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Merge branch 'master' of ssh://opensimulator.org/var/git/opensim

user_profiles
Justin Clark-Casey (justincc) 2013-02-06 01:35:25 +00:00
parent 5c94346bd7 3646361279
commit 0d4df99d04
17 changed files with 227 additions and 193 deletions
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64
OpenSim/Region/Physics/BulletSPlugin/BSAPIXNA.cs
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@ -1088,7 +1088,7 @@ private sealed class BulletConstraintXNA : BulletConstraint
{
CollisionWorld.WorldData.ParamData p = new CollisionWorld.WorldData.ParamData();
p.angularDamping = o[0].XangularDamping;
p.angularDamping = BSParam.AngularDamping;
p.defaultFriction = o[0].defaultFriction;
p.defaultFriction = o[0].defaultFriction;
p.defaultDensity = o[0].defaultDensity;
@ -1096,32 +1096,32 @@ private sealed class BulletConstraintXNA : BulletConstraint
p.collisionMargin = o[0].collisionMargin;
p.gravity = o[0].gravity;
p.linearDamping = o[0].XlinearDamping;
p.angularDamping = o[0].XangularDamping;
p.deactivationTime = o[0].XdeactivationTime;
p.linearSleepingThreshold = o[0].XlinearSleepingThreshold;
p.angularSleepingThreshold = o[0].XangularSleepingThreshold;
p.ccdMotionThreshold = o[0].XccdMotionThreshold;
p.ccdSweptSphereRadius = o[0].XccdSweptSphereRadius;
p.contactProcessingThreshold = o[0].XcontactProcessingThreshold;
p.linearDamping = BSParam.LinearDamping;
p.angularDamping = BSParam.AngularDamping;
p.deactivationTime = BSParam.DeactivationTime;
p.linearSleepingThreshold = BSParam.LinearSleepingThreshold;
p.angularSleepingThreshold = BSParam.AngularSleepingThreshold;
p.ccdMotionThreshold = BSParam.CcdMotionThreshold;
p.ccdSweptSphereRadius = BSParam.CcdSweptSphereRadius;
p.contactProcessingThreshold = BSParam.ContactProcessingThreshold;
p.terrainImplementation = o[0].XterrainImplementation;
p.terrainFriction = o[0].XterrainFriction;
p.terrainImplementation = BSParam.TerrainImplementation;
p.terrainFriction = BSParam.TerrainFriction;
p.terrainHitFraction = o[0].XterrainHitFraction;
p.terrainRestitution = o[0].XterrainRestitution;
p.terrainCollisionMargin = o[0].XterrainCollisionMargin;
p.terrainHitFraction = BSParam.TerrainHitFraction;
p.terrainRestitution = BSParam.TerrainRestitution;
p.terrainCollisionMargin = BSParam.TerrainCollisionMargin;
p.avatarFriction = o[0].XavatarFriction;
p.avatarStandingFriction = o[0].XavatarStandingFriction;
p.avatarDensity = o[0].XavatarDensity;
p.avatarRestitution = o[0].XavatarRestitution;
p.avatarCapsuleWidth = o[0].XavatarCapsuleWidth;
p.avatarCapsuleDepth = o[0].XavatarCapsuleDepth;
p.avatarCapsuleHeight = o[0].XavatarCapsuleHeight;
p.avatarContactProcessingThreshold = o[0].XavatarContactProcessingThreshold;
p.avatarFriction = BSParam.AvatarFriction;
p.avatarStandingFriction = BSParam.AvatarStandingFriction;
p.avatarDensity = BSParam.AvatarDensity;
p.avatarRestitution = BSParam.AvatarRestitution;
p.avatarCapsuleWidth = BSParam.AvatarCapsuleWidth;
p.avatarCapsuleDepth = BSParam.AvatarCapsuleDepth;
p.avatarCapsuleHeight = BSParam.AvatarCapsuleHeight;
p.avatarContactProcessingThreshold = BSParam.AvatarContactProcessingThreshold;
p.vehicleAngularDamping = o[0].XvehicleAngularDamping;
p.vehicleAngularDamping = BSParam.VehicleAngularDamping;
p.maxPersistantManifoldPoolSize = o[0].maxPersistantManifoldPoolSize;
p.maxCollisionAlgorithmPoolSize = o[0].maxCollisionAlgorithmPoolSize;
@ -1132,15 +1132,15 @@ private sealed class BulletConstraintXNA : BulletConstraint
