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312 lines
14 KiB
312 lines
14 KiB
/*==LICENSE==* |
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CyanWorlds.com Engine - MMOG client, server and tools |
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Copyright (C) 2011 Cyan Worlds, Inc. |
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This program is free software: you can redistribute it and/or modify |
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it under the terms of the GNU General Public License as published by |
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the Free Software Foundation, either version 3 of the License, or |
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(at your option) any later version. |
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This program is distributed in the hope that it will be useful, |
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but WITHOUT ANY WARRANTY; without even the implied warranty of |
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
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GNU General Public License for more details. |
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You should have received a copy of the GNU General Public License |
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along with this program. If not, see <http://www.gnu.org/licenses/>. |
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Additional permissions under GNU GPL version 3 section 7 |
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If you modify this Program, or any covered work, by linking or |
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combining it with any of RAD Game Tools Bink SDK, Autodesk 3ds Max SDK, |
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NVIDIA PhysX SDK, Microsoft DirectX SDK, OpenSSL library, Independent |
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JPEG Group JPEG library, Microsoft Windows Media SDK, or Apple QuickTime SDK |
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(or a modified version of those libraries), |
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containing parts covered by the terms of the Bink SDK EULA, 3ds Max EULA, |
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PhysX SDK EULA, DirectX SDK EULA, OpenSSL and SSLeay licenses, IJG |
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JPEG Library README, Windows Media SDK EULA, or QuickTime SDK EULA, the |
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licensors of this Program grant you additional |
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permission to convey the resulting work. Corresponding Source for a |
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non-source form of such a combination shall include the source code for |
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the parts of OpenSSL and IJG JPEG Library used as well as that of the covered |
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work. |
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You can contact Cyan Worlds, Inc. by email legal@cyan.com |
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or by snail mail at: |
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Cyan Worlds, Inc. |
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14617 N Newport Hwy |
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Mead, WA 99021 |
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*==LICENSE==*/ |
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////////////////////////////////////////////////////////////////////////////// |
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// // |
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// plGeometrySpan Header // |
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// // |
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// plGeometrySpans are abstract reprentations of Plasma 2.0 geometry data. // |
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// They consist of a material, a transform, bounds and an abstract vertex // |
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// and index buffer pair. plGeometrySpans is what is fed to plDrawableIce // |
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// to convert into its own internal data structures; the format for the // |
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// vertex and index data is (or should be) identical. More or less, they // |
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// are identical to Ice's plIcicle, but this is more abstract (read: not // |
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// internal to Ice). // |
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// // |
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// Also included is a temporary hacked triMesh-to-geometrySpan[] converter // |
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// for everyone's convenience until triMeshes disappear. // |
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// // |
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//// Version History ///////////////////////////////////////////////////////// |
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// // |
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// Created 3.8.2001 mcn // |
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// // |
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////////////////////////////////////////////////////////////////////////////// |
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#ifndef _plGeometrySpan_h |
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#define _plGeometrySpan_h |
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#include "hsTemplates.h" |
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#include "hsBounds.h" |
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#include "hsMatrix44.h" |
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#include "hsColorRGBA.h" |
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#include "hsBitVector.h" |
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class hsGMaterial; |
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class plFogEnvironment; |
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//// plGeometrySpan Class Definition ///////////////////////////////////////// |
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class plGeometrySpan |
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{ |
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public: |
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enum |
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{ |
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kMaxNumUVChannels = 8 |
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}; |
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/// Duplication of the formats from plGBufferGroup; theoretically, they |
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/// could be different, but they're identical for now |
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enum Formats |
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{ |
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kUVCountMask = 0x0f, // Problem is, we need enough bits to store the max #, which means |
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// we really want ( max # << 1 ) - 1 |
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kSkinNoWeights = 0x00, // 0000000 |
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kSkin1Weight = 0x10, // 0010000 |
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kSkin2Weights = 0x20, // 0100000 |
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kSkin3Weights = 0x30, // 0110000 |
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kSkinWeightMask = 0x30, // 0110000 |
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kSkinIndices = 0x40, // 1000000 |
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}; |
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enum Properties |
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{ |
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kPropRunTimeLight = 0x01, |
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kPropNoPreShade = 0x02, |
