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1051 lines
32 KiB
1051 lines
32 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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Some interesting special rules: |
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You can only transition from one animation to another at certain points. |
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The climb, mount, and dismount animations must be at their beginning or end |
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to transition. |
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If a climb or mount animation finishes and the key is not being held down, the idle |
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animation starts automatically. |
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If a climb or mount finishes and the key is being held down, the brain will *try* |
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to transition to the same stage, effectively looping it. |
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The idle can transition at any point. |
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The Release and FallOff aniamtions can forcibly transition *any* animation. |
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*/ |
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///////////////////////////////////////////////////////////////// |
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// |
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// INCLUDES |
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// |
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///////////////////////////////////////////////////////////////// |
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// singular |
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#include "plAvBrainClimb.h" |
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// local |
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#include "plAnimStage.h" |
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#include "plAGAnim.h" |
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#include "plAGAnimInstance.h" |
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#include "plArmatureMod.h" |
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#include "plMatrixChannel.h" |
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#include "plAvBrainHuman.h" |
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// global |
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#include "hsTimer.h" |
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// other |
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#include "../plPipeline/plDebugText.h" |
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#include "../plMessage/plSimStateMsg.h" |
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#include "../plMessage/plLOSHitMsg.h" |
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#include "../plMessage/plLOSRequestMsg.h" |
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#include "../plMessage/plClimbEventMsg.h" |
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#include "../pnNetCommon/plSDLTypes.h" |
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///////////////////////////////////////////////////////////////// |
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// |
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// IMPLEMENTATION |
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// |
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///////////////////////////////////////////////////////////////// |
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// CTOR default |
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plAvBrainClimb::plAvBrainClimb() |
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: fCurMode(kInactive), |
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fNextMode(kInactive), |
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fDesiredDirection(plClimbMsg::kUp), |
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fControlDir(0.0f), |
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fAllowedDirections(plClimbMsg::kUp | plClimbMsg::kDown | plClimbMsg::kLeft | plClimbMsg::kRight), |
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fPhysicallyBlockedDirections(0), |
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fOldPhysicallyBlockedDirections(0), |
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fAllowedDismounts(0), |
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fCurStage(nil), |
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fExitStage(nil), |
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fVerticalProbeLength(0.0f), |
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fHorizontalProbeLength(0.0f), |
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fUp(nil), |
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fDown(nil), |
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fLeft(nil), |
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fRight(nil), |
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fMountUp(nil), |
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fMountDown(nil), |
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fMountLeft(nil), |
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fMountRight(nil), |
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fDismountUp(nil), |
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fDismountDown(nil), |
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fDismountLeft(nil), |
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fDismountRight(nil), |
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fIdle(nil), |
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fRelease(nil), |
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fFallOff(nil) |
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{ |
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IInitAnimations(); |
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} |
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// PLAVBRAINCLIMB |
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plAvBrainClimb::plAvBrainClimb(Mode nextMode) |
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: fCurMode(kInactive), |
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fNextMode(nextMode), |
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fDesiredDirection(plClimbMsg::kUp), |
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fControlDir(0.0f), |
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fAllowedDirections(plClimbMsg::kUp | plClimbMsg::kDown | plClimbMsg::kLeft | plClimbMsg::kRight), |
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fPhysicallyBlockedDirections(0), |
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fOldPhysicallyBlockedDirections(0), |
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fAllowedDismounts(0), |
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fCurStage(nil), |
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fExitStage(nil), |
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fVerticalProbeLength(0.0f), |
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fHorizontalProbeLength(0.0f), |
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fUp(nil), |
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fDown(nil), |
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fLeft(nil), |