p.shouldEnableFrictionCaching = o[0].shouldEnableFrictionCaching;
p.numberOfSolverIterations = o[0].numberOfSolverIterations;
p.linksetImplementation = o[0].XlinksetImplementation;
p.linkConstraintUseFrameOffset = o[0].XlinkConstraintUseFrameOffset;
p.linkConstraintEnableTransMotor = o[0].XlinkConstraintEnableTransMotor;
p.linkConstraintTransMotorMaxVel = o[0].XlinkConstraintTransMotorMaxVel;
p.linkConstraintTransMotorMaxForce = o[0].XlinkConstraintTransMotorMaxForce;
p.linkConstraintERP = o[0].XlinkConstraintERP;
p.linkConstraintCFM = o[0].XlinkConstraintCFM;
p.linkConstraintSolverIterations = o[0].XlinkConstraintSolverIterations;
p.physicsLoggingFrames = o[0].XphysicsLoggingFrames;
p.linksetImplementation = BSParam.LinksetImplementation;
p.linkConstraintUseFrameOffset = BSParam.LinkConstraintUseFrameOffset;
p.linkConstraintEnableTransMotor = BSParam.LinkConstraintEnableTransMotor;
p.linkConstraintTransMotorMaxVel = BSParam.LinkConstraintTransMotorMaxVel;
p.linkConstraintTransMotorMaxForce = BSParam.LinkConstraintTransMotorMaxForce;
p.linkConstraintERP = BSParam.LinkConstraintERP;
p.linkConstraintCFM = BSParam.LinkConstraintCFM;
p.linkConstraintSolverIterations = BSParam.LinkConstraintSolverIterations;
p.physicsLoggingFrames = o[0].physicsLoggingFrames;
DefaultCollisionConstructionInfo ccci = new DefaultCollisionConstructionInfo();
DefaultCollisionConfiguration cci = new DefaultCollisionConfiguration();

38
OpenSim/Region/Physics/BulletSPlugin/BSApiTemplate.cs
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@ -174,32 +174,6 @@ public struct ConfigurationParameters
public float collisionMargin;
public float gravity;
public float XlinearDamping;
public float XangularDamping;
public float XdeactivationTime;
public float XlinearSleepingThreshold;
public float XangularSleepingThreshold;
public float XccdMotionThreshold;
public float XccdSweptSphereRadius;
public float XcontactProcessingThreshold;
public float XterrainImplementation;
public float XterrainFriction;
public float XterrainHitFraction;
public float XterrainRestitution;
public float XterrainCollisionMargin;
public float XavatarFriction;
public float XavatarStandingFriction;
public float XavatarDensity;
public float XavatarRestitution;
public float XavatarCapsuleWidth;
public float XavatarCapsuleDepth;
public float XavatarCapsuleHeight;
public float XavatarContactProcessingThreshold;
public float XvehicleAngularDamping;
public float maxPersistantManifoldPoolSize;
public float maxCollisionAlgorithmPoolSize;
public float shouldDisableContactPoolDynamicAllocation;
@ -208,17 +182,9 @@ public struct ConfigurationParameters
public float shouldSplitSimulationIslands;
public float shouldEnableFrictionCaching;
public float numberOfSolverIterations;
public float useSingleSidedMeshes;
public float XlinksetImplementation;
public float XlinkConstraintUseFrameOffset;
public float XlinkConstraintEnableTransMotor;
public float XlinkConstraintTransMotorMaxVel;
public float XlinkConstraintTransMotorMaxForce;
public float XlinkConstraintERP;
public float XlinkConstraintCFM;
public float XlinkConstraintSolverIterations;
public float XphysicsLoggingFrames;
public float physicsLoggingFrames;
public const float numericTrue = 1f;
public const float numericFalse = 0f;

2
OpenSim/Region/Physics/BulletSPlugin/BSDynamics.cs
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@ -1326,7 +1326,7 @@ namespace OpenSim.Region.Physics.BulletSPlugin
// If verticalError.Z is negative, the vehicle is upside down. Add additional push.
