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439 lines
15 KiB
439 lines
15 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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#ifndef hsBounds_inc |
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#define hsBounds_inc |
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#include "hsGeometry3.h" |
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#include "hsPoint2.h" |
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#include "hsMatrix44.h" |
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class hsTriangle3; |
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class hsGView3; |
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class hsG3DDevice; |
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/////////////////////////////////////////////////////////////////////////////// |
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// BOUNDS |
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/////////////////////////////////////////////////////////////////////////////// |
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enum hsBoundsType |
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{ |
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kBoundsNormal, |
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kBoundsFull, |
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kBoundsEmpty, |
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kBoundsUninitialized |
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}; |
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// |
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// Abstract base class |
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// |
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class hsBounds3; |
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class hsBounds |
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{ |
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protected: |
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hsBoundsType fType; |
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public: |
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static const hsScalar kRealSmall; |
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hsBounds() : fType(kBoundsUninitialized) { }; |
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hsBounds& MakeEmpty() { fType = kBoundsEmpty; return *this; } |
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hsBounds& MakeFull() { fType = kBoundsFull; return *this; } |
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hsBoundsType GetType() const { return fType; } |
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// |
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// These set type to kBounds Normal |
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// |
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virtual void Reset(const hsBounds3*) = 0; |
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virtual hsBool IsInside(const hsPoint3* pos) const =0; // Only valid for kBounds Normal |
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virtual void Read(hsStream*); |
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virtual void Write(hsStream*); |
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}; |
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// |
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// |
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// |
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class hsGTriMesh; |
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struct hsMatrix44; |
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class hsBounds3 : public hsBounds |
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{ |
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public: |
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enum { |
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kCenterValid = 0x1, |
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kIsSphere = 0x2 |
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}; |
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protected: |
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mutable UInt32 fBounds3Flags; |
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hsPoint3 fMins; |
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hsPoint3 fMaxs; |
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mutable hsPoint3 fCenter; |
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void ICalcCenter() const; |
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public: |
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hsBounds3() : fBounds3Flags(0) {} |
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hsBounds3(const hsBounds3 &pRHS) : fBounds3Flags(0) { Reset(&pRHS); } |
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hsBounds3 &operator=(const hsBounds3 &pRHS ) |
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{ if (&pRHS != this) Reset(&pRHS); return *this; } |
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// |
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// These set type to kBounds Normal |
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// |
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virtual void Reset(const hsBounds3*); |
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virtual void Reset(const hsPoint3 *p); |
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virtual void Reset(int n, const hsPoint3 *p); |
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virtual void Union(const hsPoint3 *p); |
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virtual void Union(const hsBounds3 *b); |
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virtual void Union(const hsVector3 *v); // smears the bounds in given direction |
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virtual void MakeSymmetric(const hsPoint3* p); // Expands bounds to be symmetric about p |
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virtual void InscribeSphere(); |
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virtual void Transform(const hsMatrix44*); |
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// |
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// Only valid for kBounds Normal |
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// |
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void Draw(hsGView3* v, hsG3DDevice* d, hsScalar r, hsScalar g, hsScalar b, hsScalar a, hsBool spheric=false); |