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fRight(nil), |
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fMountUp(nil), |
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fMountDown(nil), |
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fMountLeft(nil), |
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fMountRight(nil), |
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fDismountUp(nil), |
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fDismountDown(nil), |
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fDismountLeft(nil), |
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fDismountRight(nil), |
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fIdle(nil), |
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fRelease(nil), |
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fFallOff(nil) |
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{ |
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IInitAnimations(); |
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} |
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plAvBrainClimb::~plAvBrainClimb() |
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{ |
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if(fAvMod) |
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{ |
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if(fCurStage) |
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fCurStage->Detach(fAvMod); |
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if(fExitStage) |
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fExitStage->Detach(fAvMod); |
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} |
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if(fUp) delete fUp; |
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if(fDown) delete fDown; |
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if(fLeft) delete fLeft; |
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if(fRight) delete fRight; |
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if(fMountUp) delete fMountUp; |
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if(fMountDown) delete fMountDown; |
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if(fMountLeft) delete fMountLeft; |
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if(fMountRight) delete fMountRight; |
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if(fDismountUp) delete fDismountUp; |
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if(fDismountLeft) delete fDismountLeft; |
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if(fDismountRight) delete fDismountRight; |
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if(fIdle) delete fIdle; |
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// if(fRelease) delete fRelease; |
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// if(fFallOff) delete fFallOff; |
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} |
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// ACTIVATE |
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void plAvBrainClimb::Activate(plArmatureModBase *avMod) |
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{ |
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plArmatureBrain::Activate(avMod); |
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ICalcProbeLengths(); |
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fAvMod->GetRootAnimator()->Enable(true); |
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fAvMod->EnablePhysicsKinematic(true); |
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} |
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void plAvBrainClimb::Deactivate() |
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{ |
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fAvMod->GetRootAnimator()->Enable(false); |
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fAvMod->EnablePhysicsKinematic(false); |
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} |
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// APPLY |
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hsBool plAvBrainClimb::Apply(double time, hsScalar elapsed) |
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{ |
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hsBool result = true; |
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IGetDesiredDirection(); |
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float overage = 0.0f; // if we ran past the end of the current stage, remember how much |
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bool done = false; |
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if(fExitStage) |
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done = IProcessExitStage(time, elapsed); |
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else |
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done = IAdvanceCurrentStage(time, elapsed, overage); |
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if(done || fCurMode == kIdle) |
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{ |
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// if the transition is to one of the terminal modes, we're going to abort |
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result = ITryStageTransition(time, overage); |
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} |
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if(!result && fExitStage) |
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{ |
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fExitStage->Detach(fAvMod); |
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} |
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fAvMod->ApplyAnimations(time, elapsed); |
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IProbeEnvironment(); |
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return result; |
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} |
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// MSGRECEIVE |
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hsBool plAvBrainClimb::MsgReceive(plMessage *msg) |
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{ |
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plClimbMsg *climbMsg; |
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plLOSHitMsg *losMsg; |
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if(climbMsg = plClimbMsg::ConvertNoRef(msg)) |
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{ |
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return IHandleClimbMsg(climbMsg); |
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} else if(losMsg = plLOSHitMsg::ConvertNoRef(msg)) |
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{ |
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return IHandleLOSMsg(losMsg); |
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} else { |
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return plArmatureBrain::MsgReceive(msg); |
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} |
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} |
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// IHANDLECLIMBMSG |
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hsBool plAvBrainClimb::IHandleClimbMsg(plClimbMsg *msg) |
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{ |
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switch(msg->fCommand) |
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{ |