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kLiteMaterial = 0x00, |
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kLiteVtxPreshaded = 0x04, |
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kLiteVtxNonPreshaded = 0x08, |
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kLiteMask = 0x0c, |
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kRequiresBlending = 0x10, |
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kInstanced = 0x20, |
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kUserOwned = 0x40, |
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kPropNoShadow = 0x80, |
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kPropForceShadow = 0x100, |
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kDiffuseFoldedIn = 0x200, // Sometimes we want to fold the diffuse color of the material into the vertex color (but only once). |
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kPropReverseSort = 0x400, |
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kWaterHeight = 0x800, |
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kFirstInstance = 0x1000, |
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kPartialSort = 0x2000, |
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kVisLOS = 0x4000, |
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kPropNoShadowCast = 0x8000 |
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}; |
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enum |
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{ |
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kNoGroupID = 0 |
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}; |
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// Note: these are public because this is really just a glorified |
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// struct; no data hiding here |
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hsGMaterial *fMaterial; |
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hsMatrix44 fLocalToWorld; |
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hsMatrix44 fWorldToLocal; |
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hsBounds3Ext fLocalBounds; |
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hsBounds3Ext fWorldBounds; |
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plFogEnvironment *fFogEnviron; |
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UInt32 fBaseMatrix; |
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UInt8 fNumMatrices; |
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UInt16 fLocalUVWChans; |
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UInt16 fMaxBoneIdx; |
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UInt32 fPenBoneIdx; |
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hsScalar fMinDist; |
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hsScalar fMaxDist; |
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hsScalar fWaterHeight; |
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UInt8 fFormat; |
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UInt32 fProps; |
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UInt32 fNumVerts, fNumIndices; |
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/// Current vertex format: |
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/// float position[ 3 ]; |
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/// float normal[ 3 ]; |
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/// float uvCoords[ ][ 3 ]; |
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/// float weights[]; // 0-3 blending weights |
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/// UInt32 weightIndices; // Only if there are >= 1 blending weights |
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UInt8* fVertexData; |
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UInt16* fIndexData; |
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UInt32 fDecalLevel; |
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hsColorRGBA* fMultColor; |
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hsColorRGBA* fAddColor; |
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UInt32* fDiffuseRGBA; |
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UInt32* fSpecularRGBA; |
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mutable hsTArray<plGeometrySpan *>* fInstanceRefs; |
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mutable UInt32 fInstanceGroupID; // For writing out/reading in instance refs |
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// The following is only used for logging during export. It is never set |
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// at runtime. Don't even think about using it for anything. |
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const char* fMaxOwner; |
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// The following is ONLY used during pack; it's so we can do a reverse lookup |
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// from the instanceRefs list to the correct span in the drawable |
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UInt32 fSpanRefIndex; |
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// These two matrices are inverses of each other (duh). They are only used on computing the local |
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// bounds. fLocalBounds is always the bounds in the space defined by fWorldToLocal, but the bounds |
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// are an OBB, and the orientation of the OBB isn't necessarily the same as fLocalToWorld's axes. |
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// For now, it is the orientation of the pivot point in max (but might be further optimized). |
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hsMatrix44 fLocalToOBB; |
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hsMatrix44 fOBBToLocal; |
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plGeometrySpan(); |
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plGeometrySpan( const plGeometrySpan *instance ); |
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~plGeometrySpan(); |
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/// UV stuff |
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UInt8 GetNumUVs( void ) const { return ( fFormat & kUVCountMask ); } |
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void SetNumUVs( UInt8 numUVs ) |
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{ |
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hsAssert( numUVs < kMaxNumUVChannels, "Invalid UV count to plGeometrySpan" ); |
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fFormat = ( fFormat & ~kUVCountMask ) | numUVs; |
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} |
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static UInt8 CalcNumUVs( UInt8 format ) { return ( format & kUVCountMask ); } |
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static UInt8 UVCountToFormat( UInt8 numUVs ) { return numUVs & kUVCountMask; } |
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/// Creation functions |
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void BeginCreate( hsGMaterial *material, const hsMatrix44 &l2wMatrix, UInt8 format ); |
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// Phasing these in... |
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// Note: uvArray should be a fixed array with enough pointers for the max # of uv channels. |
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// Any unused UVs should be nil |
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UInt16 AddVertex( hsPoint3 *position, hsPoint3 *normal, hsColorRGBA& multColor, hsColorRGBA& addColor, |
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hsPoint3 **uvPtrArray, float weight1 = -1.0f, float weight2 = -1.0f, float weight3 = -1.0f, UInt32 weightIndices = 0 ); |
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UInt16 AddVertex( hsPoint3 *position, hsPoint3 *normal, UInt32 hexColor, UInt32 specularColor = 0, |
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hsPoint3 **uvPtrArray = nil, float weight1 = -1.0f, float weight2 = -1.0f, float weight3 = -1.0f, UInt32 weightIndices = 0 ); |
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void AddIndex( UInt16 index ); |
