/* =========================================================================== Doom 3 BFG Edition GPL Source Code Copyright (C) 1993-2012 id Software LLC, a ZeniMax Media company. This file is part of the Doom 3 BFG Edition GPL Source Code ("Doom 3 BFG Edition Source Code"). Doom 3 BFG Edition Source Code is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. Doom 3 BFG Edition Source Code is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with Doom 3 BFG Edition Source Code. If not, see . In addition, the Doom 3 BFG Edition Source Code is also subject to certain additional terms. You should have received a copy of these additional terms immediately following the terms and conditions of the GNU General Public License which accompanied the Doom 3 BFG Edition Source Code. If not, please request a copy in writing from id Software at the address below. If you have questions concerning this license or the applicable additional terms, you may contact in writing id Software LLC, c/o ZeniMax Media Inc., Suite 120, Rockville, Maryland 20850 USA. =========================================================================== */ #include "../idlib/precompiled.h" #pragma hdrstop #include "Game_local.h" /* =============================================================================== idIK =============================================================================== */ /* ================ idIK::idIK ================ */ idIK::idIK() { ik_activate = false; initialized = false; self = NULL; animator = NULL; modifiedAnim = 0; modelOffset.Zero(); } /* ================ idIK::~idIK ================ */ idIK::~idIK() { } /* ================ idIK::Save ================ */ void idIK::Save( idSaveGame* savefile ) const { savefile->WriteBool( initialized ); savefile->WriteBool( ik_activate ); savefile->WriteObject( self ); savefile->WriteString( animator != NULL && animator->GetAnim( modifiedAnim ) ? animator->GetAnim( modifiedAnim )->Name() : "" ); savefile->WriteVec3( modelOffset ); } /* ================ idIK::Restore ================ */ void idIK::Restore( idRestoreGame* savefile ) { idStr anim; savefile->ReadBool( initialized ); savefile->ReadBool( ik_activate ); savefile->ReadObject( reinterpret_cast( self ) ); savefile->ReadString( anim ); savefile->ReadVec3( modelOffset ); if( self ) { animator = self->GetAnimator(); if( animator == NULL || animator->ModelDef() == NULL ) { gameLocal.Warning( "idIK::Restore: IK for entity '%s' at (%s) has no model set.", self->name.c_str(), self->GetPhysics()->GetOrigin().ToString( 0 ) ); return; } modifiedAnim = animator->GetAnim( anim ); if( modifiedAnim == 0 ) { gameLocal.Warning( "idIK::Restore: IK for entity '%s' at (%s) has no modified animation.", self->name.c_str(), self->GetPhysics()->GetOrigin().ToString( 0 ) ); } } else { animator = NULL; modifiedAnim = 0; } } /* ================ idIK::IsInitialized ================ */ bool idIK::IsInitialized() const { return initialized && ik_enable.GetBool(); } /* ================ idIK::Init ================ */ bool idIK::Init( idEntity* self, const char* anim, const idVec3& modelOffset ) { idRenderModel* model; if( self == NULL ) { return false; } this->self = self; animator = self->GetAnimator(); if( animator == NULL || animator->ModelDef() == NULL ) { gameLocal.Warning( "idIK::Init: IK for entity '%s' at (%s) has no model set.", self->name.c_str(), self->GetPhysics()->GetOrigin().ToString( 0 ) ); return false; } if( animator->ModelDef()->ModelHandle() == NULL ) { gameLocal.Warning( "idIK::Init: IK for entity '%s' at (%s) uses default model.", self->name.c_str(), self->GetPhysics()->GetOrigin().ToString( 0 ) ); return false; } model = animator->ModelHandle(); if( model == NULL ) { gameLocal.Warning( "idIK::Init: IK for entity '%s' at (%s) has no model set.", self->name.c_str(), self->GetPhysics()->GetOrigin().ToString( 