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case plClimbMsg::kEnableClimb: |
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if(msg->fStatus) |
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this->fAllowedDirections |= msg->fDirection; |
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else |
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this->fAllowedDirections &= ~msg->fDirection; |
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break; |
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case plClimbMsg::kEnableDismount: |
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if(msg->fStatus) |
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this->fAllowedDismounts |= msg->fDirection; |
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else |
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this->fAllowedDismounts &= ~msg->fDirection; |
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break; |
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case plClimbMsg::kRelease: |
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IRelease(true); |
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break; |
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case plClimbMsg::kFallOff: |
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{ |
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if(fCurMode != kReleasing |
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&& fCurMode != kFallingOff |
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&& fCurMode != kFinishing) |
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{ |
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plClimbEventMsg* pMsg = TRACKED_NEW plClimbEventMsg; |
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pMsg->SetSender(msg->fTarget); |
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pMsg->SetBCastFlag(plMessage::kBCastByExactType); |
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pMsg->SetBCastFlag(plMessage::kLocalPropagate); |
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pMsg->SetBCastFlag(plMessage::kNetPropagate); |
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pMsg->SetBCastFlag(plMessage::kNetForce); |
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pMsg->Send(); |
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} |
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IRelease(false); |
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break; |
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} |
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} |
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return true; |
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} |
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// IHANDLELOSMSG |
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hsBool plAvBrainClimb::IHandleLOSMsg(plLOSHitMsg *msg) |
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{ |
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plClimbMsg::Direction blockDir = static_cast<plClimbMsg::Direction>(msg->fRequestID); |
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// this is a weak test because someone else could be using the same bits to mean something different |
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// the real strategy is that we should only receive LOS messages of our own creation |
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hsBool oneOfOurs = blockDir == plClimbMsg::kUp || blockDir == plClimbMsg::kDown || blockDir == plClimbMsg::kLeft || blockDir == plClimbMsg::kRight; |
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if(oneOfOurs) |
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{ |
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fPhysicallyBlockedDirections |= blockDir; |
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return true; |
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} else { |
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return false; |
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} |
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} |
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// IPROCESSEXITSTAGE |
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bool plAvBrainClimb::IProcessExitStage(double time, float elapsed) |
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{ |
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plAGAnimInstance *ai = fExitStage->GetAnimInstance(); |
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hsBool animDone = ai->IsAtEnd(); |
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float unused; |
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// if we have an exit stage running, move it instead of the base stage |
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if(!animDone) |
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fExitStage->MoveRelative(time, elapsed, unused, fAvMod); // only advance if it's not finished yet |
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float curBlend = ai->GetBlend(); |
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if(curBlend > .99) // reached peak strength |
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{ |
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fCurStage->Detach(fAvMod); // remove the (now completely masked) underlying anim |
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fCurStage = nil; |
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ai->Fade(0, 2.0f); // start fading the exit anim |
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} else if(animDone && curBlend == 0.0f) { |
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return true; // finished and faded; we're really done now |
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} |
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return false; |
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} |
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// IRELEASE |
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void plAvBrainClimb::IRelease(bool intentional) |
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{ |
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if(fCurMode != kReleasing |
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&& fCurMode != kFallingOff |
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&& fCurMode != kFinishing) |
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{ |
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if(intentional) |
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{ |
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// fNextMode = kReleasing; |
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fCurMode = kReleasing; |
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fExitStage = fRelease; |
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} else { |
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// fNextMode = kFallingOff; |
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fCurMode = kFallingOff; |
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fExitStage = fFallOff; |
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} |
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fNextMode = kFinishing; |
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double time = hsTimer::GetSysSeconds(); |
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// attach the exit stage atop the current stage. from here on out we'll only advance |