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virtual void GetCorners(hsPoint3 *b) const; |
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const hsPoint3& GetMins() const; |
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const hsPoint3& GetMaxs() const; |
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hsScalar GetMaxDim() const; // Computes the answer |
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const hsPoint3& GetCenter() const; // Computes the answer if not already there |
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// void MakeTriMesh(hsGTriMesh* tMesh, UInt32 triFlags, hsPoint3* cornersIn=nil) const; |
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// void MakeTriMeshSphere(hsGTriMesh* tMesh, hsPoint3* cornersIn=nil) const; |
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virtual hsBool IsInside(const hsPoint3* pos) const; // ok for full/empty |
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virtual void TestPlane(const hsVector3 &n, hsPoint2 &depth) const; |
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virtual void TestPlane(const hsPlane3 *p, hsPoint2 &depth) const; |
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virtual hsBool ClosestPoint(const hsPoint3& p, hsPoint3& inner, hsPoint3& outer) const; |
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// Test according to my axes only, doesn't check other's axes |
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// neg, pos, zero == disjoint, I contain other, overlap |
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virtual Int32 TestBound(const hsBounds3& other) const; |
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static hsScalar ClosestPointToLine(const hsPoint3 *p, const hsPoint3 *v0, const hsPoint3 *v1, hsPoint3 *out); |
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static hsScalar ClosestPointToInfiniteLine(const hsPoint3* p, const hsVector3* v, hsPoint3* out); |
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virtual void Read(hsStream*); |
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virtual void Write(hsStream*); |
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}; |
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inline void hsBounds3::ICalcCenter() const |
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{ |
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hsAssert(kBoundsNormal == fType, "Invalid type for ICalcCenter"); |
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fCenter = ((fMins + fMaxs) / 2.0); |
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fBounds3Flags |= kCenterValid; |
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} |
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inline void hsBounds3::GetCorners(hsPoint3 *b) const |
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{ |
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hsAssert(kBoundsNormal == fType, "Invalid type for GetCorners"); |
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for(int i = 0; i < 8; i++) |
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{ |
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b[i][0] = (i & 0x1) ? fMins[0] : fMaxs[0]; |
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b[i][1] = (i & 0x2) ? fMins[1] : fMaxs[1]; |
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b[i][2] = (i & 0x4) ? fMins[2] : fMaxs[2]; |
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} |
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} |
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inline const hsPoint3& hsBounds3::GetMins() const |
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{ |
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hsAssert(kBoundsNormal == fType, "Invalid type for GetMins"); |
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return fMins; |
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} |
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inline const hsPoint3& hsBounds3::GetMaxs() const |
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{ |
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hsAssert(kBoundsNormal == fType, "Invalid type for GetMaxs"); |
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return fMaxs; |
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} |
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inline const hsPoint3& hsBounds3::GetCenter() const |
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{ |
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hsAssert(kBoundsNormal == fType, "Invalid type for GetCenter"); |
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if(!(fBounds3Flags & kCenterValid)) |
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ICalcCenter(); |
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return fCenter; |
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} |
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inline hsScalar hsBounds3::GetMaxDim() const |
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{ |
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hsAssert(kBoundsNormal == fType, "Invalid type for GetMaxDim"); |
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return hsMaximum(hsMaximum(fMaxs.fX-fMins.fX, fMaxs.fY-fMins.fY), fMaxs.fZ-fMins.fZ); |
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} |
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// |
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// A convex region specified by a series of planes. |
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// |
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class hsBoundsOriented : public hsBounds |
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{ |
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private: |
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hsBool fCenterValid; |
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hsPoint3 fCenter; |
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hsPlane3 *fPlanes; |
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UInt32 fNumPlanes; |
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public: |
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hsBoundsOriented() : fPlanes(nil),fNumPlanes(0),fCenterValid(false) {} |
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virtual ~hsBoundsOriented() { if (fPlanes) delete [] fPlanes; } |