if (verticalError.Z < 0f)
{
vertContributionV.X += PIOverFour;
vertContributionV.X += Math.Sign(vertContributionV.X) * PIOverFour;
// vertContribution.Y -= PIOverFour;
}

155
OpenSim/Region/Physics/BulletSPlugin/BSParam.cs
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@ -39,6 +39,7 @@ public static class BSParam
{
// Level of Detail values kept as float because that's what the Meshmerizer wants
public static float MeshLOD { get; private set; }
public static float MeshCircularLOD { get; private set; }
public static float MeshMegaPrimLOD { get; private set; }
public static float MeshMegaPrimThreshold { get; private set; }
public static float SculptLOD { get; private set; }
@ -61,6 +62,7 @@ public static class BSParam
public static bool ShouldMeshSculptedPrim { get; private set; } // cause scuplted prims to get meshed
public static bool ShouldForceSimplePrimMeshing { get; private set; } // if a cube or sphere, let Bullet do internal shapes
public static bool ShouldUseHullsForPhysicalObjects { get; private set; } // 'true' if should create hulls for physical objects
public static bool ShouldRemoveZeroWidthTriangles { get; private set; }
public static float TerrainImplementation { get; private set; }
public static float TerrainFriction { get; private set; }
@ -68,6 +70,24 @@ public static class BSParam
public static float TerrainRestitution { get; private set; }
public static float TerrainCollisionMargin { get; private set; }
public static float DefaultFriction;
public static float DefaultDensity;
public static float DefaultRestitution;
public static float CollisionMargin;
public static float Gravity;
// Physics Engine operation
public static float MaxPersistantManifoldPoolSize;
public static float MaxCollisionAlgorithmPoolSize;
public static float ShouldDisableContactPoolDynamicAllocation;
public static float ShouldForceUpdateAllAabbs;
public static float ShouldRandomizeSolverOrder;
public static float ShouldSplitSimulationIslands;
public static float ShouldEnableFrictionCaching;
public static float NumberOfSolverIterations;
public static bool UseSingleSidedMeshes { get { return UseSingleSidedMeshesF != ConfigurationParameters.numericFalse; } }
public static float UseSingleSidedMeshesF;
// Avatar parameters
public static float AvatarFriction { get; private set; }
public static float AvatarStandingFriction { get; private set; }
@ -199,22 +219,32 @@ public static class BSParam
(s,cf,p,v) => { ShouldUseHullsForPhysicalObjects = cf.GetBoolean(p, BSParam.BoolNumeric(v)); },
(s) => { return BSParam.NumericBool(ShouldUseHullsForPhysicalObjects); },
(s,p,l,v) => { ShouldUseHullsForPhysicalObjects = BSParam.BoolNumeric(v); } ),
new ParameterDefn("ShouldRemoveZeroWidthTriangles", "If true, remove degenerate triangles from meshes",
ConfigurationParameters.numericFalse,
(s,cf,p,v) => { ShouldRemoveZeroWidthTriangles = cf.GetBoolean(p, BSParam.BoolNumeric(v)); },
(s) => { return BSParam.NumericBool(ShouldRemoveZeroWidthTriangles); },
(s,p,l,v) => { ShouldRemoveZeroWidthTriangles = BSParam.BoolNumeric(v); } ),
new ParameterDefn("MeshLevelOfDetail", "Level of detail to render meshes (32, 16, 8 or 4. 32=most detailed)",
8f,
32f,
(s,cf,p,v) => { MeshLOD = (float)cf.GetInt(p, (int)v); },
(s) => { return MeshLOD; },
(s,p,l,v) => { MeshLOD = v; } ),
new ParameterDefn("MeshLevelOfDetailMegaPrim", "Level of detail to render meshes larger than threshold meters",
16f,
(s,cf,p,v) => { MeshMegaPrimLOD = (float)cf.GetInt(p, (int)v); },
(s) => { return MeshMegaPrimLOD; },
(s,p,l,v) => { MeshMegaPrimLOD = v; } ),
new ParameterDefn("MeshLevelOfDetailCircular", "Level of detail for prims with circular cuts or shapes",
32f,