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// the current stage. |
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fAvMod->GetRootAnimator()->Enable(false); |
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fAvMod->EnablePhysicsKinematic(false); |
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fExitStage->Attach(fAvMod, this, 1.0f, time); |
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} |
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} |
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// IADVANCECURRENTSTAGE |
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bool plAvBrainClimb::IAdvanceCurrentStage(double time, float elapsed, float &overage) |
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{ |
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bool stageDone = false; |
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if(fCurStage) |
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{ |
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// elapsed tells us how far in time to move the animation |
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// we must combine it with the key state to figure out whether |
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// we're moving forward or backward in the animation |
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fControlDir = 0.0f; // 0 is still; -1 is backwards; 1 is forwards |
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switch(fCurMode) |
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{ |
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case kDismountingUp: // if dismounting or mounting become reversable, move |
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case kMountingUp: // these cases to be with "kClimbingUp"; same for the rest |
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case kDismountingRight: |
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case kMountingRight: |
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case kDismountingDown: |
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case kMountingDown: |
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case kDismountingLeft: |
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case kMountingLeft: |
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case kFallingOff: |
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case kReleasing: |
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case kFinishing: |
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case kIdle: |
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case kClimbingUp: |
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case kClimbingRight: |
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case kClimbingDown: |
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case kClimbingLeft: |
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fControlDir = 1.0f; // these guys all auto-advance |
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break; |
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case kInactive: |
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case kUnknown: |
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// fControlDir is already 0 |
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break; |
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default: |
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hsStatusMessage("Unknown mode in plAvBrainClimb::IAdvanceCurrentStage"); |
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} |
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float delta = elapsed * fControlDir; |
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stageDone = fCurStage->MoveRelative(time, delta, overage, fAvMod); |
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} else { |
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stageDone = true; |
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} |
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return stageDone; |
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} |
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// ITRYSTAGETRANSITION |
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bool plAvBrainClimb::ITryStageTransition(double time, float overage) |
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{ |
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// hsStatusMessageF("Got overage %f", overage); |
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IChooseNextMode(); |
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bool result = true; |
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// and vice versa |
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if(fCurStage && fCurStage != fIdle) |
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{ |
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hsStatusMessage("Wrapping externally."); |
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bool atStart = overage >= 0.0f ? true : false; // if we went off the end, back to start |
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fCurStage->Reset(time, fAvMod, atStart); |
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// any time we start a stage besides idle, clear the climbing and dismount restrictions |
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// this->fAllowedDirections = plClimbMsg::kUp | plClimbMsg::kDown | plClimbMsg::kLeft | plClimbMsg::kRight; |
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// this->fAllowedDismounts = 0; |
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} |
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if(fNextMode != fCurMode) |
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{ |
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if(fCurStage) |
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fCurStage->Detach(fAvMod); |
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fCurStage = IGetStageFromMode(fNextMode); |
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if(fCurStage) |
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{ |
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hsAssert(fCurStage, "Couldn't get next stage - mode has no stage. (Matt)"); |
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fCurMode = fNextMode; |
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if(fCurStage) |
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result = (fCurStage->Attach(fAvMod, this, 1.0f, time) != nil); |
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fAvMod->DirtySynchState(kSDLAvatar, 0); // write our new stage to the server |
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} else { |
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result = false; |
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} |
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} else { |
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// hsStatusMessage("Wrapping externally."); |
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// bool atStart = overage >= 0.0f ? true : false; // if we went off the end, back to start |
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// // and vice versa |
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// if(fCurStage) |
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// fCurStage->Reset(time, fAvMod, atStart); |
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} |
