x4 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFixed"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_fixed2x4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_fixed2x4"); } // TYPEDEF: Cg_fixed3x1 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFixed"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_fixed3x1"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_fixed3x1"); } // TYPEDEF: Cg_fixed3x2 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFixed"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_fixed3x2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_fixed3x2"); } // TYPEDEF: Cg_fixed3x3 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFixed"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_fixed3x3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_fixed3x3"); } // TYPEDEF: Cg_fixed3x4 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFixed"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_fixed3x4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_fixed3x4"); } // TYPEDEF: Cg_fixed4x1 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFixed"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_fixed4x1"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_fixed4x1"); } // TYPEDEF: Cg_fixed4x2 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFixed"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_fixed4x2"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_fixed4x2"); } // TYPEDEF: Cg_fixed4x3 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFixed"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_fixed4x3"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_fixed4x3"); } // TYPEDEF: Cg_fixed4x4 //check if this type has an existing base type = daeAtomicType::get("Cg_ListOfFixed"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_fixed4x4"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_fixed4x4"); } // ENUM: Cg_pipeline_stage type = new daeEnumType; type->_nameBindings.append("Cg_pipeline_stage"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("VERTEX"); ((daeEnumType*)type)->_values->append(CG_PIPELINE_STAGE_VERTEX); ((daeEnumType*)type)->_strings->append("FRAGMENT"); ((daeEnumType*)type)->_values->append(CG_PIPELINE_STAGE_FRAGMENT); daeAtomicType::append( type ); // TYPEDEF: Cg_identifier //check if this type has an existing base type = daeAtomicType::get("xsToken"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Cg_identifier"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Cg_identifier"); } // TYPEDEF: GLES_MAX_LIGHTS_index //check if this type has an existing base type = daeAtomicType::get("xsNonNegativeInteger"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("GLES_MAX_LIGHTS_index"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("GLES_MAX_LIGHTS_index"); } // TYPEDEF: GLES_MAX_CLIP_PLANES_index //check if this type has an existing base type = daeAtomicType::get("xsNonNegativeInteger"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("GLES_MAX_CLIP_PLANES_index"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("GLES_MAX_CLIP_PLANES_index"); } // TYPEDEF: GLES_MAX_TEXTURE_COORDS_index //check if this type has an existing base type = daeAtomicType::get("xsNonNegativeInteger"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("GLES_MAX_TEXTURE_COORDS_index"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("GLES_MAX_TEXTURE_COORDS_index"); } // TYPEDEF: GLES_MAX_TEXTURE_IMAGE_UNITS_index //check if this type has an existing base type = daeAtomicType::get("xsNonNegativeInteger"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("GLES_MAX_TEXTURE_IMAGE_UNITS_index"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("GLES_MAX_TEXTURE_IMAGE_UNITS_index"); } // ENUM: Gles_texenv_mode_enums type = new