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793 lines
18 KiB
793 lines
18 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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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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#include "hsTypes.h" |
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#include "plAnimPath.h" |
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#include "plController.h" |
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#include "hsFastMath.h" |
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#include "hsResMgr.h" |
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const hsScalar kSmallDelTime = 1.e-2f; |
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const hsScalar kInvSmallDelTime = 1.f / kSmallDelTime; |
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const hsScalar kTerminateDelTime = 1.e-3f; |
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const hsScalar kTerminateDelDistSq = .1f; |
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plAnimPath::plAnimPath() |
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: fController(nil), fLength(0), fMinDistSq(0), |
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fAnimPathFlags(0) |
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{ |
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fLocalToWorld.Reset(); |
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fWorldToLocal.Reset(); |
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Reset(); |
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} |
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plAnimPath::~plAnimPath() |
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{ |
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delete fController; |
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} |
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void plAnimPath::Reset() |
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{ |
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SetCurTime(0); |
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} |
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void plAnimPath::SetCurTime(hsScalar t, UInt32 calcFlags) |
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{ |
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fTime = t; |
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if( !fController ) |
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{ |
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fPos.Set(0,0,0); |
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fXform.Reset(); |
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fVel.Set(0,0,0); |
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fAccel.Set(0,0,0); |
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return; |
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} |
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hsScalar t0, t1, t2; |
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if( t < kSmallDelTime ) |
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{ |
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t0 = t; |
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t1 = t + kSmallDelTime; |
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t2 = t + 2 * kSmallDelTime; |
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} |
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else if( t > fLength - kSmallDelTime ) |
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{ |
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t0 = t - 2 * kSmallDelTime; |
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t1 = t - kSmallDelTime; |
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t2 = t; |
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} |
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else |
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{ |
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t0 = t - kSmallDelTime; |
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t1 = t; |
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t2 = t + kSmallDelTime; |
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} |
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if (!(calcFlags & kCalcPosOnly)) |
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{ |
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hsPoint3 pos[3]; |
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fController->Interp(t0, &fParts); |
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pos[0].Set(fParts.fT.fX, fParts.fT.fY, fParts.fT.fZ); |
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fController->Interp(t1, &fParts); |
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pos[1].Set(fParts.fT.fX, fParts.fT.fY, fParts.fT.fZ); |
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fController->Interp(t2, &fParts); |
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pos[2].Set(fParts.fT.fX, fParts.fT.fY, fParts.fT.fZ); |
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fVel.Set(pos+1, pos+0); |
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fVel *= kInvSmallDelTime; |
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fVel = fLocalToWorld * fVel; |
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fAccel.Set(&(pos[2] - pos[1]), &(pos[1] - pos[0])); |
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fAccel *= kInvSmallDelTime * kInvSmallDelTime; |
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fAccel = fLocalToWorld * fAccel; |
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} |
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fController->Interp(t, &fParts); |
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fParts.ComposeMatrix(&fXform); |
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fXform = fLocalToWorld * fXform; |
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fXform.GetTranslate(&fPos); |
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} |
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void plAnimPath::ICalcBounds() |
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{ |
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if( !fController ) |
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return; |
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plController* pc = fController->GetPosController(); |
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int i; |
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hsPoint3 pos; |
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hsTArray<hsScalar> keyTimes; |
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pc->GetKeyTimes(keyTimes); |
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fCenter.Set(0,0,0); |
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for( i = 0; i < keyTimes.GetCount() ; i++ ) |
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{ |
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pc->Interp(keyTimes[i], &pos); |