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// Center is not computed by the class, it must be set by the creator of the class. |
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void SetCenter(const hsPoint3* c) { fCenter=*c; fCenterValid = true; } |
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void SetCenter(const hsBounds3* b) { hsBounds3 bb=*b; fCenter=bb.GetCenter(); fCenterValid = true; } |
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void SetCenter(const hsBoundsOriented* b) { fCenter=b->GetCenter(); fCenterValid = true; } |
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hsPoint3 GetCenter() const; |
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void SetNumberPlanes(UInt32 n); |
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hsPlane3* GetPlane(int i) { return &fPlanes[i]; } |
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int GetNumPlanes() { return fNumPlanes; } |
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// |
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// These set type to kBounds Normal |
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// |
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virtual void Reset(const hsBounds3*); |
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void Reset(hsGTriMesh *tMesh); |
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void SetPlane(UInt32 i, hsPlane3 *p); |
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// |
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// Only valid for kBounds Normal |
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// |
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virtual hsBool IsInside(const hsPoint3* pos) const; |
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virtual void TestPlane(const hsVector3 &n, hsPoint2 &depth) const; // Complain and refuse |
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virtual void Write(hsStream *stream); |
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virtual void Read(hsStream *stream); |
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}; |
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//class hsBounds3Tri; |
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class hsHitInfoExt; |
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class hsBounds3Ext : public hsBounds3 { |
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protected: |
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enum { |
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kAxisAligned =0x1, |
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kSphereSet =0x2, |
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kDistsSet =0x4, |
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kAxisZeroZero =(1<<20), |
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kAxisOneZero =(1<<21), |
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kAxisTwoZero =(1<<22) |
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}; |
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mutable UInt32 fExtFlags; |
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hsPoint3 fCorner; |
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hsVector3 fAxes[3]; |
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mutable hsPoint2 fDists[3]; |
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mutable hsScalar fRadius; |
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hsBool IAxisIsZero(UInt32 i) const { return (fExtFlags & (1 << (20+i))) != 0; }; |
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void IMakeSphere() const; |
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void IMakeDists() const; |
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void IMakeMinsMaxs(); |
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public: |
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hsBounds3Ext() : fExtFlags(kAxisAligned) {}; |
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hsBounds3Ext(const hsBounds3 &b); |
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hsBounds3Ext &operator=(const hsBounds3 &b); |
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hsBounds3Ext(const hsBounds3Ext &pRHS) { Reset(&pRHS); } |
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hsBounds3Ext &operator=(const hsBounds3Ext &pRHS ) |
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{ if (&pRHS != this) Reset(&pRHS); return *this; } |
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virtual void Reset(const hsBounds3Ext *b); |
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virtual void Reset(const hsBounds3 *b); |
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virtual void Reset(const hsPoint3 *p); |
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virtual void Reset(int n, const hsPoint3 *p); |
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virtual void Union(const hsPoint3 *p); |
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virtual void Union(const hsBounds3 *b); |
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virtual void Union(const hsVector3 *v); // smears the bounds in given direction |
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virtual void MakeSymmetric(const hsPoint3* p); // Expands bounds to be symmetric about p |
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virtual void InscribeSphere(); |
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virtual void Unalign(); |
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virtual void Transform(const hsMatrix44 *m); |
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virtual void Translate(const hsVector3 &v); |
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virtual hsScalar GetRadius() const; |
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virtual void GetAxes(hsVector3 *fAxis0, hsVector3 *fAxis1, hsVector3 *fAxis2) const; |
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virtual hsPoint3 *GetCorner(hsPoint3 *c) const { *c = (fExtFlags & kAxisAligned ? fMins : fCorner); return c; } |
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virtual void GetCorners(hsPoint3 *b) const; |
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virtual hsBool ClosestPoint(const hsPoint3& p, hsPoint3& inner, hsPoint3& outer) const; |
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virtual hsBool IsInside(const hsPoint3* pos) const; // ok for full/empty |
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virtual void TestPlane(const hsVector3 &n, hsPoint2 &depth) const; |