daeEnumType; type->_nameBindings.append("Gles_texenv_mode_enums"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("REPLACE"); ((daeEnumType*)type)->_values->append(GLES_TEXENV_MODE_ENUMS_REPLACE); ((daeEnumType*)type)->_strings->append("MODULATE"); ((daeEnumType*)type)->_values->append(GLES_TEXENV_MODE_ENUMS_MODULATE); ((daeEnumType*)type)->_strings->append("DECAL"); ((daeEnumType*)type)->_values->append(GLES_TEXENV_MODE_ENUMS_DECAL); ((daeEnumType*)type)->_strings->append("BLEND"); ((daeEnumType*)type)->_values->append(GLES_TEXENV_MODE_ENUMS_BLEND); ((daeEnumType*)type)->_strings->append("ADD"); ((daeEnumType*)type)->_values->append(GLES_TEXENV_MODE_ENUMS_ADD); daeAtomicType::append( type ); // ENUM: Gles_texcombiner_operatorRGB_enums type = new daeEnumType; type->_nameBindings.append("Gles_texcombiner_operatorRGB_enums"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("REPLACE"); ((daeEnumType*)type)->_values->append(GLES_TEXCOMBINER_OPERATORRGB_ENUMS_REPLACE); ((daeEnumType*)type)->_strings->append("MODULATE"); ((daeEnumType*)type)->_values->append(GLES_TEXCOMBINER_OPERATORRGB_ENUMS_MODULATE); ((daeEnumType*)type)->_strings->append("ADD"); ((daeEnumType*)type)->_values->append(GLES_TEXCOMBINER_OPERATORRGB_ENUMS_ADD); ((daeEnumType*)type)->_strings->append("ADD_SIGNED"); ((daeEnumType*)type)->_values->append(GLES_TEXCOMBINER_OPERATORRGB_ENUMS_ADD_SIGNED); ((daeEnumType*)type)->_strings->append("INTERPOLATE"); ((daeEnumType*)type)->_values->append(GLES_TEXCOMBINER_OPERATORRGB_ENUMS_INTERPOLATE); ((daeEnumType*)type)->_strings->append("SUBTRACT"); ((daeEnumType*)type)->_values->append(GLES_TEXCOMBINER_OPERATORRGB_ENUMS_SUBTRACT); ((daeEnumType*)type)->_strings->append("DOT3_RGB"); ((daeEnumType*)type)->_values->append(GLES_TEXCOMBINER_OPERATORRGB_ENUMS_DOT3_RGB); ((daeEnumType*)type)->_strings->append("DOT3_RGBA"); ((daeEnumType*)type)->_values->append(GLES_TEXCOMBINER_OPERATORRGB_ENUMS_DOT3_RGBA); daeAtomicType::append( type ); // ENUM: Gles_texcombiner_operatorAlpha_enums type = new daeEnumType; type->_nameBindings.append("Gles_texcombiner_operatorAlpha_enums"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("REPLACE"); ((daeEnumType*)type)->_values->append(GLES_TEXCOMBINER_OPERATORALPHA_ENUMS_REPLACE); ((daeEnumType*)type)->_strings->append("MODULATE"); ((daeEnumType*)type)->_values->append(GLES_TEXCOMBINER_OPERATORALPHA_ENUMS_MODULATE); ((daeEnumType*)type)->_strings->append("ADD"); ((daeEnumType*)type)->_values->append(GLES_TEXCOMBINER_OPERATORALPHA_ENUMS_ADD); ((daeEnumType*)type)->_strings->append("ADD_SIGNED"); ((daeEnumType*)type)->_values->append(GLES_TEXCOMBINER_OPERATORALPHA_ENUMS_ADD_SIGNED); ((daeEnumType*)type)->_strings->append("INTERPOLATE"); ((daeEnumType*)type)->_values->append(GLES_TEXCOMBINER_OPERATORALPHA_ENUMS_INTERPOLATE); ((daeEnumType*)type)->_strings->append("SUBTRACT"); ((daeEnumType*)type)->_values->append(GLES_TEXCOMBINER_OPERATORALPHA_ENUMS_SUBTRACT); daeAtomicType::append( type ); // ENUM: Gles_texcombiner_source_enums type = new daeEnumType; type->_nameBindings.append("Gles_texcombiner_source_enums"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("TEXTURE"); ((daeEnumType*)type)->_values->append(GLES_TEXCOMBINER_SOURCE_ENUMS_TEXTURE); ((daeEnumType*)type)->_strings->append("CONSTANT"); ((daeEnumType*)type)->_values->append(GLES_TEXCOMBINER_SOURCE_ENUMS_CONSTANT); ((daeEnumType*)type)->_strings->append("PRIMARY"); ((daeEnumType*)type)->_values->append(GLES_TEXCOMBINER_SOURCE_ENUMS_PRIMARY); ((daeEnumType*)type)->_strings->append("PREVIOUS"); ((daeEnumType*)type)->_values->append(GLES_TEXCOMBINER_SOURCE_ENUMS_PREVIOUS); daeAtomicType::append( type ); // ENUM: Gles_texcombiner_operandRGB_enums type = new