(s,cf,p,v) => { MeshCircularLOD = (float)cf.GetInt(p, (int)v); },
(s) => { return MeshCircularLOD; },
(s,p,l,v) => { MeshCircularLOD = v; } ),
new ParameterDefn("MeshLevelOfDetailMegaPrimThreshold", "Size (in meters) of a mesh before using MeshMegaPrimLOD",
10f,
(s,cf,p,v) => { MeshMegaPrimThreshold = (float)cf.GetInt(p, (int)v); },
(s) => { return MeshMegaPrimThreshold; },
(s,p,l,v) => { MeshMegaPrimThreshold = v; } ),
new ParameterDefn("MeshLevelOfDetailMegaPrim", "Level of detail to render meshes larger than threshold meters",
32f,
(s,cf,p,v) => { MeshMegaPrimLOD = (float)cf.GetInt(p, (int)v); },
(s) => { return MeshMegaPrimLOD; },
(s,p,l,v) => { MeshMegaPrimLOD = v; } ),
new ParameterDefn("SculptLevelOfDetail", "Level of detail to render sculpties (32, 16, 8 or 4. 32=most detailed)",
32f,
(s,cf,p,v) => { SculptLOD = (float)cf.GetInt(p, (int)v); },
@ -287,29 +317,29 @@ public static class BSParam
new ParameterDefn("DefaultFriction", "Friction factor used on new objects",
0.2f,
(s,cf,p,v) => { s.UnmanagedParams[0].defaultFriction = cf.GetFloat(p, v); },
(s) => { return s.UnmanagedParams[0].defaultFriction; },
(s,p,l,v) => { s.UnmanagedParams[0].defaultFriction = v; } ),
(s,cf,p,v) => { DefaultFriction = cf.GetFloat(p, v); },
(s) => { return DefaultFriction; },
(s,p,l,v) => { DefaultFriction = v; s.UnmanagedParams[0].defaultFriction = v; } ),
new ParameterDefn("DefaultDensity", "Density for new objects" ,
10.000006836f, // Aluminum g/cm3
(s,cf,p,v) => { s.UnmanagedParams[0].defaultDensity = cf.GetFloat(p, v); },
(s) => { return s.UnmanagedParams[0].defaultDensity; },
(s,p,l,v) => { s.UnmanagedParams[0].defaultDensity = v; } ),
(s,cf,p,v) => { DefaultDensity = cf.GetFloat(p, v); },
(s) => { return DefaultDensity; },
(s,p,l,v) => { DefaultDensity = v; s.UnmanagedParams[0].defaultDensity = v; } ),
new ParameterDefn("DefaultRestitution", "Bouncyness of an object" ,
0f,
(s,cf,p,v) => { s.UnmanagedParams[0].defaultRestitution = cf.GetFloat(p, v); },
(s) => { return s.UnmanagedParams[0].defaultRestitution; },
(s,p,l,v) => { s.UnmanagedParams[0].defaultRestitution = v; } ),
(s,cf,p,v) => { DefaultRestitution = cf.GetFloat(p, v); },
(s) => { return DefaultRestitution; },
(s,p,l,v) => { DefaultRestitution = v; s.UnmanagedParams[0].defaultRestitution = v; } ),
new ParameterDefn("CollisionMargin", "Margin around objects before collisions are calculated (must be zero!)",
0.04f,
(s,cf,p,v) => { s.UnmanagedParams[0].collisionMargin = cf.GetFloat(p, v); },
(s) => { return s.UnmanagedParams[0].collisionMargin; },
(s,p,l,v) => { s.UnmanagedParams[0].collisionMargin = v; } ),
(s,cf,p,v) => { CollisionMargin = cf.GetFloat(p, v); },
(s) => { return CollisionMargin; },
(s,p,l,v) => { CollisionMargin = v; s.UnmanagedParams[0].collisionMargin = v; } ),
new ParameterDefn("Gravity", "Vertical force of gravity (negative means down)",
-9.80665f,
(s,cf,p,v) => { s.UnmanagedParams[0].gravity = cf.GetFloat(p, v); },
(s) => { return s.UnmanagedParams[0].gravity; },
(s,p,l,v) => { s.UpdateParameterObject((x)=>{s.UnmanagedParams[0].gravity=x;}, p, PhysParameterEntry.APPLY_TO_NONE, v); },
(s,cf,p,v) => { Gravity = cf.GetFloat(p, v); },
(s) => { return Gravity; },
(s,p,l,v) => { Gravity = v; s.UnmanagedParams[0].gravity = v; },
(s,o,v) => { s.PE.SetGravity(o.PhysBody, new Vector3(0f,0f,v)); } ),
@ -317,49 +347,49 @@ public static class BSParam
0f,
(s,cf,p,v) => { LinearDamping = cf.GetFloat(p, v); },
(s) => { return LinearDamping; },
(s,p,l,v) => { s.UpdateParameterObject((x)=>{LinearDamping=x;}, p, l, v); },
(s,p,l,v) => { LinearDamping = v; },
(s,o,v) => { s.PE.SetDamping(o.PhysBody, v, AngularDamping); } ),
new ParameterDefn("AngularDamping", "Factor to damp angular movement per second (0.0 - 1.0)",