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fCenter += pos; |
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} |
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fCenter *= hsScalarInvert((hsScalar)keyTimes.GetCount()); |
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fRadius = 0; |
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for( i = 0; i < keyTimes.GetCount(); i++ ) |
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{ |
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pc->Interp(keyTimes[i], &pos); |
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hsScalar rad = (pos - fCenter).Magnitude(); |
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if( rad > fRadius ) |
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fRadius = rad; |
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} |
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} |
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hsScalar plAnimPath::ICalcTotalLength() |
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{ |
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if( !(fController && fController->GetPosController()) ) |
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return 0; |
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fLength = fController->GetPosController()->GetLength(); |
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return fLength; |
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} |
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void plAnimPath::SetController(plCompoundController* tmc) |
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{ |
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hsAssert(tmc, "Bad (nil) controller for AnimPath"); |
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hsAssert(tmc->GetPosController(), "Bad controller for AnimPath"); |
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fController = tmc; |
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ICalcTotalLength(); |
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ICalcBounds(); |
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} |
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void plAnimPath::SetTransform(const hsMatrix44& l2w, const hsMatrix44& w2l) |
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{ |
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fLocalToWorld = l2w; |
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fWorldToLocal = w2l; |
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} |
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void plAnimPath::Read(hsStream* stream, hsResMgr* mgr) |
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{ |
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fAnimPathFlags=stream->ReadSwap32(); |
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delete fController; |
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fController = plCompoundController::ConvertNoRef(mgr->ReadCreatable(stream)); |
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ICalcBounds(); |
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fParts.Read(stream); |
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fLocalToWorld.Read(stream); |
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fWorldToLocal.Read(stream); |
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fLength = stream->ReadSwapScalar(); |
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fMinDistSq = stream->ReadSwapScalar(); |
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Reset(); |
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} |
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void plAnimPath::Write(hsStream* stream, hsResMgr* mgr) |
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{ |
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stream->WriteSwap32(fAnimPathFlags); |
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mgr->WriteCreatable(stream, fController); |
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fParts.Write(stream); |
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fLocalToWorld.Write(stream); |
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fWorldToLocal.Write(stream); |
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stream->WriteSwapScalar(fLength); |
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stream->WriteSwapScalar(fMinDistSq); |
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} |
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hsBool plAnimPath::OutOfRange(hsPoint3 &worldPt, hsScalar range) const |
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{ |
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hsPoint3 pt = fWorldToLocal * worldPt; |
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hsScalar radius = (pt - fCenter).Magnitude() - fRadius; |
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return( radius > range ); |
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} |
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hsScalar plAnimPath::GetExtremePoint(hsPoint3 &worldPt) const |
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{ |
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if( !fController ) |
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return 0; |
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hsPoint3 pt = fWorldToLocal * worldPt; |
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plController *pc = fController->GetPosController(); |
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hsScalar minDistSq = 1.e33f; |
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hsScalar minTime = 0, delTime = 0; |
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// start search by using the time of the closest ctrl point |
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int i; |
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hsTArray<hsScalar> keyTimes; |
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pc->GetKeyTimes(keyTimes); |
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for( i = 0; i < keyTimes.GetCount(); i++ ) |
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{ |
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hsScalar t = keyTimes[i]; |
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hsPoint3 pos; |
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pc->Interp(t, &pos); // handles easing |
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hsScalar distSq = (pt - pos).MagnitudeSquared(); |
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if( distSq < minDistSq ) |
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{ |
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minDistSq = distSq; |
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minTime = t; |
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if( 0 == i ) |
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delTime = keyTimes[i+1] - t; |
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else if( keyTimes.GetCount() - 1 == i ) |
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delTime = t - keyTimes[i - 1]; |