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virtual Int32 TestPoints(int n, const hsPoint3 *pList) const; // pos,neg,zero == allout, allin, cut |
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// Test according to my axes only, doesn't check other's axes |
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// neg, pos, zero == disjoint, I contain other, overlap |
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virtual Int32 TestBound(const hsBounds3Ext& other) const; |
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virtual void TestPlane(const hsVector3 &n, const hsVector3 &myVel, hsPoint2 &depth) const; |
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virtual void TestPlane(const hsPlane3 *p, const hsVector3 &myVel, hsPoint2 &depth) const; |
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virtual Int32 TestPoints(int n, const hsPoint3 *pList, const hsVector3 &ptVel) const; // pos,neg,zero == allout, allin, cut |
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virtual hsBool ISectBB(const hsBounds3Ext &other, const hsVector3 &myVel) const; |
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virtual hsBool ISectBB(const hsBounds3Ext &other, const hsVector3 &myVel, hsHitInfoExt *hit) const; |
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virtual hsBool ISectABB(const hsBounds3Ext &other, const hsVector3 &myVel) const; |
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virtual hsBool ISectBS(const hsBounds3Ext &other, const hsVector3 &myVel) const; |
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#if 0 // Commenting out this which will be made redundant and/or obsolete by Havok integration |
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virtual hsBool ISectTriABB(hsBounds3Tri &tri, const hsVector3 &myVel) const; |
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virtual hsBool ISectTriBB(hsBounds3Tri &tri, const hsVector3 &myVel) const; |
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virtual hsBool ISectTriBB(hsBounds3Tri &tri, const hsVector3 &myVel, hsHitInfoExt *hit) const; |
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virtual hsBool TriBSHitInfo(hsBounds3Tri& tri, const hsVector3& myVel, hsHitInfoExt* hit) const; |
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virtual hsBool TriBBHitInfo(hsBounds3Tri& tri, const hsVector3& myVel, hsHitInfoExt* hit) const; |
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#endif // Commenting out this which will be made redundant and/or obsolete by Havok integration |
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virtual Int32 IClosestISect(const hsBounds3Ext& other, const hsVector3& myVel, |
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hsScalar* tClose, hsScalar* tImpact) const; |
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#if 0 // Commenting out this which will be made redundant and/or obsolete by Havok integration |
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virtual hsBool ISectTriBS(hsBounds3Tri &tri, const hsVector3 &myVel) const; |
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virtual hsBool ISectTriBS(hsBounds3Tri &tri, const hsVector3 &myVel, hsHitInfoExt *hit) const; |
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#endif // Commenting out this which will be made redundant and/or obsolete by Havok integration |
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virtual hsBool ISectBoxBS(const hsBounds3Ext &other, const hsVector3 &myVel, hsHitInfoExt *hit) const; |
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virtual hsBool ISectBSBox(const hsBounds3Ext &other, const hsVector3 &myVel, hsHitInfoExt *hit) const; |
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virtual hsBool ISectBoxBS(const hsBounds3Ext &other, const hsVector3 &myVel) const; |
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virtual hsBool ISectBSBS(const hsBounds3Ext &other, const hsVector3 &myVel, hsHitInfoExt *hit) const; |
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virtual hsBool ISectLine(const hsPoint3* from, const hsPoint3* to) const; |
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virtual hsBool ISectCone(const hsPoint3* from, const hsPoint3* to, hsScalar radius) const; |
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virtual hsBool ISectRayBS(const hsPoint3& from, const hsPoint3& to, hsPoint3& at) const; |
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virtual void Read(hsStream *s); |
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virtual void Write(hsStream *s); |
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}; |
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inline hsScalar hsBounds3Ext::GetRadius() const |
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{ |
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if( !(fExtFlags & kSphereSet) ) |
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IMakeSphere(); |
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return fRadius; |
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} |
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#if 0 // Commenting out this which will be made redundant and/or obsolete by Havok integration |
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class hsBounds3Tri { |
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protected: |
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enum { |
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kOnEdge0 = (1 << 0), |
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kOnEdge1 = (1 << 1), |
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kOnEdge2 = (1 << 2), |
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kOnTriPlane = (1 << 3) |
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}; |
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public: |
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enum { |
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kAxesSet = 0x1, |
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kDoubleSide = 0x2 |
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}; |
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hsVector3 fNormal; |
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// hsVector3 fNormal; |
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hsScalar fDist; |
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hsPoint3 fVerts[3]; |
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// hsVector3 fPerpAxes[3]; |