0f,
(s,cf,p,v) => { AngularDamping = cf.GetFloat(p, v); },
(s) => { return AngularDamping; },
(s,p,l,v) => { s.UpdateParameterObject((x)=>{AngularDamping=x;}, p, l, v); },
(s,p,l,v) => { AngularDamping = v; },
(s,o,v) => { s.PE.SetDamping(o.PhysBody, LinearDamping, v); } ),
new ParameterDefn("DeactivationTime", "Seconds before considering an object potentially static",
0.2f,
(s,cf,p,v) => { DeactivationTime = cf.GetFloat(p, v); },
(s) => { return DeactivationTime; },
(s,p,l,v) => { s.UpdateParameterObject((x)=>{DeactivationTime=x;}, p, l, v); },
(s,p,l,v) => { DeactivationTime = v; },
(s,o,v) => { s.PE.SetDeactivationTime(o.PhysBody, v); } ),
new ParameterDefn("LinearSleepingThreshold", "Seconds to measure linear movement before considering static",
0.8f,
(s,cf,p,v) => { LinearSleepingThreshold = cf.GetFloat(p, v); },
(s) => { return LinearSleepingThreshold; },
(s,p,l,v) => { s.UpdateParameterObject((x)=>{LinearSleepingThreshold=x;}, p, l, v); },
(s,p,l,v) => { LinearSleepingThreshold = v;},
(s,o,v) => { s.PE.SetSleepingThresholds(o.PhysBody, v, v); } ),
new ParameterDefn("AngularSleepingThreshold", "Seconds to measure angular movement before considering static",
1.0f,
(s,cf,p,v) => { AngularSleepingThreshold = cf.GetFloat(p, v); },
(s) => { return AngularSleepingThreshold; },
(s,p,l,v) => { s.UpdateParameterObject((x)=>{AngularSleepingThreshold=x;}, p, l, v); },
(s,p,l,v) => { AngularSleepingThreshold = v;},
(s,o,v) => { s.PE.SetSleepingThresholds(o.PhysBody, v, v); } ),
new ParameterDefn("CcdMotionThreshold", "Continuious collision detection threshold (0 means no CCD)" ,
0.0f, // set to zero to disable
(s,cf,p,v) => { CcdMotionThreshold = cf.GetFloat(p, v); },
(s) => { return CcdMotionThreshold; },
(s,p,l,v) => { s.UpdateParameterObject((x)=>{CcdMotionThreshold=x;}, p, l, v); },
(s,p,l,v) => { CcdMotionThreshold = v;},
(s,o,v) => { s.PE.SetCcdMotionThreshold(o.PhysBody, v); } ),
new ParameterDefn("CcdSweptSphereRadius", "Continuious collision detection test radius" ,
0.2f,
(s,cf,p,v) => { CcdSweptSphereRadius = cf.GetFloat(p, v); },
(s) => { return CcdSweptSphereRadius; },
(s,p,l,v) => { s.UpdateParameterObject((x)=>{CcdSweptSphereRadius=x;}, p, l, v); },
(s,p,l,v) => { CcdSweptSphereRadius = v;},
(s,o,v) => { s.PE.SetCcdSweptSphereRadius(o.PhysBody, v); } ),
new ParameterDefn("ContactProcessingThreshold", "Distance above which contacts can be discarded (0 means no discard)" ,
0.0f,
(s,cf,p,v) => { ContactProcessingThreshold = cf.GetFloat(p, v); },
(s) => { return ContactProcessingThreshold; },
(s,p,l,v) => { s.UpdateParameterObject((x)=>{ContactProcessingThreshold=x;}, p, l, v); },
(s,p,l,v) => { ContactProcessingThreshold = v;},
(s,o,v) => { s.PE.SetContactProcessingThreshold(o.PhysBody, v); } ),
new ParameterDefn("TerrainImplementation", "Type of shape to use for terrain (0=heightmap, 1=mesh)",
@ -392,7 +422,7 @@ public static class BSParam
0.2f,
(s,cf,p,v) => { AvatarFriction = cf.GetFloat(p, v); },
(s) => { return AvatarFriction; },
(s,p,l,v) => { s.UpdateParameterObject((x)=>{AvatarFriction=x;}, p, l, v); } ),
(s,p,l,v) => { AvatarFriction = v; } ),
new ParameterDefn("AvatarStandingFriction", "Avatar friction when standing. Changed on avatar recreation.",
10.0f,
(s,cf,p,v) => { AvatarStandingFriction = cf.GetFloat(p, v); },
@ -407,32 +437,32 @@ public static class BSParam
3.5f,
(s,cf,p,v) => { AvatarDensity = cf.GetFloat(p, v); },
(s) => { return AvatarDensity; },
(s,p,l,v) => { s.UpdateParameterObject((x)=>{AvatarDensity=x;}, p, l, v); } ),
(s,p,l,v) => { AvatarDensity = v; } ),
new ParameterDefn("AvatarRestitution", "Bouncyness. Changed on avatar recreation.",
0f,