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else |
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{ |
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hsScalar fore = keyTimes[i + 1] - t; |
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hsScalar back = t - keyTimes[i - 1]; |
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delTime = hsMaximum(fore, back); |
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} |
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} |
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} |
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return GetExtremePoint(minTime, delTime, worldPt); |
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} |
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hsScalar plAnimPath::GetExtremePoint(hsScalar lastTime, hsScalar delTime, hsPoint3 &worldPt) const |
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{ |
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if( !fController ) |
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return 0; |
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hsPoint3 pt = fWorldToLocal * worldPt; |
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IInitInterval(lastTime, delTime, pt); |
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return ICheckInterval(pt); |
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} |
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hsScalar plAnimPath::ICheckInterval(hsPoint3 &pt) const |
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{ |
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if( fDelTime <= kTerminateDelTime && |
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hsVector3(&fCurPos, &fPrevPos).MagnitudeSquared() < kTerminateDelDistSq) |
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{ |
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return IBestTime(); |
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} |
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if( fThisTime < 0 ) |
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return 0; |
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if( fThisTime > fLength ) |
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return fLength; |
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if( GetFarthest() ) |
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{ |
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if( (fLastDistSq > fThisDistSq)&&(fLastDistSq >= fNextDistSq) ) |
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return IShiftBack(pt); |
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if( (fNextDistSq > fThisDistSq)&&(fNextDistSq >= fLastDistSq) ) |
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return IShiftFore(pt); |
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if( (fThisDistSq >= fLastDistSq)&&(fLastDistSq >= fNextDistSq) ) |
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return ISubDivBack(pt); |
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if( (fThisDistSq >= fNextDistSq)&&(fNextDistSq >= fLastDistSq) ) |
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return ISubDivFore(pt); |
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} |
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else |
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{ |
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if( (fLastDistSq < fThisDistSq)&&(fLastDistSq <= fNextDistSq) ) |
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return IShiftBack(pt); |
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if( (fNextDistSq < fThisDistSq)&&(fNextDistSq <= fLastDistSq) ) |
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return IShiftFore(pt); |
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if( (fThisDistSq <= fLastDistSq)&&(fLastDistSq <= fNextDistSq) ) |
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return ISubDivBack(pt); |
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if( (fThisDistSq <= fNextDistSq)&&(fNextDistSq <= fLastDistSq) ) |
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return ISubDivFore(pt); |
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} |
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hsAssert(false, "Shouldn't have gotten here"); |
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return 0; |
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} |
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void plAnimPath::IInitInterval(hsScalar time, hsScalar delTime, hsPoint3 &pt) const |
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{ |
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plController* pc = fController->GetPosController(); |
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hsPoint3 pos; |
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fDelTime = delTime; |
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if( fDelTime <= kTerminateDelTime ) |
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fDelTime = kTerminateDelTime * 2; |
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else |
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if( fDelTime > fLength * 0.5f ) |
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fDelTime = fLength * 0.5f; |
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fThisTime = time; |
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if( fThisTime < fDelTime ) |
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fThisTime = fDelTime; |
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else if( fThisTime > fLength - fDelTime ) |
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fThisTime = fLength - fDelTime; |
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pc->Interp(fThisTime, &pos); |
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fPrevPos=fCurPos=pos; |
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fThisDistSq = (pos - pt).MagnitudeSquared(); |
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fNextTime = fThisTime + delTime; |
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if( fNextTime > fLength ) |
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fNextTime = fLength; |
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if (!(GetAnimPathFlags() & kFavorBwdSearch)) |
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{ |
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pc->Interp(fNextTime, &pos); |
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fNextDistSq = (pos - pt).MagnitudeSquared(); |
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} |
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else |
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{ |
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fNextDistSq = 1.e33f; |
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} |
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fLastTime = fThisTime - delTime; |
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if( fLastTime < 0 ) |