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fNextMode = kUnknown; |
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if(fCurStage) |
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{ |
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if(overage < 0.0f) |
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{ |
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float length = fCurStage->GetLength(); |
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fCurStage->SetLocalTime(length + overage); |
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} else { |
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fCurStage->SetLocalTime(overage); |
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} |
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fAvMod->GetRootAnimator()->Reset(time); |
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} |
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return result; |
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} |
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// ICHOOSENEXTMODE |
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bool plAvBrainClimb::IChooseNextMode() |
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{ |
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// bear in mind this is only called when we're at a point where |
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// we can change direction (usually because a climb loop has |
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// just finished) |
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switch (fCurMode) |
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{ |
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case kInactive: |
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case kUnknown: |
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case kFinishing: |
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break; // no change |
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case kDismountingUp: |
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case kDismountingDown: |
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case kDismountingLeft: |
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case kDismountingRight: |
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case kFallingOff: |
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case kReleasing: |
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fNextMode = kFinishing; |
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break; |
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case kMountingUp: |
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case kClimbingUp: |
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case kMountingDown: |
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case kClimbingDown: |
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case kMountingLeft: |
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case kClimbingLeft: |
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case kMountingRight: |
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case kClimbingRight: |
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case kIdle: |
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fNextMode = kIdle; |
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if(fAllowedDismounts & fDesiredDirection) |
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{ |
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switch(fDesiredDirection) |
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{ |
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case plClimbMsg::kUp: |
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fNextMode = kDismountingUp; |
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break; |
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case plClimbMsg::kDown: |
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fNextMode = kDismountingDown; |
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break; |
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case plClimbMsg::kLeft: |
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fNextMode = kDismountingLeft; |
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break; |
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case plClimbMsg::kRight: |
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fNextMode = kDismountingRight; |
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break; |
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case plClimbMsg::kCenter: |
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fNextMode = kIdle; |
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break; |
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default: |
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hsAssert(false, "Error in fDesiredDirection. (Matt)"); |
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} |
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} else if(fAllowedDirections & fDesiredDirection & ~fPhysicallyBlockedDirections) |
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{ |
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switch(fDesiredDirection) |
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{ |
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case plClimbMsg::kUp: |
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fNextMode = kClimbingUp; |
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break; |
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case plClimbMsg::kDown: |
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fNextMode = kClimbingDown; |
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break; |
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case plClimbMsg::kLeft: |
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fNextMode = kClimbingLeft; |
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break; |
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case plClimbMsg::kRight: |
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fNextMode = kClimbingRight; |
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break; |
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case plClimbMsg::kCenter: |
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fNextMode = kIdle; |
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break; |
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default: |
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hsAssert(false, "Error in fDesiredDirection. (Matt)"); |
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} |
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} |
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break; |
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default: |
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hsAssert(false, "Error in fCurMode. (Matt)"); |
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} |
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return true; |
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} |
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// IGETSTAGE |
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plAnimStage * plAvBrainClimb::IGetStageFromMode(Mode mode) |
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{ |
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switch(mode) |
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{ |
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case kClimbingUp: |