(s,cf,p,v) => { AvatarRestitution = cf.GetFloat(p, v); },
(s) => { return AvatarRestitution; },
(s,p,l,v) => { s.UpdateParameterObject((x)=>{AvatarRestitution=x;}, p, l, v); } ),
(s,p,l,v) => { AvatarRestitution = v; } ),
new ParameterDefn("AvatarCapsuleWidth", "The distance between the sides of the avatar capsule",
0.6f,
(s,cf,p,v) => { AvatarCapsuleWidth = cf.GetFloat(p, v); },
(s) => { return AvatarCapsuleWidth; },
(s,p,l,v) => { s.UpdateParameterObject((x)=>{AvatarCapsuleWidth=x;}, p, l, v); } ),
(s,p,l,v) => { AvatarCapsuleWidth = v; } ),
new ParameterDefn("AvatarCapsuleDepth", "The distance between the front and back of the avatar capsule",
0.45f,
(s,cf,p,v) => { AvatarCapsuleDepth = cf.GetFloat(p, v); },
(s) => { return AvatarCapsuleDepth; },
(s,p,l,v) => { s.UpdateParameterObject((x)=>{AvatarCapsuleDepth=x;}, p, l, v); } ),
(s,p,l,v) => { AvatarCapsuleDepth = v; } ),
new ParameterDefn("AvatarCapsuleHeight", "Default height of space around avatar",
1.5f,
(s,cf,p,v) => { AvatarCapsuleHeight = cf.GetFloat(p, v); },
(s) => { return AvatarCapsuleHeight; },
(s,p,l,v) => { s.UpdateParameterObject((x)=>{AvatarCapsuleHeight=x;}, p, l, v); } ),
(s,p,l,v) => { AvatarCapsuleHeight = v; } ),
new ParameterDefn("AvatarContactProcessingThreshold", "Distance from capsule to check for collisions",
0.1f,
(s,cf,p,v) => { AvatarContactProcessingThreshold = cf.GetFloat(p, v); },
(s) => { return AvatarContactProcessingThreshold; },
(s,p,l,v) => { s.UpdateParameterObject((x)=>{AvatarContactProcessingThreshold=x;}, p, l, v); } ),
(s,p,l,v) => { AvatarContactProcessingThreshold = v; } ),
new ParameterDefn("AvatarStepHeight", "Height of a step obstacle to consider step correction",
0.3f,
(s,cf,p,v) => { AvatarStepHeight = cf.GetFloat(p, v); },
@ -497,44 +527,49 @@ public static class BSParam
new ParameterDefn("MaxPersistantManifoldPoolSize", "Number of manifolds pooled (0 means default of 4096)",
0f,
(s,cf,p,v) => { s.UnmanagedParams[0].maxPersistantManifoldPoolSize = cf.GetFloat(p, v); },
(s) => { return s.UnmanagedParams[0].maxPersistantManifoldPoolSize; },
(s,p,l,v) => { s.UnmanagedParams[0].maxPersistantManifoldPoolSize = v; } ),
(s,cf,p,v) => { MaxPersistantManifoldPoolSize = cf.GetFloat(p, v); },
(s) => { return MaxPersistantManifoldPoolSize; },
(s,p,l,v) => { MaxPersistantManifoldPoolSize = v; s.UnmanagedParams[0].maxPersistantManifoldPoolSize = v; } ),
new ParameterDefn("MaxCollisionAlgorithmPoolSize", "Number of collisions pooled (0 means default of 4096)",
0f,
(s,cf,p,v) => { s.UnmanagedParams[0].maxCollisionAlgorithmPoolSize = cf.GetFloat(p, v); },
(s) => { return s.UnmanagedParams[0].maxCollisionAlgorithmPoolSize; },
(s,p,l,v) => { s.UnmanagedParams[0].maxCollisionAlgorithmPoolSize = v; } ),
(s,cf,p,v) => { MaxCollisionAlgorithmPoolSize = cf.GetFloat(p, v); },
(s) => { return MaxCollisionAlgorithmPoolSize; },
(s,p,l,v) => { MaxCollisionAlgorithmPoolSize = v; s.UnmanagedParams[0].maxCollisionAlgorithmPoolSize = v; } ),
new ParameterDefn("ShouldDisableContactPoolDynamicAllocation", "Enable to allow large changes in object count",
ConfigurationParameters.numericFalse,
(s,cf,p,v) => { s.UnmanagedParams[0].shouldDisableContactPoolDynamicAllocation = BSParam.NumericBool(cf.GetBoolean(p, BSParam.BoolNumeric(v))); },
(s) => { return s.UnmanagedParams[0].shouldDisableContactPoolDynamicAllocation; },
(s,p,l,v) => { s.UnmanagedParams[0].shouldDisableContactPoolDynamicAllocation = v; } ),
(s,cf,p,v) => { ShouldDisableContactPoolDynamicAllocation = BSParam.NumericBool(cf.GetBoolean(p, BSParam.BoolNumeric(v))); },
(s) => { return ShouldDisableContactPoolDynamicAllocation; },