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fLastTime = 0; |
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if (!(GetAnimPathFlags() & kFavorFwdSearch)) |
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{ |
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pc->Interp(fLastTime, &pos); |
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fLastDistSq = (pos - pt).MagnitudeSquared(); |
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} |
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else |
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{ |
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fLastDistSq = 1.e33f; |
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} |
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if( fMinDistSq != 0 ) |
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{ |
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fThisDistSq -= fMinDistSq; |
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if( fThisDistSq < 0 ) |
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fThisDistSq = -fThisDistSq; |
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fNextDistSq -= fMinDistSq; |
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if( fNextDistSq < 0 ) |
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fNextDistSq = -fNextDistSq; |
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fLastDistSq -= fMinDistSq; |
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if( fLastDistSq < 0 ) |
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fLastDistSq = -fLastDistSq; |
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} |
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} |
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hsScalar plAnimPath::ISubDivBack(hsPoint3 &pt) const |
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{ |
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fNextTime = fThisTime; |
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fNextDistSq = fThisDistSq; |
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fDelTime *= 0.5f; |
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fThisTime -= fDelTime; |
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if (fThisTime<0) |
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fThisTime = GetWrap() ? fLength + fThisTime : 0; |
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plController* pc = fController->GetPosController(); |
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hsPoint3 pos; |
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pc->Interp(fThisTime, &pos); |
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fThisDistSq = (pos - pt).MagnitudeSquared() - fMinDistSq; |
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if( fThisDistSq < 0 ) |
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fThisDistSq = -fThisDistSq; |
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fPrevPos=fCurPos; |
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fCurPos=pos; |
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return ICheckInterval(pt); |
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} |
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hsScalar plAnimPath::ISubDivFore(hsPoint3 &pt) const |
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{ |
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fLastTime = fThisTime; |
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fLastDistSq = fThisDistSq; |
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fDelTime *= 0.5f; |
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fThisTime += fDelTime; |
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if (fThisTime>fLength) |
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fThisTime = GetWrap() ? fThisTime-fLength : fLength; |
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plController* pc = fController->GetPosController(); |
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hsPoint3 pos; |
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pc->Interp(fThisTime, &pos); |
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fThisDistSq = (pos - pt).MagnitudeSquared() - fMinDistSq; |
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if( fThisDistSq < 0 ) |
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fThisDistSq = -fThisDistSq; |
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fPrevPos=fCurPos; |
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fCurPos=pos; |
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return ICheckInterval(pt); |
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} |
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hsScalar plAnimPath::IShiftBack(hsPoint3 &pt) const |
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{ |
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if( !GetWrap() && (fLastTime <= 0) ) |
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return ISubDivBack(pt); |
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fNextTime = fThisTime; |
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fNextDistSq = fThisDistSq; |
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fThisTime = fLastTime; |
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fThisDistSq = fLastDistSq; |
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fLastTime -= fDelTime; |
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if( fLastTime < 0 ) |
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fLastTime = GetWrap() ? fLength + fLastTime : 0; |
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plController* pc = fController->GetPosController(); |
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hsPoint3 pos; |
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pc->Interp(fLastTime, &pos); |
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fLastDistSq = (pos - pt).MagnitudeSquared() - fMinDistSq; |
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if( fLastDistSq < 0 ) |
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fLastDistSq = -fLastDistSq; |
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fPrevPos=fCurPos; |
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fCurPos=pos; |
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return ICheckInterval(pt); |
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} |
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hsScalar plAnimPath::IShiftFore(hsPoint3 &pt) const |
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{ |
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if( !GetWrap() &&(fNextTime >= fLength) ) |
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return ISubDivFore(pt); |
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fLastTime = fThisTime; |
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fLastDistSq = fThisDistSq; |
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fThisTime = fNextTime; |
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fThisDistSq = fNextDistSq; |
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fNextTime += fDelTime; |