0 ) ); return false; } modifiedAnim = animator->GetAnim( anim ); if( modifiedAnim == 0 ) { gameLocal.Warning( "idIK::Init: IK for entity '%s' at (%s) has no modified animation.", self->name.c_str(), self->GetPhysics()->GetOrigin().ToString( 0 ) ); return false; } this->modelOffset = modelOffset; return true; } /* ================ idIK::Evaluate ================ */ void idIK::Evaluate() { } /* ================ idIK::ClearJointMods ================ */ void idIK::ClearJointMods() { ik_activate = false; } /* ================ idIK::SolveTwoBones ================ */ bool idIK::SolveTwoBones( const idVec3& startPos, const idVec3& endPos, const idVec3& dir, float len0, float len1, idVec3& jointPos ) { float length, lengthSqr, lengthInv, x, y; idVec3 vec0, vec1; vec0 = endPos - startPos; lengthSqr = vec0.LengthSqr(); lengthInv = idMath::InvSqrt( lengthSqr ); length = lengthInv * lengthSqr; // if the start and end position are too far out or too close to each other if( length > len0 + len1 || length < idMath::Fabs( len0 - len1 ) ) { jointPos = startPos + 0.5f * vec0; return false; } vec0 *= lengthInv; vec1 = dir - vec0 * dir * vec0; vec1.Normalize(); x = ( length * length + len0 * len0 - len1 * len1 ) * ( 0.5f * lengthInv ); y = idMath::Sqrt( len0 * len0 - x * x ); jointPos = startPos + x * vec0 + y * vec1; return true; } /* ================ idIK::GetBoneAxis ================ */ float idIK::GetBoneAxis( const idVec3& startPos, const idVec3& endPos, const idVec3& dir, idMat3& axis ) { float length; axis[0] = endPos - startPos; length = axis[0].Normalize(); axis[1] = dir - axis[0] * dir * axis[0]; axis[1].Normalize(); axis[2].Cross( axis[1], axis[0] ); return length; } /* =============================================================================== idIK_Walk =============================================================================== */ /* ================ idIK_Walk::idIK_Walk ================ */ idIK_Walk::idIK_Walk() { int i; initialized = false; footModel = NULL; numLegs = 0; enabledLegs = 0; for( i = 0; i < MAX_LEGS; i++ ) { footJoints[i] = INVALID_JOINT; ankleJoints[i] = INVALID_JOINT; kneeJoints[i] = INVALID_JOINT; hipJoints[i] = INVALID_JOINT; dirJoints[i] = INVALID_JOINT; hipForward[i].Zero(); kneeForward[i].Zero(); upperLegLength[i] = 0.0f; lowerLegLength[i] = 0.0f; upperLegToHipJoint[i].Identity(); lowerLegToKneeJoint[i].Identity(); oldAnkleHeights[i] = 0.0f; } waistJoint = INVALID_JOINT; smoothing = 0.75f; waistSmoothing = 0.5f; footShift = 0.0f; waistShift = 0.0f; minWaistFloorDist = 0.0f; minWaistAnkleDist = 0.0f; footUpTrace = 32.0f; footDownTrace = 32.0f; tiltWaist = false; usePivot = false; pivotFoot = -1; pivotYaw = 0.0f; pivotPos.Zero(); oldHeightsValid = false; oldWaistHeight = 0.0f; waistOffset.Zero(); } /* ================ idIK_Walk::~idIK_Walk ================ */ idIK_Walk::~idIK_Walk() { if( footModel ) { delete footModel; } } /* ================ idIK_Walk::Save ================ */ void idIK_Walk::Save( idSaveGame* savefile ) const { int i; idIK::Save( savefile ); savefile->WriteClipModel( footModel ); savefile->WriteInt( numLegs ); savefile->WriteInt( enabledLegs ); for( i = 0; i < MAX_LEGS; i++ ) savefile->WriteInt( footJoints[i] ); for( i = 0; i < MAX_LEGS; i++ ) savefile->WriteInt( ankleJoints[i] ); for( i = 0; i < MAX_LEGS; i++ ) savefile->WriteInt( kneeJoints[i] ); for( i = 0; i < MAX_LEGS; i++ ) savefile->WriteInt( hipJoints[i] ); for( i = 0; i < MAX_LEGS; i++ ) savefile->WriteInt( dirJoints[i] ); savefile->WriteInt( waistJoint ); for( i = 0; i < MAX_LEGS; i++ ) savefile->WriteVec3( hipForward[i] ); for( i = 0; i < MAX_LEGS; i++ ) savefile->WriteVec3( kneeForward[i] ); for( i = 0; i < MAX_LEGS; i++ ) savefile->WriteFloat( upperLegLength[i] ); for( i = 0; i < MAX_LEGS; i++ ) savefile->WriteFloat( lowerLegLength[i] ); for( i = 0; i < MAX_LEGS; i++ ) savefile->WriteMat3( upperLegToHipJoint[i] ); for( i = 0; i < MAX_LEGS; i++ ) savefile->WriteMat3( lowerLegToKneeJoint[i] ); savefile->WriteFloat( smoothing ); savefile->WriteFloat( waistSmoothing ); savefile->WriteFloat( footShift ); savefile->WriteFloat( waistShift ); savefile->WriteFloat( minWaistFloorDist ); savefile->WriteFloat( minWaistAnkleDist ); savefile->WriteFloat( footUpTrace ); savefile->WriteFloat( footDownTrace ); savefile->WriteBool( tiltWaist ); savefile->WriteBool( usePivot ); savefile->WriteInt( pivotFoot ); savefile->WriteFloat( pivotYaw ); savefile->WriteVec3( pivotPos ); savefile->WriteBool( oldHeightsValid ); savefile->WriteFloat( oldWaistHeight ); for( i = 0; i < MAX_LEGS; i++ ) { savefile->WriteFloat( oldAnkleHeights[i] ); } savefile->WriteVec3( waistOffset ); } /* ================ idIK_Walk::Restore ================ */ void idIK_Walk::Restore( idRestoreGame* savefile ) { int i; idIK::Restore( savefile ); savefile->ReadClipModel( footModel ); savefile->ReadInt( numLegs ); savefile->ReadInt( enabledLegs ); for( i = 0; i < MAX_LEGS; i++ ) savefile->ReadInt( ( int& )footJoints[i] ); for( i = 0; i < MAX_LEGS; i++ ) savefile->ReadInt( ( int& )ankleJoints[i] ); for( i = 0; i < MAX_LEGS; i++ ) savefile->ReadInt( ( int& )kneeJoints[i] ); for( i = 0; i < MAX_LEGS; i++ ) savefile->ReadInt( ( int& )hipJoints[i] ); for( i = 0; i < MAX_LEGS; i++ ) savefile->ReadInt( ( int& )dirJoints[i] ); savefile->ReadInt( ( int& )waistJoint ); for( i = 0; i < MAX_LEGS; i++ ) savefile->ReadVec3( hipForward[i] ); for( i = 0; i < MAX_LEGS; i++ ) savefile->ReadVec3( kneeForward[i] ); for( i = 0; i < MAX_LEGS; i++ ) savefile->ReadFloat( upperLegLength[i] ); for( i = 0; i < MAX_LEGS; i++ ) savefile->ReadFloat( lowerLegLength[i] ); for( i = 0; i < MAX_LEGS; i++ ) savefile->ReadMat3( upperLegToHipJoint[i] ); for( i = 0; i < MAX_LEGS; i++ ) savefile->ReadMat3( lowerLegToKneeJoint[i] ); savefile->ReadFloat( smoothing ); savefile->ReadFloat( waistSmoothing ); savefile->ReadFloat( footShift ); savefile->ReadFloat( waistShift ); savefile->ReadFloat( minWaistFloorDist ); savefile->ReadFloat( minWaistAnkleDist ); savefile->ReadFloat( footUpTrace ); savefile->ReadFloat( footDownTrace ); savefile->ReadBool( tiltWaist ); savefile->ReadBool( usePivot ); savefile->ReadInt( pivotFoot ); savefile->ReadFloat( pivotYaw ); savefile->ReadVec3( pivotPos ); savefile->ReadBool( oldHeightsValid ); savefile->ReadFloat( oldWaistHeight ); for( i = 0; i < MAX_LEGS; i++ ) { savefile->ReadFloat( oldAnkleHeights[i] ); } savefile->ReadVec3( waistOffset ); } /* ================ idIK_Walk::Init ================ */ bool idIK_Walk::Init( idEntity* self, const char* anim, const idVec3& modelOffset ) { int i; float footSize; idVec3 verts[4]; idTraceModel trm; const char* jointName; idVec3 dir, ankleOrigin, kneeOrigin, hipOrigin, dirOrigin; idMat3 axis, ankleAxis, kneeAxis, hipAxis; static idVec3 footWinding[4] = { idVec3( 1.0f, 1.0f, 0.0f ), idVec3( -1.0f, 1.0f, 0.0f ), idVec3( -1.0f, -1.0f, 0.0f ), idVec3( 1.0f, -1.0f, 0.0f ) }; if( !self ) { return false; } numLegs = Min( self->spawnArgs.GetInt( "ik_numLegs", "0" ), MAX_LEGS ); if( numLegs == 0 ) { return true; } if( !idIK::Init( self, anim, modelOffset ) ) { return false; } int numJoints = animator->NumJoints(); idJointMat* joints = ( idJointMat* )_alloca16( numJoints * sizeof( joints[0] ) ); // create the animation frame used to setup the IK gameEdit->ANIM_CreateAnimFrame( animator->ModelHandle(), animator->GetAnim( modifiedAnim )->MD5Anim( 0 ), numJoints, joints, 1, animator->ModelDef()->GetVisualOffset() + modelOffset, animator->RemoveOrigin() ); enabledLegs = 0; // get all the joints for( i = 0; i < numLegs; i++ ) { jointName = self->spawnArgs.GetString( va( "ik_foot%d", i + 1 ) ); footJoints[i] = animator->GetJointHandle( jointName ); if( footJoints[i] == INVALID_JOINT ) { gameLocal.Error( "idIK_Walk::Init: invalid foot joint '%s'", jointName ); } jointName = self->spawnArgs.GetString( va( "ik_ankle%d", i + 1 ) ); ankleJoints[i] = animator->GetJointHandle( jointName ); if( ankleJoints[i] == INVALID_JOINT ) { gameLocal.Error( "idIK_Walk::Init: invalid ankle joint '%s'", jointName ); } jointName = self->spawnArgs.GetString( va( "ik_knee%d", i + 1 ) ); kneeJoints[i] = animator->GetJointHandle( jointName ); if( kneeJoints[i] == INVALID_JOINT ) { gameLocal.Error( "idIK_Walk::Init: invalid knee joint '%s'\n", jointName ); } jointName = self->spawnArgs.GetString( va( "ik_hip%d", i + 1 ) ); hipJoints[i] = animator->GetJointHandle( jointName ); if( hipJoints[i] == INVALID_JOINT ) { gameLocal.Error( "idIK_Walk::Init: invalid hip joint '%s'\n", jointName ); } jointName = self->spawnArgs.GetString( va( "ik_dir%d", i + 1 ) ); dirJoints[i] = animator->GetJointHandle( jointName ); enabledLegs |= 1 << i; } jointName = self->spawnArgs.GetString( "ik_waist" ); waistJoint = animator->GetJointHandle( jointName ); if( waistJoint == INVALID_JOINT ) { gameLocal.Error( "idIK_Walk::Init: invalid waist joint '%s'\n", jointName ); } // get the leg bone lengths and rotation matrices for( i = 0; i < numLegs; i++ ) { oldAnkleHeights[i] = 0.0f; ankleAxis = joints[ ankleJoints[ i ] ].ToMat3(); ankleOrigin = joints[ ankleJoints[ i ] ].ToVec3(); kneeAxis = joints[ kneeJoints[ i ] ].ToMat3(); kneeOrigin = joints[ kneeJoints[ i ] ].ToVec3(); hipAxis = joints[ hipJoints[ i ] ].ToMat3(); hipOrigin = joints[ hipJoints[ i ] ].ToVec3(); // get the IK direction if( dirJoints[i] != INVALID_JOINT ) { dirOrigin = joints[ dirJoints[ i ] ].ToVec3(); dir = dirOrigin - kneeOrigin; } else { dir.Set( 1.0f, 0.0f, 0.0f ); } hipForward[i] = dir * hipAxis.Transpose(); kneeForward[i] = dir * kneeAxis.Transpose(); // conversion from upper leg bone axis to hip joint axis upperLegLength[i] = GetBoneAxis( hipOrigin, kneeOrigin, dir, axis ); upperLegToHipJoint[i] = hipAxis * axis.Transpose(); // conversion from lower leg bone axis to knee joint axis lowerLegLength[i] = GetBoneAxis( kneeOrigin, ankleOrigin, dir, axis ); lowerLegToKneeJoint[i] = kneeAxis * axis.Transpose(); } smoothing = self->spawnArgs.GetFloat( "ik_smoothing", "0.75" ); waistSmoothing = self->spawnArgs.GetFloat( "ik_waistSmoothing", "0.75" ); footShift = self->spawnArgs.GetFloat( "ik_footShift", "0" ); waistShift = self->spawnArgs.GetFloat( "ik_waistShift", "0" ); minWaistFloorDist = self->spawnArgs.GetFloat( "ik_minWaistFloorDist", "0" ); minWaistAnkleDist = self->spawnArgs.GetFloat( "ik_minWaistAnkleDist", "0" ); footUpTrace = self->spawnArgs.GetFloat( "ik_footUpTrace", "32" ); footDownTrace = self->spawnArgs.GetFloat( "ik_footDownTrace", "32" ); tiltWaist = self->spawnArgs.GetBool( "ik_tiltWaist", "0" ); usePivot = self->spawnArgs.GetBool( "ik_usePivot", "0" ); // setup a clip model for the feet footSize = self->spawnArgs.GetFloat( "ik_footSize", "4" ) * 0.5f; if( footSize > 0.0f ) { for( i = 0; i < 4; i++ ) { verts[i] = footWinding[i] * footSize; } trm.SetupPolygon( verts, 4 ); footModel = new( TAG_PHYSICS_CLIP ) idClipModel( trm ); } initialized = true; return true; } /* ================ idIK_Walk::Evaluate ================ */ void idIK_Walk::Evaluate() { int i, newPivotFoot = -1; float modelHeight, jointHeight, lowestHeight, floorHeights[MAX_LEGS]; float shift, smallestShift, newHeight, step, newPivotYaw, height, largestAnkleHeight; idVec3 modelOrigin, normal, hipDir, kneeDir, start, end, jointOrigins[MAX_LEGS]; idVec3 footOrigin, ankleOrigin, kneeOrigin, hipOrigin, waistOrigin; idMat3 modelAxis, waistAxis, axis; idMat3 hipAxis[MAX_LEGS], kneeAxis[MAX_LEGS], ankleAxis[MAX_LEGS]; trace_t results; if( !self || !gameLocal.isNewFrame ) { return; } // if no IK enabled on any legs if( !enabledLegs ) { return; } normal = - self->GetPhysics()->GetGravityNormal(); modelOrigin = self->GetPhysics()->GetOrigin(); modelAxis = self->GetRenderEntity()->axis; modelHeight = modelOrigin * normal; modelOrigin += modelOffset * modelAxis; // create frame without joint mods animator->CreateFrame( gameLocal.time, false ); // get the joint positions for the feet lowestHeight = idMath::INFINITY; for( i = 0; i < numLegs; i++ ) { animator->GetJointTransform( footJoints[i], gameLocal.time, footOrigin, axis ); jointOrigins[i] = modelOrigin + footOrigin * modelAxis; jointHeight = jointOrigins[i] * normal; if( jointHeight < lowestHeight ) { lowestHeight = jointHeight; newPivotFoot = i; } } if( usePivot ) { newPivotYaw = modelAxis[0].ToYaw(); // change pivot foot if( newPivotFoot != pivotFoot || idMath::Fabs( idMath::AngleNormalize180( newPivotYaw - pivotYaw ) ) > 30.0f ) { pivotFoot = newPivotFoot; pivotYaw = newPivotYaw; animator->GetJointTransform( footJoints[pivotFoot], gameLocal.time, footOrigin, axis ); pivotPos = modelOrigin + footOrigin * modelAxis; } // keep pivot foot in place jointOrigins[pivotFoot] = pivotPos; } // get the floor heights for the feet for( i = 0; i < numLegs; i++ ) { if( !( enabledLegs & ( 1 << i ) ) ) { continue; } start = jointOrigins[i] + normal * footUpTrace; end = jointOrigins[i] - normal * footDownTrace; gameLocal.clip.Translation( results, start, end, footModel, mat3_identity, CONTENTS_SOLID | CONTENTS_IKCLIP, self ); floorHeights[i] = results.endpos * normal; if( ik_debug.GetBool() && footModel ) { idFixedWinding w; for( int j = 0; j < footModel->GetTraceModel()->numVerts; j++ ) { w += footModel->GetTraceModel()->verts[j]; } gameRenderWorld->DebugWinding( colorRed, w, results.endpos, results.endAxis ); } } const idPhysics* phys = self->GetPhysics(); // test whether or not the character standing on the ground bool onGround = phys->HasGroundContacts(); // test whether or not the character is standing on a plat bool onPlat = false; for( i = 0; i < phys->GetNumContacts(); i++ ) { idEntity* ent = gameLocal.entities[ phys->GetContact( i ).entityNum ]; if( ent != NULL && ent->IsType( idPlat::Type ) ) { onPlat = true; break; } } // adjust heights of the ankles smallestShift = idMath::INFINITY; largestAnkleHeight = -idMath::INFINITY; for( i = 0; i < numLegs; i++ ) { if( onGround && ( enabledLegs & ( 1 << i ) ) ) { shift = floorHeights[i] - modelHeight + footShift; } else { shift = 0.0f; } if( shift < smallestShift ) { smallestShift = shift; } animator->GetJointTransform( ankleJoints[i], gameLocal.time, ankleOrigin, ankleAxis[i] ); jointOrigins[i] = modelOrigin + ankleOrigin * modelAxis; height = jointOrigins[i] * normal; if( oldHeightsValid && !onPlat ) { step = height + shift - oldAnkleHeights[i]; shift -= smoothing * step; } newHeight = height + shift; if( newHeight > largestAnkleHeight ) { largestAnkleHeight = newHeight; } oldAnkleHeights[i] = newHeight; jointOrigins[i] += shift * normal; } animator->GetJointTransform( waistJoint, gameLocal.time, waistOrigin, waistAxis ); waistOrigin = modelOrigin + waistOrigin * modelAxis; // adjust position of the waist waistOffset = ( smallestShift + waistShift ) * normal; // if the waist should be at least a certain distance above the floor if( minWaistFloorDist > 0.0f && waistOffset * normal < 0.0f ) { start = waistOrigin; end = waistOrigin + waistOffset - normal * minWaistFloorDist; gameLocal.clip.Translation( results, start, end, footModel, modelAxis, CONTENTS_SOLID | CONTENTS_IKCLIP, self ); height = ( waistOrigin + waistOffset - results.endpos ) * normal; if( height < minWaistFloorDist ) { waistOffset += ( minWaistFloorDist - height ) * normal; } } // if the waist should be at least a certain distance above the ankles if( minWaistAnkleDist > 0.0f ) { height = ( waistOrigin + waistOffset ) * normal; if( height - largestAnkleHeight < minWaistAnkleDist ) { waistOffset += ( minWaistAnkleDist - ( height - largestAnkleHeight ) ) * normal; } } if( oldHeightsValid ) { // smoothly adjust height of waist newHeight = ( waistOrigin + waistOffset ) * normal; step = newHeight - oldWaistHeight; waistOffset -= waistSmoothing * step * normal; } // save height of waist for smoothing oldWaistHeight = ( waistOrigin + waistOffset ) * normal; if( !oldHeightsValid ) { oldHeightsValid = true; return; } // solve IK for( i = 0; i < numLegs; i++ ) { // get the position of the hip in world space animator->GetJointTransform( hipJoints[i], gameLocal.time, hipOrigin, axis ); hipOrigin = modelOrigin + waistOffset + hipOrigin * modelAxis; hipDir = hipForward[i] * axis * modelAxis; // get the IK bend direction animator->GetJointTransform( kneeJoints[i], gameLocal.time, kneeOrigin, axis ); kneeDir = kneeForward[i] * axis * modelAxis; // solve IK and calculate knee position SolveTwoBones( hipOrigin, jointOrigins[i], kneeDir, upperLegLength[i], lowerLegLength[i], kneeOrigin ); if( ik_debug.GetBool() ) { gameRenderWorld->DebugLine( colorCyan, hipOrigin, kneeOrigin ); gameRenderWorld->DebugLine( colorRed, kneeOrigin, jointOrigins[i] ); gameRenderWorld->DebugLine( colorYellow, kneeOrigin, kneeOrigin + hipDir ); gameRenderWorld->DebugLine( colorGreen, kneeOrigin, kneeOrigin + kneeDir ); } // get the axis for the hip joint GetBoneAxis( hipOrigin, kneeOrigin, hipDir, axis ); hipAxis[i] = upperLegToHipJoint[i] * ( axis * modelAxis.Transpose() ); // get the axis for the knee joint GetBoneAxis( kneeOrigin, jointOrigins[i], kneeDir, axis ); kneeAxis[i] = lowerLegToKneeJoint[i] * ( axis * modelAxis.Transpose() ); } // set the joint mods animator->SetJointAxis( waistJoint, JOINTMOD_WORLD_OVERRIDE, waistAxis ); animator->SetJointPos( waistJoint, JOINTMOD_WORLD_OVERRIDE, ( waistOrigin + waistOffset - modelOrigin ) * modelAxis.Transpose() ); for( i = 0; i < numLegs; i++ ) { animator->SetJointAxis( hipJoints[i], JOINTMOD_WORLD_OVERRIDE, hipAxis[i] ); animator->SetJointAxis( kneeJoints[i], JOINTMOD_WORLD_OVERRIDE, kneeAxis[i] ); animator->SetJointAxis( ankleJoints[i], JOINTMOD_WORLD_OVERRIDE, ankleAxis[i] ); } ik_activate = true; } /* ================ idIK_Walk::ClearJointMods ================ */ void idIK_Walk::ClearJointMods() { int i; if( !self || !ik_activate ) { return; } animator->SetJointAxis( waistJoint, JOINTMOD_NONE, mat3_identity ); animator->SetJointPos( waistJoint, JOINTMOD_NONE, vec3_origin ); for( i = 0; i < numLegs; i++ ) { animator->SetJointAxis( hipJoints[i], JOINTMOD_NONE, mat3_identity ); animator->SetJointAxis( kneeJoints[i], JOINTMOD_NONE, mat3_identity ); animator->SetJointAxis( ankleJoints[i], JOINTMOD_NONE, mat3_identity ); } ik_activate = false; } /* ================ idIK_Walk::EnableAll ================ */ void idIK_Walk::EnableAll() { enabledLegs = ( 1 << numLegs ) - 1; oldHeightsValid = false; } /* ================ idIK_Walk::DisableAll ================ */ void idIK_Walk::DisableAll() { enabledLegs = 0; oldHeightsValid = false; } /* ================ idIK_Walk::EnableLeg ================ */ void idIK_Walk::EnableLeg( int num ) { enabledLegs |= 1 << num; } /* ================ idIK_Walk::DisableLeg ================ */ void idIK_Walk::DisableLeg( int num ) { enabledLegs &= ~( 1 << num ); } /* =============================================================================== idIK_Reach =============================================================================== */ /* ================ idIK_Reach::idIK_Reach ================ */ idIK_Reach::idIK_Reach() { int i; initialized = false; numArms = 0; enabledArms = 0; for( i = 0; i < MAX_ARMS; i++ ) { handJoints[i] = INVALID_JOINT; elbowJoints[i] = INVALID_JOINT; shoulderJoints[i] = INVALID_JOINT; dirJoints[i] = INVALID_JOINT; shoulderForward[i].Zero(); elbowForward[i].Zero(); upperArmLength[i] = 