(s,p,l,v) => { ShouldDisableContactPoolDynamicAllocation = v; s.UnmanagedParams[0].shouldDisableContactPoolDynamicAllocation = v; } ),
new ParameterDefn("ShouldForceUpdateAllAabbs", "Enable to recomputer AABBs every simulator step",
ConfigurationParameters.numericFalse,
(s,cf,p,v) => { s.UnmanagedParams[0].shouldForceUpdateAllAabbs = BSParam.NumericBool(cf.GetBoolean(p, BSParam.BoolNumeric(v))); },
(s) => { return s.UnmanagedParams[0].shouldForceUpdateAllAabbs; },
(s,p,l,v) => { s.UnmanagedParams[0].shouldForceUpdateAllAabbs = v; } ),
(s,cf,p,v) => { ShouldForceUpdateAllAabbs = BSParam.NumericBool(cf.GetBoolean(p, BSParam.BoolNumeric(v))); },
(s) => { return ShouldForceUpdateAllAabbs; },
(s,p,l,v) => { ShouldForceUpdateAllAabbs = v; s.UnmanagedParams[0].shouldForceUpdateAllAabbs = v; } ),
new ParameterDefn("ShouldRandomizeSolverOrder", "Enable for slightly better stacking interaction",
ConfigurationParameters.numericTrue,
(s,cf,p,v) => { s.UnmanagedParams[0].shouldRandomizeSolverOrder = BSParam.NumericBool(cf.GetBoolean(p, BSParam.BoolNumeric(v))); },
(s) => { return s.UnmanagedParams[0].shouldRandomizeSolverOrder; },
(s,p,l,v) => { s.UnmanagedParams[0].shouldRandomizeSolverOrder = v; } ),
(s,cf,p,v) => { ShouldRandomizeSolverOrder = BSParam.NumericBool(cf.GetBoolean(p, BSParam.BoolNumeric(v))); },
(s) => { return ShouldRandomizeSolverOrder; },
(s,p,l,v) => { ShouldRandomizeSolverOrder = v; s.UnmanagedParams[0].shouldRandomizeSolverOrder = v; } ),
new ParameterDefn("ShouldSplitSimulationIslands", "Enable splitting active object scanning islands",
ConfigurationParameters.numericTrue,
(s,cf,p,v) => { s.UnmanagedParams[0].shouldSplitSimulationIslands = BSParam.NumericBool(cf.GetBoolean(p, BSParam.BoolNumeric(v))); },
(s) => { return s.UnmanagedParams[0].shouldSplitSimulationIslands; },
(s,p,l,v) => { s.UnmanagedParams[0].shouldSplitSimulationIslands = v; } ),
(s,cf,p,v) => { ShouldSplitSimulationIslands = BSParam.NumericBool(cf.GetBoolean(p, BSParam.BoolNumeric(v))); },
(s) => { return ShouldSplitSimulationIslands; },
(s,p,l,v) => { ShouldSplitSimulationIslands = v; s.UnmanagedParams[0].shouldSplitSimulationIslands = v; } ),
new ParameterDefn("ShouldEnableFrictionCaching", "Enable friction computation caching",
ConfigurationParameters.numericTrue,
(s,cf,p,v) => { s.UnmanagedParams[0].shouldEnableFrictionCaching = BSParam.NumericBool(cf.GetBoolean(p, BSParam.BoolNumeric(v))); },
(s) => { return s.UnmanagedParams[0].shouldEnableFrictionCaching; },
(s,p,l,v) => { s.UnmanagedParams[0].shouldEnableFrictionCaching = v; } ),
(s,cf,p,v) => { ShouldEnableFrictionCaching = BSParam.NumericBool(cf.GetBoolean(p, BSParam.BoolNumeric(v))); },
(s) => { return ShouldEnableFrictionCaching; },
(s,p,l,v) => { ShouldEnableFrictionCaching = v; s.UnmanagedParams[0].shouldEnableFrictionCaching = v; } ),
new ParameterDefn("NumberOfSolverIterations", "Number of internal iterations (0 means default)",
0f, // zero says use Bullet default
(s,cf,p,v) => { s.UnmanagedParams[0].numberOfSolverIterations = cf.GetFloat(p, v); },
(s) => { return s.UnmanagedParams[0].numberOfSolverIterations; },
(s,p,l,v) => { s.UnmanagedParams[0].numberOfSolverIterations = v; } ),
(s,cf,p,v) => { NumberOfSolverIterations = cf.GetFloat(p, v); },
(s) => { return NumberOfSolverIterations; },
(s,p,l,v) => { NumberOfSolverIterations = v; s.UnmanagedParams[0].numberOfSolverIterations = v; } ),
new ParameterDefn("UseSingleSidedMeshes", "Whether to compute collisions based on single sided meshes.",
ConfigurationParameters.numericTrue,
(s,cf,p,v) => { UseSingleSidedMeshesF = BSParam.NumericBool(cf.GetBoolean(p, BSParam.BoolNumeric(v))); },
(s) => { return UseSingleSidedMeshesF; },
(s,p,l,v) => { UseSingleSidedMeshesF = v; s.UnmanagedParams[0].useSingleSidedMeshes = v; } ),