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mutable UInt32 fTriFlags; |
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mutable hsVector3 fPerpAxes[3]; |
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mutable hsPoint2 fPerpDists[3]; |
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mutable UInt32 fOnIsMax; |
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hsTriangle3* fTriangle; |
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void TestPlane(const hsVector3 &n, hsPoint2 &depth) const; |
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hsBool PointOutsideTriPlane(const hsPoint3 *p) const { return fNormal.InnerProduct(p) > fDist; }; |
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hsBool ClosestTriPoint(const hsPoint3 *p, hsPoint3 *out, const hsVector3 *ax=nil) const; // sets out, true if out = p + t*fNormal |
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hsBool ISectCone(const hsPoint3& from, const hsPoint3& to, hsScalar cosThetaSq, hsBool32 ignoreBackFacing, hsPoint3& at, hsBool32& backSide) const; |
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void SetAxes() const; |
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hsBounds3Tri* Transform(const hsMatrix44& x); |
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hsBounds3Tri* Translate(const hsVector3& v); |
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void Set(const hsPoint3& v0, |
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const hsPoint3& v1, |
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const hsPoint3& v2, |
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hsTriangle3* t, |
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const hsMatrix44& x); |
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hsBounds3Tri(const hsPoint3& v0, |
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const hsPoint3& v1, |
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const hsPoint3& v2, |
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hsTriangle3* t, |
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const hsMatrix44& x); |
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hsBounds3Tri(hsTriangle3* t, |
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const hsMatrix44& x); |
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void Set(hsPoint3 *v0, |
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hsPoint3 *v1, |
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hsPoint3 *v2, |
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hsVector3 *n, |
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UInt32 triFlags, |
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hsTriangle3 *t=nil); |
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hsBounds3Tri(hsPoint3 *v0, |
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hsPoint3 *v1, |
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hsPoint3 *v2, |
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hsVector3 *n, |
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UInt32 triFlags, |
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hsTriangle3 *t=nil); |
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hsBounds3Tri(hsTriangle3* t); |
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hsBounds3Tri() {} |
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~hsBounds3Tri(); |
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friend class hsBounds3Ext; |
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} ATTRIBUTE_FOR_PS2; /* SUNSOFT */ |
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#endif // Commenting out this which will be made redundant and/or obsolete by Havok integration |
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class hsHitInfoExt { |
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public: |
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hsScalar fDepth; |
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hsVector3 fNormal; |
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hsVector3 fDelPos; |
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#if 0 // Commenting out this which will be made redundant and/or obsolete by Havok integration |
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const hsBounds3Tri* fTriBnd; |
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#endif // Commenting out this which will be made redundant and/or obsolete by Havok integration |
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const hsBounds3Ext* fBoxBnd; |
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const hsBounds3Ext* fOtherBoxBnd; |
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const hsPoint3* fRootCenter; |
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hsHitInfoExt(const hsPoint3 *ctr, const hsVector3& offset) { fRootCenter=ctr; fDelPos=offset; }; |
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#if 0 // Commenting out this which will be made redundant and/or obsolete by Havok integration |
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void Set(const hsBounds3Ext *m, const hsBounds3Tri *t, const hsVector3* n, hsScalar d) |
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{ fDepth = d; fTriBnd = t; fBoxBnd = m; fNormal = *n; fOtherBoxBnd = nil; } |
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void Set(const hsBounds3Ext *m, const hsBounds3Ext *o, const hsVector3 &norm, hsScalar d) |
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{ fDepth = d; fBoxBnd = m, fOtherBoxBnd = o; fNormal = norm; fTriBnd = nil; } |
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#else // Commenting out this which will be made redundant and/or obsolete by Havok integration |
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void Set(const hsBounds3Ext *m, const hsVector3* n, hsScalar d) |
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{ fDepth = d; fBoxBnd = m; fNormal = *n; fOtherBoxBnd = nil; } |
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void Set(const hsBounds3Ext *m, const hsBounds3Ext *o, const hsVector3 &norm, hsScalar d) |
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{ fDepth = d; fBoxBnd = m, fOtherBoxBnd = o; fNormal = norm; } |
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#endif // Commenting out this which will be made redundant and/or obsolete by Havok integration |
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}; |
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#endif // hsBounds_inc
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