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return fUp; |
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case kClimbingDown: |
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return fDown; |
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case kClimbingLeft: |
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return fLeft; |
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case kClimbingRight: |
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return fRight; |
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case kMountingUp: |
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return fMountUp; |
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case kMountingDown: |
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return fMountDown; |
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case kMountingLeft: |
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return fMountLeft; |
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case kMountingRight: |
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return fMountRight; |
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case kDismountingUp: |
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return fDismountUp; |
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case kDismountingDown: |
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return fDismountDown; |
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case kDismountingLeft: |
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return fDismountLeft; |
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case kDismountingRight: |
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return fDismountRight; |
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case kIdle: |
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return fIdle; |
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case kReleasing: |
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return fRelease; |
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case kFallingOff: |
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return fFallOff; |
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case kInactive: |
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case kFinishing: |
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case kUnknown: |
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case kDone: |
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return nil; |
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default: |
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hsAssert(false, "Unknown mode."); |
|
return nil; |
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} |
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} |
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|
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plAvBrainClimb::Mode plAvBrainClimb::IGetModeFromStage(plAnimStage *stage) |
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{ |
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if(stage == fUp) |
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return kClimbingUp; |
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else if(stage == fDown) |
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return kClimbingDown; |
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else if(stage == fLeft) |
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return kClimbingLeft; |
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else if(stage == fRight) |
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return kClimbingRight; |
|
else if(stage == fMountUp) |
|
return kMountingUp; |
|
else if(stage == fMountDown) |
|
return kMountingDown; |
|
else if(stage == fMountLeft) |
|
return kMountingLeft; |
|
else if(stage == fMountRight) |
|
return kMountingRight; |
|
else if(stage == fDismountUp) |
|
return kDismountingUp; |
|
else if(stage == fDismountDown) |
|
return kDismountingDown; |
|
else if(stage == fDismountLeft) |
|
return kDismountingLeft; |
|
else if(stage == fDismountRight) |
|
return kDismountingRight; |
|
else if(stage == fIdle) |
|
return kIdle; |
|
else if(stage == fRelease) |
|
return kReleasing; |
|
else if(stage == fFallOff) |
|
return kFallingOff; |
|
else |
|
return kUnknown; |
|
} |
|
|
|
// IGETDESIREDDIRECTION |
|
void plAvBrainClimb::IGetDesiredDirection() |
|
{ |
|
if(fAvMod->ForwardKeyDown()) { |
|
fDesiredDirection = plClimbMsg::kUp; |
|
} else if (fAvMod->BackwardKeyDown()) { |
|
fDesiredDirection = plClimbMsg::kDown; |
|
} else if (fAvMod->TurnLeftKeyDown()) { |
|
fDesiredDirection = plClimbMsg::kLeft; |
|
} else if (fAvMod->TurnRightKeyDown()) { |
|
fDesiredDirection = plClimbMsg::kRight; |
|
} else { |
|
fDesiredDirection = plClimbMsg::kCenter; |
|
} |
|
} |
|
|
|
/** Look left, right, up, and down to see which directions are clear |
|
for our movement. We could do this by positioning our actual collision |
|
body and testing for hits, but it gives a lot more false positives *and* |
|
we won't get the normals of intersection, so it will be more complex |
|
to figure out which directions are actually blocked. |
|
The approach here is to do a raycast in the aforementioned directions |
|
and fail that direction if the raycast hits anything. */ |
|
void plAvBrainClimb::IProbeEnvironment() |
|
{ |
|
hsMatrix44 l2w = fAvMod->GetTarget(0)->GetLocalToWorld(); |
|
// we're just going to pull the axes out of the |
|
|
|
hsPoint3 up = hsPoint3(l2w.GetAxis(hsMatrix44::kUp) * fVerticalProbeLength); |
|
hsPoint3 down = -up; |
|
hsPoint3 right = hsPoint3(l2w.GetAxis(hsMatrix44::kRight) * fHorizontalProbeLength); |
|
hsPoint3 left = -right; |
|
hsPoint3 start = l2w.GetTranslate(); |
|
|
|
start.fZ += 3.0f; // move the origin from the feet to the bellybutton |
|
up += start; |
|
down += start; |
|
left += start; |
|
right += start; |
|
|
|
plKey ourKey = fAvMod->GetKey(); |
|
|
|
// *** would be cool if we could hint that these should be batched for spatial coherence optimization |
|
plLOSRequestMsg *upReq = TRACKED_NEW plLOSRequestMsg(ourKey, start, up, plSimDefs::kLOSDBCustom, plLOSRequestMsg::kTestAny, plLOSRequestMsg::kReportHit); |
|
upReq->SetRequestID(static_cast<UInt32>(plClimbMsg::kUp)); |
|
upReq->Send(); |
|
|
|
plLOSRequestMsg *downReq = TRACKED_NEW plLOSRequestMsg(ourKey, start, down, plSimDefs::kLOSDBCustom, plLOSRequestMsg::kTestAny, plLOSRequestMsg::kReportHit); |
|
downReq->SetRequestID(static_cast<UInt32>(plClimbMsg::kDown)); |
|
downReq->Send(); |
|
|
|
plLOSRequestMsg *leftReq = TRACKED_NEW plLOSRequestMsg(ourKey, start, left, plSimDefs::kLOSDBCustom, plLOSRequestMsg::kTestAny, plLOSRequestMsg::kReportHit); |
|
leftReq->SetRequestID(static_cast<UInt32>(plClimbMsg::kLeft)); |
|
leftReq->SetRequestType(plSimDefs::kLOSDBCustom); |
|
leftReq->Send(); |
|
|
|
plLOSRequestMsg *rightReq = TRACKED_NEW plLOSRequestMsg(ourKey, start, right, plSimDefs::kLOSDBCustom, plLOSRequestMsg::kTestAny, plLOSRequestMsg::kReportHit); |
|
rightReq->SetRequestID(static_cast<UInt32>(plClimbMsg::kRight)); |
|
rightReq->Send(); |
|
|
|
fOldPhysicallyBlockedDirections = fPhysicallyBlockedDirections; |
|
fPhysicallyBlockedDirections = 0; // clear our blocks until the new reports come in.... |
|
} |
|
|
|
// ICalcProbeLengths ------------------- |
|
// ----------------- |
|
void plAvBrainClimb::ICalcProbeLengths() |
|
{ |
|
// we assume that the up and down climbs go the same distance; |
|