0.0f; lowerArmLength[i] = 0.0f; upperArmToShoulderJoint[i].Identity(); lowerArmToElbowJoint[i].Identity(); } } /* ================ idIK_Reach::~idIK_Reach ================ */ idIK_Reach::~idIK_Reach() { } /* ================ idIK_Reach::Save ================ */ void idIK_Reach::Save( idSaveGame* savefile ) const { int i; idIK::Save( savefile ); savefile->WriteInt( numArms ); savefile->WriteInt( enabledArms ); for( i = 0; i < MAX_ARMS; i++ ) savefile->WriteInt( handJoints[i] ); for( i = 0; i < MAX_ARMS; i++ ) savefile->WriteInt( elbowJoints[i] ); for( i = 0; i < MAX_ARMS; i++ ) savefile->WriteInt( shoulderJoints[i] ); for( i = 0; i < MAX_ARMS; i++ ) savefile->WriteInt( dirJoints[i] ); for( i = 0; i < MAX_ARMS; i++ ) savefile->WriteVec3( shoulderForward[i] ); for( i = 0; i < MAX_ARMS; i++ ) savefile->WriteVec3( elbowForward[i] ); for( i = 0; i < MAX_ARMS; i++ ) savefile->WriteFloat( upperArmLength[i] ); for( i = 0; i < MAX_ARMS; i++ ) savefile->WriteFloat( lowerArmLength[i] ); for( i = 0; i < MAX_ARMS; i++ ) savefile->WriteMat3( upperArmToShoulderJoint[i] ); for( i = 0; i < MAX_ARMS; i++ ) savefile->WriteMat3( lowerArmToElbowJoint[i] ); } /* ================ idIK_Reach::Restore ================ */ void idIK_Reach::Restore( idRestoreGame* savefile ) { int i; idIK::Restore( savefile ); savefile->ReadInt( numArms ); savefile->ReadInt( enabledArms ); for( i = 0; i < MAX_ARMS; i++ ) savefile->ReadInt( ( int& )handJoints[i] ); for( i = 0; i < MAX_ARMS; i++ ) savefile->ReadInt( ( int& )elbowJoints[i] ); for( i = 0; i < MAX_ARMS; i++ ) savefile->ReadInt( ( int& )shoulderJoints[i] ); for( i = 0; i < MAX_ARMS; i++ ) savefile->ReadInt( ( int& )dirJoints[i] ); for( i = 0; i < MAX_ARMS; i++ ) savefile->ReadVec3( shoulderForward[i] ); for( i = 0; i < MAX_ARMS; i++ ) savefile->ReadVec3( elbowForward[i] ); for( i = 0; i < MAX_ARMS; i++ ) savefile->ReadFloat( upperArmLength[i] ); for( i = 0; i < MAX_ARMS; i++ ) savefile->ReadFloat( lowerArmLength[i] ); for( i = 0; i < MAX_ARMS; i++ ) savefile->ReadMat3( upperArmToShoulderJoint[i] ); for( i = 0; i < MAX_ARMS; i++ ) savefile->ReadMat3( lowerArmToElbowJoint[i] ); } /* ================ idIK_Reach::Init ================ */ bool idIK_Reach::Init( idEntity* self, const char* anim, const idVec3& modelOffset ) { int i; const char* jointName; idTraceModel trm; idVec3 dir, handOrigin, elbowOrigin, shoulderOrigin, dirOrigin; idMat3 axis, handAxis, elbowAxis, shoulderAxis; if( !self ) { return false; } numArms = Min( self->spawnArgs.GetInt( "ik_numArms", "0" ), MAX_ARMS ); if( numArms == 0 ) { return true; } if( !idIK::Init( self, anim, modelOffset ) ) { return false; } int numJoints = animator->NumJoints(); idJointMat* joints = ( idJointMat* )_alloca16( numJoints * sizeof( joints[0] ) ); // create the animation frame used to setup the IK gameEdit->ANIM_CreateAnimFrame( animator->ModelHandle(), animator->GetAnim( modifiedAnim )->MD5Anim( 0 ), numJoints, joints, 1, animator->ModelDef()->GetVisualOffset() + modelOffset, animator->RemoveOrigin() ); enabledArms = 0; // get all the joints for( i = 0; i < numArms; i++ ) { jointName = self->spawnArgs.GetString( va( "ik_hand%d", i + 1 ) ); handJoints[i] = animator->GetJointHandle( jointName ); if( handJoints[i] == INVALID_JOINT ) { gameLocal.Error( "idIK_Reach::Init: invalid hand joint '%s'", jointName ); } jointName = self->spawnArgs.GetString( va( "ik_elbow%d", i + 1 ) ); elbowJoints[i] = animator->GetJointHandle( jointName ); if( elbowJoints[i] == INVALID_JOINT ) { gameLocal.Error( "idIK_Reach::Init: invalid elbow joint '%s'\n", jointName ); } jointName = self->spawnArgs.GetString( va( "ik_shoulder%d", i + 1 ) ); shoulderJoints[i] = animator->GetJointHandle( jointName ); if( shoulderJoints[i] == INVALID_JOINT ) { gameLocal.Error( "idIK_Reach::Init: invalid shoulder joint '%s'\n", jointName ); } jointName = self->spawnArgs.GetString( va( "ik_elbowDir%d", i + 1 ) ); dirJoints[i] = animator->GetJointHandle( jointName ); enabledArms |= 1 << i; } // get the arm bone lengths and rotation matrices for( i = 0; i < numArms; i++ ) { handAxis = joints[ handJoints[ i ] ].ToMat3(); handOrigin = joints[ handJoints[ i ] ].ToVec3(); elbowAxis = joints[ elbowJoints[ i ] ].ToMat3(); elbowOrigin = joints[ elbowJoints[ i ] ].ToVec3(); shoulderAxis = joints[ shoulderJoints[ i ] ].ToMat3(); shoulderOrigin = joints[ shoulderJoints[ i ] ].ToVec3(); // get the IK direction if( dirJoints[i] != INVALID_JOINT ) { dirOrigin = joints[ dirJoints[ i ] ].ToVec3(); dir = dirOrigin - elbowOrigin; } else { dir.Set( -1.0f, 0.0f, 0.0f ); } shoulderForward[i] = dir * shoulderAxis.Transpose(); elbowForward[i] = dir * elbowAxis.Transpose(); // conversion from upper arm bone axis to should joint axis upperArmLength[i] = GetBoneAxis( shoulderOrigin, elbowOrigin, dir, axis ); upperArmToShoulderJoint[i] = shoulderAxis * axis.Transpose(); // conversion from lower arm bone axis to elbow joint axis lowerArmLength[i] = GetBoneAxis( elbowOrigin, handOrigin, dir, axis ); lowerArmToElbowJoint[i] = elbowAxis * axis.Transpose(); } initialized = true; return true; } /* ================ idIK_Reach::Evaluate ================ */ void idIK_Reach::Evaluate() { int i; idVec3 modelOrigin, shoulderOrigin, elbowOrigin, handOrigin, shoulderDir, elbowDir; idMat3 modelAxis, axis; idMat3 shoulderAxis[MAX_ARMS], elbowAxis[MAX_ARMS]; trace_t trace; modelOrigin = self->GetRenderEntity()->origin; modelAxis = self->GetRenderEntity()->axis; // solve IK for( i = 0; i < numArms; i++ ) { // get the position of the shoulder in world space animator->GetJointTransform( shoulderJoints[i], gameLocal.time, shoulderOrigin, axis ); shoulderOrigin = modelOrigin + shoulderOrigin * modelAxis; shoulderDir = shoulderForward[i] * axis * modelAxis; // get the position of the hand in world space animator->GetJointTransform( handJoints[i], gameLocal.time, handOrigin, axis ); handOrigin = modelOrigin + handOrigin * modelAxis; // get first collision going from shoulder to hand gameLocal.clip.TracePoint( trace, shoulderOrigin, handOrigin, CONTENTS_SOLID, self ); handOrigin = trace.endpos; // get the IK bend direction animator->GetJointTransform( elbowJoints[i], gameLocal.time, elbowOrigin, axis ); elbowDir = elbowForward[i] * axis * modelAxis; // solve IK and calculate elbow position SolveTwoBones( shoulderOrigin, handOrigin, elbowDir, upperArmLength[i], lowerArmLength[i], elbowOrigin ); if( ik_debug.GetBool() ) { gameRenderWorld->DebugLine( colorCyan, shoulderOrigin, elbowOrigin ); gameRenderWorld->DebugLine( colorRed, elbowOrigin, handOrigin ); gameRenderWorld->DebugLine( colorYellow, elbowOrigin, elbowOrigin + elbowDir ); gameRenderWorld->DebugLine( colorGreen, elbowOrigin, elbowOrigin + shoulderDir ); } // get the axis for the shoulder joint GetBoneAxis( shoulderOrigin, elbowOrigin, shoulderDir, axis ); shoulderAxis[i] = upperArmToShoulderJoint[i] * ( axis * modelAxis.Transpose() ); // get the axis for the elbow joint GetBoneAxis( elbowOrigin, handOrigin, elbowDir, axis ); elbowAxis[i] = lowerArmToElbowJoint[i] * ( axis * modelAxis.Transpose() ); } for( i = 0; i < numArms; i++ ) { animator->SetJointAxis( shoulderJoints[i], JOINTMOD_WORLD_OVERRIDE, shoulderAxis[i] ); animator->SetJointAxis( elbowJoints[i], JOINTMOD_WORLD_OVERRIDE, elbowAxis[i] ); } ik_activate = true; } /* ================ idIK_Reach::ClearJointMods ================ */ void idIK_Reach::ClearJointMods() { int i; if( !self || !ik_activate ) { return; } for( i = 0; i < numArms; i++ ) { animator->SetJointAxis( shoulderJoints[i], JOINTMOD_NONE, mat3_identity ); animator->SetJointAxis( elbowJoints[i], JOINTMOD_NONE, mat3_identity ); animator->SetJointAxis( handJoints[i], JOINTMOD_NONE, mat3_identity ); } ik_activate = false; }