daeEnumType; type->_nameBindings.append("Gles_texcombiner_operandRGB_enums"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("SRC_COLOR"); ((daeEnumType*)type)->_values->append(GLES_TEXCOMBINER_OPERANDRGB_ENUMS_SRC_COLOR); ((daeEnumType*)type)->_strings->append("ONE_MINUS_SRC_COLOR"); ((daeEnumType*)type)->_values->append(GLES_TEXCOMBINER_OPERANDRGB_ENUMS_ONE_MINUS_SRC_COLOR); ((daeEnumType*)type)->_strings->append("SRC_ALPHA"); ((daeEnumType*)type)->_values->append(GLES_TEXCOMBINER_OPERANDRGB_ENUMS_SRC_ALPHA); ((daeEnumType*)type)->_strings->append("ONE_MINUS_SRC_ALPHA"); ((daeEnumType*)type)->_values->append(GLES_TEXCOMBINER_OPERANDRGB_ENUMS_ONE_MINUS_SRC_ALPHA); daeAtomicType::append( type ); // ENUM: Gles_texcombiner_operandAlpha_enums type = new daeEnumType; type->_nameBindings.append("Gles_texcombiner_operandAlpha_enums"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("SRC_ALPHA"); ((daeEnumType*)type)->_values->append(GLES_TEXCOMBINER_OPERANDALPHA_ENUMS_SRC_ALPHA); ((daeEnumType*)type)->_strings->append("ONE_MINUS_SRC_ALPHA"); ((daeEnumType*)type)->_values->append(GLES_TEXCOMBINER_OPERANDALPHA_ENUMS_ONE_MINUS_SRC_ALPHA); daeAtomicType::append( type ); // TYPEDEF: Gles_texcombiner_argument_index_type //check if this type has an existing base type = daeAtomicType::get("xsNonNegativeInteger"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Gles_texcombiner_argument_index_type"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Gles_texcombiner_argument_index_type"); } // ENUM: Gles_sampler_wrap type = new daeEnumType; type->_nameBindings.append("Gles_sampler_wrap"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("REPEAT"); ((daeEnumType*)type)->_values->append(GLES_SAMPLER_WRAP_REPEAT); ((daeEnumType*)type)->_strings->append("CLAMP"); ((daeEnumType*)type)->_values->append(GLES_SAMPLER_WRAP_CLAMP); ((daeEnumType*)type)->_strings->append("CLAMP_TO_EDGE"); ((daeEnumType*)type)->_values->append(GLES_SAMPLER_WRAP_CLAMP_TO_EDGE); ((daeEnumType*)type)->_strings->append("MIRRORED_REPEAT"); ((daeEnumType*)type)->_values->append(GLES_SAMPLER_WRAP_MIRRORED_REPEAT); daeAtomicType::append( type ); // ENUM: Gles_stencil_op_type type = new daeEnumType; type->_nameBindings.append("Gles_stencil_op_type"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("KEEP"); ((daeEnumType*)type)->_values->append(GLES_STENCIL_OP_TYPE_KEEP); ((daeEnumType*)type)->_strings->append("ZERO"); ((daeEnumType*)type)->_values->append(GLES_STENCIL_OP_TYPE_ZERO); ((daeEnumType*)type)->_strings->append("REPLACE"); ((daeEnumType*)type)->_values->append(GLES_STENCIL_OP_TYPE_REPLACE); ((daeEnumType*)type)->_strings->append("INCR"); ((daeEnumType*)type)->_values->append(GLES_STENCIL_OP_TYPE_INCR); ((daeEnumType*)type)->_strings->append("DECR"); ((daeEnumType*)type)->_values->append(GLES_STENCIL_OP_TYPE_DECR); ((daeEnumType*)type)->_strings->append("INVERT"); ((daeEnumType*)type)->_values->append(GLES_STENCIL_OP_TYPE_INVERT); daeAtomicType::append( type ); // ENUM: Gles_enumeration type = new daeEnumType; type->_nameBindings.append("Gles_enumeration"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("ZERO"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_ZERO); ((daeEnumType*)type)->_strings->append("ONE"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_ONE); ((daeEnumType*)type)->_strings->append("SRC_COLOR"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_SRC_COLOR); ((daeEnumType*)type)->_strings->append("ONE_MINUS_SRC_COLOR"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_ONE_MINUS_SRC_COLOR); ((daeEnumType*)type)->_strings->append("DEST_COLOR"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_DEST_COLOR); ((daeEnumType*)type)->_strings->append("ONE_MINUS_DEST_COLOR"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_ONE_MINUS_DEST_COLOR); ((daeEnumType*)type)->_strings->append("SRC_ALPHA"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_SRC_ALPHA); ((daeEnumType*)type)->_strings->append("ONE_MINUS_SRC_ALPHA"