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if( fNextTime > fLength ) |
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fNextTime = GetWrap() ? fNextTime - fLength : fLength; |
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plController* pc = fController->GetPosController(); |
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hsPoint3 pos; |
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pc->Interp(fNextTime, &pos); |
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fNextDistSq = (pos - pt).MagnitudeSquared() - fMinDistSq; |
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if( fNextDistSq < 0 ) |
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fNextDistSq = -fNextDistSq; |
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fPrevPos=fCurPos; |
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fCurPos=pos; |
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return ICheckInterval(pt); |
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} |
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// |
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// wireframe debug draw method. |
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// doesn't use any fancy subdivision or curvature measure when drawing. |
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// Changes current time. |
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// |
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void plAnimPath::IMakeSegment(hsTArray<UInt16>& idx, hsTArray<hsPoint3>& pos, |
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hsPoint3& p1, hsPoint3& p2) |
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{ |
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hsVector3 del(&p2, &p1); |
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hsVector3 up; |
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up.Set(0,0,1.f); |
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const hsScalar kOutLength = 0.25f; |
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hsVector3 a = del % up; |
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hsScalar magSq = a.MagnitudeSquared(); |
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if( magSq < 1.e-3f ) |
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{ |
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a.Set(kOutLength, 0, 0); |
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} |
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else |
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{ |
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a *= hsFastMath::InvSqrtAppr(magSq); |
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a *= kOutLength; |
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} |
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hsVector3 b = a % del; |
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hsFastMath::Normalize(b); |
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b *= kOutLength; |
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hsPoint3 p1out, p2out; |
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int baseIdx = pos.GetCount(); |
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pos.Append(p1); |
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pos.Append(p2); |
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p1out = p1; |
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p1out += a; |
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p2out = p2; |
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p2out += a; |
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pos.Append(p1out); |
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pos.Append(p2out); |
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p1out += -2.f * a; |
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p2out += -2.f * a; |
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pos.Append(p1out); |
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pos.Append(p2out); |
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p1out = p1; |
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p1out += b; |
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p2out = p2; |
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p2out += b; |
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pos.Append(p1out); |
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pos.Append(p2out); |
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p1out += -2.f * b; |
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p2out += -2.f * b; |
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pos.Append(p1out); |
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pos.Append(p2out); |
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int i; |
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for( i = 0; i < 4; i++ ) |
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{ |
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int outIdx = baseIdx + 2 + i * 2; |
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idx.Append(baseIdx); |
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idx.Append(baseIdx + 1); |
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idx.Append(baseIdx + outIdx); |
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idx.Append(baseIdx + outIdx); |
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idx.Append(baseIdx + 1); |
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idx.Append(baseIdx + outIdx + 1); |
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} |
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} |
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void plAnimPath::MakeDrawList(hsTArray<UInt16>& idx, hsTArray<hsPoint3>& pos) |
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{ |
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hsMatrix44 resetL2W = GetLocalToWorld(); |
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hsMatrix44 resetW2L = GetWorldToLocal(); |
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hsMatrix44 ident; |
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ident.Reset(); |
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SetTransform(ident, ident); |
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hsScalar numSegs = fRadius; // crude estimate of arclength |
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if (numSegs>100) |
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numSegs=100; |
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hsScalar animLen = GetLength(); |
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hsScalar timeInc = animLen/numSegs; |
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hsScalar time=0; |
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hsPoint3 p1, p2; |
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SetCurTime(0, kCalcPosOnly); |
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GetPosition(&p1); |
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time += timeInc; |
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hsBool quit=false; |