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void AddTriIndices( UInt16 index1, UInt16 index2, UInt16 index3 ); |
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void AddTriangle( hsPoint3 *vert1, hsPoint3 *vert2, hsPoint3 *vert3, UInt32 color ); |
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// uvws is an array count*uvwsPerVtx long in order [uvw(s) for vtx0, uvw(s) for vtx1, ...], or is nil |
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void AddVertexArray( UInt32 count, hsPoint3 *positions, hsVector3 *normals, UInt32 *colors, hsPoint3 *uvws=nil, int uvwsPerVtx=0 ); |
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void AddIndexArray( UInt32 count, UInt16 *indices ); |
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void EndCreate( void ); |
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/// Manipulation--currently only used for applying static lighting, which of course needs individual vertices |
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// Wrong. Also used for the interleaving of the multiple vertex data streams here into single vertex |
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// stream within the plGBufferGroups. mf. |
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void ExtractInitColor( UInt32 index, hsColorRGBA *multColor, hsColorRGBA *addColor) const; |
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void ExtractVertex( UInt32 index, hsPoint3 *pos, hsVector3 *normal, hsColorRGBA *color, hsColorRGBA *specColor = nil ); |
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void ExtractVertex( UInt32 index, hsPoint3 *pos, hsVector3 *normal, UInt32 *color, UInt32 *specColor = nil ); |
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void ExtractUv( UInt32 vIdx, UInt8 uvIdx, hsPoint3* uv ); |
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void ExtractWeights( UInt32 vIdx, float *weightArray, UInt32 *indices ); |
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void StuffVertex( UInt32 index, hsPoint3 *pos, hsPoint3 *normal, hsColorRGBA *color, hsColorRGBA *specColor = nil ); |
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void StuffVertex( UInt32 index, hsColorRGBA *color, hsColorRGBA *specColor = nil ); |
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// Clear out the buffers |
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void ClearBuffers( void ); |
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// Duplicate this span from a given span |
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void CopyFrom( const plGeometrySpan *source ); |
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// Make this span an instance of the given span. Handles the instance ref array as well as copying over pointers |
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void MakeInstanceOf( const plGeometrySpan *instance ); |
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// Get the size of one vertex in a span, based on a format |
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static UInt32 GetVertexSize( UInt8 format ); |
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void Read( hsStream *stream ); |
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void Write( hsStream *stream ); |
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static UInt32 AllocateNewGroupID() { return IAllocateNewGroupID(); } |
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void BreakInstance(); |
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void ChangeInstance(plGeometrySpan* newInstance); |
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void UnInstance(); |
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void AdjustBounds(hsBounds3Ext& bnd) const; |
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protected: |
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struct TempVertex |
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{ |
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hsPoint3 fPosition; |
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hsPoint3 fNormal; |
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UInt32 fColor, fSpecularColor; |
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hsColorRGBA fMultColor, fAddColor; |
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hsPoint3 fUVs[ kMaxNumUVChannels ]; |
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float fWeights[ 3 ]; |
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UInt32 fIndices; |
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}; |
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hsBool fCreating; |
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hsTArray<TempVertex> fVertAccum; |
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hsTArray<UInt16> fIndexAccum; |
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void IUnShareData(); |
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void IDuplicateUniqueData( const plGeometrySpan *source ); |
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void IClearMembers( void ); |
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// Please don't yell at me. We can't write out the instanceRef pointers, and we can't write |
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// out keys because we're not keyed objects, and we can't be keyed objects because we need |
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// to be deleted eventually. So instead, we assign each geoSpan a instanceGroupID, unique |
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// for each instance group but identical among all geoSpans in a given group (i.e. all |
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// members of the instanceRef list). We write these IDs out, then on read, we rebuild the |
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// instanceRef arrays by using a hash table to find insert new hsTArrays at the given groupID, |
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// and looking up in that hash table to get pointers for each geoSpan's instanceRef array. |
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// THIS is because we need a way of assigning unique, unused groupIDs to each geoSpan instance |
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// group, and since we only need to know if the ID has been used yet, we can just use a bitVector. |
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// NOTE: Group IDs start at 1, not 0, because 0 is reserved for "no instance group". So subtract |
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// 1 from the group ID when accessing this array... |
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// ....Please don't yell at me :( |
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static hsBitVector fInstanceGroupIDFlags; |
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// The following is for rebuilding the said groups on read. The sad thing is that we also |
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// have to write out the instanceRef array count for each geoSpan, so that when we read in |
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// to do the lookup here, we know that we've read everything and can dump the entry in this |
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// table. |
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static hsTArray<hsTArray<plGeometrySpan *> *> fInstanceGroups; |
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// THIS is so we can clear fInstanceGroups as early and as efficiently as possible; see |
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// the notes on IGetInstanceGroup(). |
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static UInt32 fHighestReadInstanceGroup; |
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static UInt32 IAllocateNewGroupID( void ); |
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static void IClearGroupID( UInt32 groupID ); |
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static hsTArray<plGeometrySpan *> *IGetInstanceGroup( UInt32 groupID, UInt32 expectedCount ); |
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}; |
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#endif // _plGeometrySpan_h
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