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_ONE_MINUS_SRC_ALPHA); ((daeEnumType*)type)->_strings->append("DST_ALPHA"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_DST_ALPHA); ((daeEnumType*)type)->_strings->append("ONE_MINUS_DST_ALPHA"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_ONE_MINUS_DST_ALPHA); ((daeEnumType*)type)->_strings->append("CONSTANT_COLOR"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_CONSTANT_COLOR); ((daeEnumType*)type)->_strings->append("ONE_MINUS_CONSTANT_COLOR"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_ONE_MINUS_CONSTANT_COLOR); ((daeEnumType*)type)->_strings->append("CONSTANT_ALPHA"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_CONSTANT_ALPHA); ((daeEnumType*)type)->_strings->append("ONE_MINUS_CONSTANT_ALPHA"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_ONE_MINUS_CONSTANT_ALPHA); ((daeEnumType*)type)->_strings->append("SRC_ALPHA_SATURATE"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_SRC_ALPHA_SATURATE); ((daeEnumType*)type)->_strings->append("FRONT"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_FRONT); ((daeEnumType*)type)->_strings->append("BACK"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_BACK); ((daeEnumType*)type)->_strings->append("FRONT_AND_BACK"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_FRONT_AND_BACK); ((daeEnumType*)type)->_strings->append("NEVER"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_NEVER); ((daeEnumType*)type)->_strings->append("LESS"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_LESS); ((daeEnumType*)type)->_strings->append("LEQUAL"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_LEQUAL); ((daeEnumType*)type)->_strings->append("EQUAL"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_EQUAL); ((daeEnumType*)type)->_strings->append("GREATER"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_GREATER); ((daeEnumType*)type)->_strings->append("NOTEQUAL"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_NOTEQUAL); ((daeEnumType*)type)->_strings->append("GEQUAL"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_GEQUAL); ((daeEnumType*)type)->_strings->append("ALWAYS"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_ALWAYS); ((daeEnumType*)type)->_strings->append("KEEP"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_KEEP); ((daeEnumType*)type)->_strings->append("REPLACE"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_REPLACE); ((daeEnumType*)type)->_strings->append("INCR"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_INCR); ((daeEnumType*)type)->_strings->append("DECR"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_DECR); ((daeEnumType*)type)->_strings->append("INVERT"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_INVERT); ((daeEnumType*)type)->_strings->append("INCR_WRAP"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_INCR_WRAP); ((daeEnumType*)type)->_strings->append("DECR_WRAP"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_DECR_WRAP); ((daeEnumType*)type)->_strings->append("EMISSION"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_EMISSION); ((daeEnumType*)type)->_strings->append("AMBIENT"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_AMBIENT); ((daeEnumType*)type)->_strings->append("DIFFUSE"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_DIFFUSE); ((daeEnumType*)type)->_strings->append("SPECULAR"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_SPECULAR); ((daeEnumType*)type)->_strings->append("AMBIENT_AND_DIFFUSE"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_AMBIENT_AND_DIFFUSE); ((daeEnumType*)type)->_strings->append("LINEAR"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_LINEAR); ((daeEnumType*)type)->_strings->append("EXP"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_EXP); ((daeEnumType*)type)->_strings->append("EXP2"