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while(! quit && time < animLen+timeInc) |
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{ |
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if (time > animLen) |
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{ |
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time = animLen; |
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quit=true; |
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} |
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SetCurTime(time, kCalcPosOnly); |
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GetPosition(&p2); |
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IMakeSegment(idx, pos, p1, p2); |
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time += timeInc; |
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p1 = p2; |
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} |
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SetTransform(resetL2W, resetW2L); |
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} |
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// |
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// Precompute array of arclen deltas for lookahead ability. |
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// Changes current time! |
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// |
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void plAnimPath::ComputeArcLenDeltas(Int32 numSamples) |
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{ |
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if (fArcLenDeltas.GetCount() >= numSamples) |
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return; // already computed enough samples |
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|
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// compute arc len deltas |
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fArcLenDeltas.Reset(); |
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fArcLenDeltas.SetCount(numSamples); |
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hsScalar animLen = GetLength(); |
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hsScalar timeInc = animLen/(numSamples-1); // use num-1 since we'll create the zeroth entry by hand |
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hsScalar time=0; |
|
hsPoint3 p1, p2; |
|
|
|
Int32 cnt=0; |
|
|
|
// prime initial point |
|
SetCurTime(0, kCalcPosOnly); |
|
GetPosition(&p1); |
|
ArcLenDeltaInfo aldi(time, 0); |
|
fArcLenDeltas[cnt++]=aldi; |
|
time += timeInc; |
|
|
|
hsBool quit=false; |
|
while(!quit && time<animLen+timeInc) |
|
{ |
|
if (time > animLen || cnt+1 == numSamples) |
|
{ |
|
time = animLen; |
|
quit=true; |
|
} |
|
|
|
SetCurTime(time, kCalcPosOnly); |
|
GetPosition(&p2); |
|
|
|
ArcLenDeltaInfo aldi(time, hsVector3(&p2, &p1).Magnitude()); |
|
fArcLenDeltas[cnt++]=aldi; |
|
|
|
time += timeInc; |
|
p1 = p2; |
|
} |
|
hsAssert(fArcLenDeltas.GetCount()==numSamples, "arcLenArray size wrong?"); |
|
hsAssert(cnt==numSamples, "arcLenArray size wrong?"); |
|
} |
|
|
|
// |
|
// Returns time of point (at least) arcLength units away from point at startTime. |
|
// Also sets strtSrchIdx for incremental searching. |
|
// |
|
hsScalar plAnimPath::GetLookAheadTime(hsScalar startTime, hsScalar arcLengthIn, hsBool bwd, |
|
Int32* startSrchIdx) |
|
{ |
|
if (arcLengthIn==0) |
|
return startTime; // default is no look ahead |
|
|
|
if (startTime==GetLength() && !bwd) |
|
return GetLength(); |
|
|
|
if (startTime==0 && bwd) |
|
return 0; |
|
|
|
hsAssert(startSrchIdx, "nil var for startSrchIdx"); |
|
|
|
hsScalar oldTime=fTime; |
|
|
|
ComputeArcLenDeltas(); // precompute first time only |
|
|
|
// save and change time if necessary |
|
if (fTime!=startTime) |
|
SetCurTime(startTime, kCalcPosOnly); |
|
|
|
// find nearest (forward) arcLen sample point, use starting srch index provided |
|
hsBool found=false; |
|
Int32 i; |
|
for(i=(*startSrchIdx); i<fArcLenDeltas.GetCount()-1; i++) |
|
{ |
|
if (fArcLenDeltas[i].fT<=startTime && startTime<fArcLenDeltas[i+1].fT) |
|
{ |
|
*startSrchIdx=i; |
|
found=true; |
|
break; |
|
} |
|
} |
|
|
|
if (!found) |
|
{ |
|
// check if equal to last index |
|
if (startTime==fArcLenDeltas[fArcLenDeltas.GetCount()-1].fT) |
|
{ |
|
*startSrchIdx=fArcLenDeltas.GetCount()-1; |
|
found=true; |
|
} |
|
else |
|
{ |
|
for(i=0; i<*startSrchIdx; i++) |
|
{ |
|
if (fArcLenDeltas[i].fT<=startTime && startTime<fArcLenDeltas[i+1].fT) |
|
{ |
|
*startSrchIdx=i; |
|
found=true; |
|
break; |
|
} |
|
} |
|
} |
|
} |
|
|
|
// find distance to nearest arcLen sample point |
|
Int32 nearestIdx = bwd ? *startSrchIdx : *startSrchIdx+1; |
|
hsAssert(found, "couldn't find arcLength sample"); |
|
|
|
hsPoint3 pos; |
|
GetPosition(&pos); // startTime position |
|
|
|
hsPoint3 pos2; |
|
hsScalar endTime = fArcLenDeltas[nearestIdx].fT; |
|
SetCurTime(endTime, kCalcPosOnly); |
|
GetPosition(&pos2); // position at nearest sample point |
|
|
|
hsScalar curArcLen = hsVector3(&pos2, &pos).Magnitude(); |
|
hsScalar curTime=0; |
|
hsBool quit=false; |
|
hsScalar timeOut = 0; |
|
Int32 inc = bwd ? -1 : 1; |
|
// now sum distance deltas until we exceed the desired arcLen |
|
if (curArcLen<arcLengthIn) |
|
{ |
|
for(i=bwd ? nearestIdx : nearestIdx+inc; i<fArcLenDeltas.GetCount() && i>=0; i+=inc) |
|
{ |
|
if (curArcLen+fArcLenDeltas[i].fArcLenDelta>arcLengthIn) |
|
{ |
|
// gone tooFar |
|
endTime = fArcLenDeltas[i].fT; |
|
curTime = fArcLenDeltas[i-1].fT; |
|
break; |
|
} |
|
curArcLen += fArcLenDeltas[i].fArcLenDelta; |
|
} |
|
|
|
if ( (i==fArcLenDeltas.GetCount() && !bwd) || (i<0 && bwd) ) |
|
{ |
|
quit=true; |
|
timeOut = bwd ? 0 : GetLength(); |
|
} |
|
} |
|
else |
|
{ |
|
curArcLen = 0; |
|
curTime = startTime; |
|
} |
|
|
|
if (!quit) |
|
{ |
|
// interp remaining interval |
|
|
|
// 1. compute necessary distToGoal |
|
hsScalar distToGoal = arcLengthIn-curArcLen; |
|
hsAssert(distToGoal, "0 length distToGoal?"); |
|
|
|
// 2. compute % of dist interval which gives distToGoal |
|
SetCurTime(curTime, kCalcPosOnly); |
|
GetPosition(&pos); |
|
|
|
SetCurTime(endTime, kCalcPosOnly); |
|
GetPosition(&pos2); |
|
|
|
hsScalar distInterval = hsVector3(&pos2, &pos).Magnitude(); |
|
hsScalar percent = distToGoal/distInterval; |
|
hsAssert(percent>=0 && percent<=1, "illegal percent value"); |
|
|
|
// 3. compute interpolated time value using percent |
|
if (!bwd) |
|
timeOut = curTime + (endTime-curTime)*percent; |
|
else |
|
timeOut = endTime - (endTime-curTime)*percent; |
|
hsAssert((timeOut>=curTime && timeOut<=endTime), "illegal interpolated time value"); |
|
// hsAssert(!bwd || (timeOut<=curTime && timeOut>=endTime), "bwd: illegal interpolated time value"); |
|
} |
|
|
|
// restore time |
|
if (fTime != oldTime) |
|
SetCurTime(oldTime); |
|
|
|
hsAssert(bwd || (timeOut>startTime && timeOut<=GetLength()), "fwd: illegal look ahead time"); |
|
hsAssert(!bwd || (timeOut<startTime && timeOut>=0), "bwd: illegal look ahead time"); |
|
|
|
return timeOut; |
|
} |
|
|
|
|