// same for the left and right climbs |
|
plAGAnim *up = fAvMod->FindCustomAnim("WallClimbUp"); |
|
plAGAnim *left = fAvMod->FindCustomAnim("WallClimbLeft"); |
|
|
|
hsMatrix44 upMove, leftMove; |
|
|
|
hsAssert(up, "Couldn't find ClimbUp animation."); |
|
if(up) |
|
{ |
|
GetStartToEndTransform(up, &upMove, nil, "Handle"); |
|
fVerticalProbeLength = upMove.GetTranslate().fZ; |
|
} else |
|
fVerticalProbeLength = 4.0f; // guess |
|
|
|
hsAssert(left, "Couldn't find ClimbLeft animation."); |
|
if(left) |
|
{ |
|
GetStartToEndTransform(left, &leftMove, nil, "Handle"); |
|
fHorizontalProbeLength = leftMove.GetTranslate().fX; |
|
} else |
|
fHorizontalProbeLength = 3.0f; // guess |
|
} |
|
|
|
// IInitAnimations --------------------- |
|
// --------------- |
|
hsBool plAvBrainClimb::IInitAnimations() |
|
{ |
|
fUp = TRACKED_NEW plAnimStage("WallClimbUp", |
|
plAnimStage::kNotifyEnter, plAnimStage::kForwardAuto, plAnimStage::kBackNone, plAnimStage::kAdvanceAuto, plAnimStage::kRegressAuto, |
|
0); |
|
fDown = TRACKED_NEW plAnimStage("WallClimbDown", |
|
plAnimStage::kNotifyEnter, plAnimStage::kForwardAuto, plAnimStage::kBackNone, plAnimStage::kAdvanceAuto, plAnimStage::kRegressAuto, |
|
0); |
|
fLeft = TRACKED_NEW plAnimStage("WallClimbLeft", |
|
plAnimStage::kNotifyEnter, plAnimStage::kForwardAuto, plAnimStage::kBackNone, plAnimStage::kAdvanceAuto, plAnimStage::kRegressAuto, |
|
0); |
|
fRight = TRACKED_NEW plAnimStage("WallClimbRight", |
|
plAnimStage::kNotifyEnter, plAnimStage::kForwardAuto, plAnimStage::kBackNone, plAnimStage::kAdvanceAuto, plAnimStage::kRegressAuto, |
|
0); |
|
// the mounts |
|
fMountUp = TRACKED_NEW plAnimStage("WallClimbMountUp", |
|
plAnimStage::kNotifyEnter, plAnimStage::kForwardAuto, plAnimStage::kBackNone, plAnimStage::kAdvanceAuto, plAnimStage::kRegressNone, |
|
0); |
|
fMountDown = TRACKED_NEW plAnimStage("WallClimbMountDown", |
|
plAnimStage::kNotifyEnter, plAnimStage::kForwardAuto, plAnimStage::kBackNone, plAnimStage::kAdvanceAuto, plAnimStage::kRegressNone, |
|
0); |
|
fMountLeft = TRACKED_NEW plAnimStage("WallClimbMountLeft", |
|
plAnimStage::kNotifyEnter, plAnimStage::kForwardAuto, plAnimStage::kBackNone, plAnimStage::kAdvanceAuto, plAnimStage::kRegressNone, |
|
0); |
|
fMountRight = TRACKED_NEW plAnimStage("WallClimbMountRight", |
|
plAnimStage::kNotifyEnter, plAnimStage::kForwardAuto, plAnimStage::kBackNone, plAnimStage::kAdvanceAuto, plAnimStage::kRegressNone, |
|
0); |
|
// and here's the dismount |
|
fDismountUp = TRACKED_NEW plAnimStage("WallClimbDismountUp", |
|
plAnimStage::kNotifyEnter, plAnimStage::kForwardAuto, plAnimStage::kBackNone, plAnimStage::kAdvanceAuto, plAnimStage::kRegressNone, |
|
0); |
|
fDismountDown = TRACKED_NEW plAnimStage("WallClimbDismountDown", |
|
plAnimStage::kNotifyEnter, plAnimStage::kForwardAuto, plAnimStage::kBackNone, plAnimStage::kAdvanceAuto, plAnimStage::kRegressNone, |
|
0); |
|
fDismountLeft = TRACKED_NEW plAnimStage("WallClimbDismountLeft", |
|
plAnimStage::kNotifyEnter, plAnimStage::kForwardAuto, plAnimStage::kBackNone, plAnimStage::kAdvanceAuto, plAnimStage::kRegressNone, |
|
0); |
|
fDismountRight = TRACKED_NEW plAnimStage("WallClimbDismountUp", |
|
plAnimStage::kNotifyEnter, plAnimStage::kForwardAuto, plAnimStage::kBackNone, plAnimStage::kAdvanceAuto, plAnimStage::kRegressNone, |
|
0); |
|
// other |
|
fIdle = TRACKED_NEW plAnimStage("WallClimbIdle", |
|
plAnimStage::kNotifyEnter, plAnimStage::kForwardAuto, plAnimStage::kBackNone, plAnimStage::kAdvanceAuto, plAnimStage::kRegressNone, |
|
0); |
|
fRelease = TRACKED_NEW plAnimStage("WallClimbRelease", |
|
plAnimStage::kNotifyEnter, plAnimStage::kForwardAuto, plAnimStage::kBackNone, plAnimStage::kAdvanceAuto, plAnimStage::kRegressNone, |
|
0); |
|
fFallOff = TRACKED_NEW plAnimStage("WallClimbFallOff", |
|
plAnimStage::kNotifyEnter, plAnimStage::kForwardAuto, plAnimStage::kBackNone, plAnimStage::kAdvanceAuto, plAnimStage::kRegressNone, |
|
0); |
|
return true; |
|
} |
|
|
|
///////////////////////////////////////////////////////////////////////////////////////// |
|
// |
|
// SDL-BASED PERSISTENCE |
|
// |
|
///////////////////////////////////////////////////////////////////////////////////////// |
|
#include "../plSDL/plSDL.h" |
|
#include "plAvatarSDLModifier.h" |
|
|
|
// SaveToSDL ----------------------------------------- |
|
// --------- |
|
void plAvBrainClimb::SaveToSDL(plStateDataRecord *sdl) |
|
{ |
|
sdl->FindVar(plAvatarSDLModifier::ClimbBrainVarNames::kStrCurMode)->Set(fCurMode); |
|
sdl->FindVar(plAvatarSDLModifier::ClimbBrainVarNames::kStrNextMode)->Set(fNextMode); |
|
sdl->FindVar(plAvatarSDLModifier::ClimbBrainVarNames::kStrAllowedDirections)->Set((int)fAllowedDirections); |
|
sdl->FindVar(plAvatarSDLModifier::ClimbBrainVarNames::kStrAllowedDismounts)->Set((int)fAllowedDismounts); |
|
sdl->FindVar(plAvatarSDLModifier::ClimbBrainVarNames::kStrVertProbeLength)->Set(fVerticalProbeLength); |
|
sdl->FindVar(plAvatarSDLModifier::ClimbBrainVarNames::kStrHorizProbeLength)->Set(fHorizontalProbeLength); |
|
|
|
bool curStageAttached = fCurStage && fCurStage->GetIsAttached(); |
|
sdl->FindVar(plAvatarSDLModifier::ClimbBrainVarNames::kStrCurStageAttached)->Set(curStageAttached); |
|
if(curStageAttached) |
|
{ |
|
// slightly abuse the "mode" semantics; it happens to work as a persistance format |
|
Mode curStageAsMode = IGetModeFromStage(fCurStage); |
|
sdl->FindVar(plAvatarSDLModifier::ClimbBrainVarNames::kStrCurStage)->Set(curStageAsMode); |
|
|
|
float curStageTime = fCurStage->GetLocalTime(); |
|
sdl->FindVar(plAvatarSDLModifier::ClimbBrainVarNames::kStrCurStageTime)->Set(curStageTime); |
|
|
|
float curStageBlend = fCurStage->GetAnimInstance()->GetBlend(); |
|
sdl->FindVar(plAvatarSDLModifier::ClimbBrainVarNames::kStrCurStageStrength)->Set(curStageBlend); |
|
} |
|
bool exitStageAttached = fExitStage && fExitStage->GetIsAttached(); |
|
sdl->FindVar(plAvatarSDLModifier::ClimbBrainVarNames::kStrExitStageAttached)->Set(exitStageAttached); |
|
|
|
if(exitStageAttached) |
|
{ |
|
Mode exitStageAsMode = IGetModeFromStage(fExitStage); |
|
sdl->FindVar(plAvatarSDLModifier::ClimbBrainVarNames::kStrExitStage)->Set(exitStageAsMode); |
|
|
|
float exitStageTime = fExitStage->GetLocalTime(); |
|
sdl->FindVar(plAvatarSDLModifier::ClimbBrainVarNames::kStrExitStageTime)->Set(exitStageTime); |
|
|
|
float exitStageBlend = fExitStage->GetAnimInstance()->GetBlend(); |
|
sdl->FindVar(plAvatarSDLModifier::ClimbBrainVarNames::kStrExitStageStrength)->Set(exitStageBlend); |
|
} |
|
} |
|
|
|
// LoadFromSDL ----------------------------------------- |
|
// ----------- |
|
void plAvBrainClimb::LoadFromSDL(const plStateDataRecord *sdl) |
|
{ |
|
double curTime = hsTimer::GetSysSeconds(); |
|
|
|
sdl->FindVar(plAvatarSDLModifier::ClimbBrainVarNames::kStrCurStage)->Get((int*)&fCurMode); |
|
sdl->FindVar(plAvatarSDLModifier::ClimbBrainVarNames::kStrNextMode)->Get((int*)&fNextMode); |
|
sdl->FindVar(plAvatarSDLModifier::ClimbBrainVarNames::kStrAllowedDirections)->Get((int*)&fAllowedDirections); |
|
sdl->FindVar(plAvatarSDLModifier::ClimbBrainVarNames::kStrAllowedDismounts)->Get((int*)&fAllowedDismounts); |
|
sdl->FindVar(plAvatarSDLModifier::ClimbBrainVarNames::kStrVertProbeLength)->Get(&fVerticalProbeLength); |
|
sdl->FindVar(plAvatarSDLModifier::ClimbBrainVarNames::kStrHorizProbeLength)->Get(&fHorizontalProbeLength); |
|
|
|
bool curStageAttached = false; |
|
sdl->FindVar(plAvatarSDLModifier::ClimbBrainVarNames::kStrCurStageAttached)->Get(&curStageAttached); |