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_EXP2); ((daeEnumType*)type)->_strings->append("CW"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_CW); ((daeEnumType*)type)->_strings->append("CCW"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_CCW); ((daeEnumType*)type)->_strings->append("SINGLE_COLOR"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_SINGLE_COLOR); ((daeEnumType*)type)->_strings->append("SEPARATE_SPECULAR_COLOR"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_SEPARATE_SPECULAR_COLOR); ((daeEnumType*)type)->_strings->append("CLEAR"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_CLEAR); ((daeEnumType*)type)->_strings->append("AND"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_AND); ((daeEnumType*)type)->_strings->append("AND_REVERSE"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_AND_REVERSE); ((daeEnumType*)type)->_strings->append("COPY"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_COPY); ((daeEnumType*)type)->_strings->append("AND_INVERTED"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_AND_INVERTED); ((daeEnumType*)type)->_strings->append("NOOP"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_NOOP); ((daeEnumType*)type)->_strings->append("XOR"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_XOR); ((daeEnumType*)type)->_strings->append("OR"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_OR); ((daeEnumType*)type)->_strings->append("NOR"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_NOR); ((daeEnumType*)type)->_strings->append("EQUIV"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_EQUIV); ((daeEnumType*)type)->_strings->append("OR_REVERSE"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_OR_REVERSE); ((daeEnumType*)type)->_strings->append("COPY_INVERTED"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_COPY_INVERTED); ((daeEnumType*)type)->_strings->append("NAND"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_NAND); ((daeEnumType*)type)->_strings->append("SET"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_SET); ((daeEnumType*)type)->_strings->append("POINT"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_POINT); ((daeEnumType*)type)->_strings->append("LINE"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_LINE); ((daeEnumType*)type)->_strings->append("FILL"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_FILL); ((daeEnumType*)type)->_strings->append("FLAT"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_FLAT); ((daeEnumType*)type)->_strings->append("SMOOTH"); ((daeEnumType*)type)->_values->append(GLES_ENUMERATION_SMOOTH); daeAtomicType::append( type ); // TYPEDEF: Gles_rendertarget_common //check if this type has an existing base type = daeAtomicType::get("xsNCName"); if ( type == NULL ) { //register as a raw type type = new daeRawRefType; type->_nameBindings.append("Gles_rendertarget_common"); daeAtomicType::append( type ); } else { //add binding to existing type type->_nameBindings.append("Gles_rendertarget_common"); } // ENUM: SpringType type = new daeEnumType; type->_nameBindings.append("SpringType"); ((daeEnumType*)type)->_strings = new daeStringRefArray; ((daeEnumType*)type)->_values = new daeEnumArray; ((daeEnumType*)type)->_strings->append("LINEAR"); ((daeEnumType*)type)->_values->append(SPRINGTYPE_LINEAR); ((daeEnumType*)type)->_strings->append("ANGULAR"); ((daeEnumType*)type)->_values->append(SPRINGTYPE_ANGULAR); daeAtomicType::append( type ); } daeMetaElement* registerDomElements() { daeMetaElement* meta = domCOLLADA::registerElement(); // Enable tracking of top level object by default domCOLLADA::_Meta->setIsTrackableForQueries(true); return meta; }
domTypes.cpp
网页地址
文件地址
上一页
170/172
下一页
下载
( 116 KB )
Comments
Total ratings:
0
Average rating:
无评论
of 10
Would you like to comment?
Join now
, or
Logon
if you are already a member.