|
if(curStageAttached) |
|
{ |
|
Mode *curStageMode; // distinct from curMode; this is just a mode-based representation of the current stage |
|
sdl->FindVar(plAvatarSDLModifier::ClimbBrainVarNames::kStrCurStage)->Get((int*)&curStageMode); |
|
plAnimStage *curStage = this->IGetStageFromMode(fCurMode); |
|
curStage->Attach(fAvMod, this, 0.0f, curTime); |
|
|
|
float curStageTime = 0.0f; |
|
sdl->FindVar(plAvatarSDLModifier::ClimbBrainVarNames::kStrCurStageTime)->Get(&curStageTime); |
|
curStage->ResetAtTime(curTime, curStageTime, fAvMod); // restart the relative-position sampler |
|
|
|
float curStageBlend = 0.0f; |
|
sdl->FindVar(plAvatarSDLModifier::ClimbBrainVarNames::kStrCurStageStrength)->Get(&curStageBlend); |
|
curStage->GetAnimInstance()->SetBlend(curStageBlend); |
|
} |
|
|
|
bool exitStageAttached; |
|
sdl->FindVar(plAvatarSDLModifier::ClimbBrainVarNames::kStrExitStageAttached)->Get(&exitStageAttached); |
|
if(exitStageAttached) |
|
{ |
|
Mode exitStageMode; // the exit stage, in mode form |
|
sdl->FindVar(plAvatarSDLModifier::ClimbBrainVarNames::kStrExitStage)->Get((int *)&exitStageMode); |
|
plAnimStage *exitStage = this->IGetStageFromMode(exitStageMode); |
|
sdl->FindVar(plAvatarSDLModifier::ClimbBrainVarNames::kStrExitStageTime)->Get((int *)&fNextMode); |
|
sdl->FindVar(plAvatarSDLModifier::ClimbBrainVarNames::kStrExitStageStrength)->Get((int *)&fNextMode); |
|
} |
|
} |
|
|
|
///////////////////////////////////////////////////////////////////////////////////////// |
|
// |
|
// READABLE TEXT FOR DEBUGGING |
|
// |
|
///////////////////////////////////////////////////////////////////////////////////////// |
|
|
|
// DumpToDebugDisplay -------------------------------------------------------------------------------------- |
|
// ------------------ |
|
void plAvBrainClimb::DumpToDebugDisplay(int &x, int &y, int lineHeight, char *strBuf, plDebugText &debugTxt) |
|
{ |
|
debugTxt.DrawString(x, y, "Brain type: Climb"); |
|
y += lineHeight; |
|
const char * worldDir = WorldDirStr(fDesiredDirection); |
|
const char * modeStr = ModeStr(fCurMode); |
|
|
|
char buffy[256]; |
|
sprintf(buffy, "direction: %s mode: %s controlDir: %f", worldDir, modeStr, fControlDir); |
|
debugTxt.DrawString(x,y, buffy); |
|
y += lineHeight; |
|
|
|
IDumpClimbDirections(x, y, lineHeight, strBuf, debugTxt); |
|
IDumpDismountDirections(x, y, lineHeight, strBuf, debugTxt); |
|
IDumpBlockedDirections(x, y, lineHeight, strBuf, debugTxt); |
|
|
|
fUp->DumpDebug(fUp == fCurStage, x, y, lineHeight, strBuf, debugTxt); |
|
fDown->DumpDebug(fDown == fCurStage, x, y, lineHeight, strBuf, debugTxt); |
|
fLeft->DumpDebug(fLeft == fCurStage, x, y, lineHeight, strBuf, debugTxt); |
|
fRight->DumpDebug(fRight == fCurStage, x, y, lineHeight, strBuf, debugTxt); |
|
fMountUp->DumpDebug(fMountUp == fCurStage, x, y, lineHeight, strBuf, debugTxt); |
|
fMountDown->DumpDebug(fMountDown == fCurStage, x, y, lineHeight, strBuf, debugTxt); |
|
fMountLeft->DumpDebug(fMountLeft == fCurStage, x, y, lineHeight, strBuf, debugTxt); |
|
fMountRight->DumpDebug(fMountRight == fCurStage, x, y, lineHeight, strBuf, debugTxt); |
|
fDismountUp->DumpDebug(fDismountUp == fCurStage, x, y, lineHeight, strBuf, debugTxt); |
|
fDismountDown->DumpDebug(fDismountDown == fCurStage, x, y, lineHeight, strBuf, debugTxt); |
|
fDismountLeft->DumpDebug(fDismountLeft == fCurStage, x, y, lineHeight, strBuf, debugTxt); |
|
fDismountRight->DumpDebug(fDismountRight == fCurStage, x, y, lineHeight, strBuf, debugTxt); |
|
fIdle->DumpDebug(fIdle == fCurStage, x, y, lineHeight, strBuf, debugTxt); |
|
fRelease->DumpDebug(fRelease == fCurStage, x, y, lineHeight, strBuf, debugTxt); |
|
fFallOff->DumpDebug(fFallOff == fCurStage, x, y, lineHeight, strBuf, debugTxt); |
|
|
|
} |
|
|
|
// IDumpClimbDirections -------------------------------------------------------------------------------------- |
|
// -------------------- |
|
void plAvBrainClimb::IDumpClimbDirections(int &x, int &y, int lineHeight, char *strBuf, plDebugText &debugTxt) |
|
{ |
|
const char * prolog = "Allowed directions: "; |
|
std::string str; |
|
|
|
str = prolog; |
|
if(fAllowedDirections & plClimbMsg::kUp) |
|
str = str + "UP "; |
|
if(fAllowedDirections & plClimbMsg::kDown) |
|
str = str + "DOWN "; |
|
if(fAllowedDirections & plClimbMsg::kLeft) |
|
str = str + "LEFT "; |
|
if(fAllowedDirections & plClimbMsg::kRight) |
|
str = str + "RIGHT "; |
|
|
|
if(str.size() == strlen(prolog)) |
|
str = str + "- NONE -"; |
|
|
|
debugTxt.DrawString(x, y, str.c_str()); |
|
y += lineHeight; |
|
} |
|
|
|
// IDumpDismountDirections -------------------------------------------------------------------------------------- |
|
// ----------------------- |
|
void plAvBrainClimb::IDumpDismountDirections(int &x, int &y, int lineHeight, char *strBuf, plDebugText &debugTxt) |
|
{ |
|
const char * prolog = "Enabled dismounts: "; |
|
std::string str; |
|
|
|
str = prolog; |
|
if(fAllowedDismounts & plClimbMsg::kUp) |
|
str = str + "UP "; |
|
if(fAllowedDismounts & plClimbMsg::kDown) |
|
str = str + "DOWN "; |
|
if(fAllowedDismounts & plClimbMsg::kLeft) |
|
str = str + "LEFT "; |
|
if(fAllowedDismounts & plClimbMsg::kRight) |
|
str = str + "RIGHT "; |
|
|
|
if(str.size() == strlen(prolog)) |
|
str = str + "- NONE -"; |
|
|
|
debugTxt.DrawString(x, y, str.c_str()); |
|
y += lineHeight; |
|
} |
|
|
|
void plAvBrainClimb::IDumpBlockedDirections(int &x, int &y, int lineHeight, char *strBuf, plDebugText &debugTxt) |
|
{ |
|
const char * prolog = "Physically blocked: "; |
|
std::string str; |
|
|
|
str = prolog; |
|
if(fOldPhysicallyBlockedDirections & plClimbMsg::kUp) |
|
str = str + "UP "; |
|
if(fOldPhysicallyBlockedDirections & plClimbMsg::kDown) |
|
str = str + "DOWN "; |
|
if(fOldPhysicallyBlockedDirections & plClimbMsg::kLeft) |
|
str = str + "LEFT "; |
|
if(fOldPhysicallyBlockedDirections & plClimbMsg::kRight) |
|
str = str + "RIGHT "; |
|
|
|
if(str.size() == strlen(prolog)) |
|
str = str + "- NONE -"; |
|
|
|
debugTxt.DrawString(x, y, str.c_str()); |
|
y += lineHeight; |
|
} |
|
|
|
const char * plAvBrainClimb::WorldDirStr(plClimbMsg::Direction dir) |
|
{ |
|
switch(dir) |
|
{ |
|
case plClimbMsg::kUp: |
|
return "Up"; |
|
case plClimbMsg::kDown: |
|
return "Down"; |
|
case plClimbMsg::kLeft: |
|
return "Left"; |
|
case plClimbMsg::kRight: |
|
return "Right"; |
|
case plClimbMsg::kCenter: |
|
return "Center"; |
|
default: |
|
return "WTF?"; |
|
} |
|
} |
|
|
|
const char *plAvBrainClimb::ModeStr(Mode mode) |
|
{ |
|
switch(mode) |
|
{ |
|
case kInactive: |
|
return "Inactive"; |
|
case kUnknown: |
|
return "Unknown"; |
|
case kFinishing: |
|
return "Finishing"; |
|
case kDone: |
|
return "Done"; |
|
case kClimbingUp: |
|
return "ClimbingUp"; |
|
case kClimbingDown: |
|
return "ClimbingDown"; |
|
case kClimbingLeft: |
|
return "ClimbingLeft"; |
|
case kClimbingRight: |
|
return "ClimbingRight"; |
|
case kMountingUp: |
|
return "MountingUp"; |
|
case kMountingDown: |
|
return "MountingDown"; |
|
case kMountingLeft: |
|
return "MountingLeft"; |
|
case kMountingRight: |
|
return "MountingRight"; |
|
case kDismountingUp: |
|
return "MountingUp"; |
|
case kDismountingDown: |
|
return "DismountingDown"; |
|
case kDismountingLeft: |
|
return "DismountingLeft"; |
|
case kDismountingRight: |
|
return "DismountingRight"; |
|
case kIdle: |
|
return "Idle"; |
|
case kReleasing: |
|
return "Releasing"; |
|
case kFallingOff: |
|
return "FallingOff"; |
|
default: |
|
return "WTF???!!!"; |
|
} |
|
} |