new ParameterDefn("LinksetImplementation", "Type of linkset implementation (0=Constraint, 1=Compound, 2=Manual)",
(float)BSLinkset.LinksetImplementation.Compound,

58
OpenSim/Region/Physics/BulletSPlugin/BSScene.cs
View File

@ -882,41 +882,41 @@ public sealed class BSScene : PhysicsScene, IPhysicsParameters
BSParam.ParameterDefn theParam;
if (BSParam.TryGetParameter(parm, out theParam))
{
// Set the value in the C# code
theParam.setter(this, parm, localID, val);
// Optionally set the parameter in the unmanaged code
if (theParam.onObject != null)
{
// update all the localIDs specified
// If the local ID is APPLY_TO_NONE, just change the default value
// If the localID is APPLY_TO_ALL change the default value and apply the new value to all the lIDs
// If the localID is a specific object, apply the parameter change to only that object
List<uint> objectIDs = new List<uint>();
switch (localID)
{
case PhysParameterEntry.APPLY_TO_NONE:
// This will cause a call into the physical world if some operation is specified (SetOnObject).
objectIDs.Add(TERRAIN_ID);
TaintedUpdateParameter(parm, objectIDs, val);
break;
case PhysParameterEntry.APPLY_TO_ALL:
lock (PhysObjects) objectIDs = new List<uint>(PhysObjects.Keys);
TaintedUpdateParameter(parm, objectIDs, val);
break;
default:
// setting only one localID
objectIDs.Add(localID);
TaintedUpdateParameter(parm, objectIDs, val);
break;
}
}
ret = true;
}
return ret;
}
// update all the localIDs specified
// If the local ID is APPLY_TO_NONE, just change the default value
// If the localID is APPLY_TO_ALL change the default value and apply the new value to all the lIDs
// If the localID is a specific object, apply the parameter change to only that object
internal delegate void AssignVal(float x);
internal void UpdateParameterObject(AssignVal setDefault, string parm, uint localID, float val)
{
List<uint> objectIDs = new List<uint>();
switch (localID)
{
case PhysParameterEntry.APPLY_TO_NONE:
setDefault(val); // setting only the default value
// This will cause a call into the physical world if some operation is specified (SetOnObject).
objectIDs.Add(TERRAIN_ID);
TaintedUpdateParameter(parm, objectIDs, val);
break;
case PhysParameterEntry.APPLY_TO_ALL:
setDefault(val); // setting ALL also sets the default value
lock (PhysObjects) objectIDs = new List<uint>(PhysObjects.Keys);
TaintedUpdateParameter(parm, objectIDs, val);
break;
default:
// setting only one localID
objectIDs.Add(localID);
TaintedUpdateParameter(parm, objectIDs, val);
break;
}
}
// schedule the actual updating of the paramter to when the phys engine is not busy
private void TaintedUpdateParameter(string parm, List<uint> lIDs, float val)
{

60
OpenSim/Region/Physics/BulletSPlugin/BSShapeCollection.cs
View File

@ -602,8 +602,8 @@ public sealed class BSShapeCollection : IDisposable
if (newMeshKey == prim.PhysShape.shapeKey && prim.PhysShape.type == BSPhysicsShapeType.SHAPE_MESH)
return false;
if (DDetail) DetailLog("{0},BSShapeCollection.GetReferenceToMesh,create,oldKey={1},newKey={2}",
prim.LocalID, prim.PhysShape.shapeKey.ToString("X"), newMeshKey.ToString("X"));
if (DDetail) DetailLog("{0},BSShapeCollection.GetReferenceToMesh,create,oldKey={1},newKey={2},size={3},lod={4}",
prim.LocalID, prim.PhysShape.shapeKey.ToString("X"), newMeshKey.ToString("X"), prim.Size, lod);
// Since we're recreating new, get rid of the reference to the previous shape
DereferenceShape(prim.PhysShape, shapeCallback);
@ -622,7 +622,6 @@ public sealed class BSShapeCollection : IDisposable
private BulletShape CreatePhysicalMesh(string objName, System.UInt64 newMeshKey, PrimitiveBaseShape pbs, OMV.Vector3 size, float lod)
{
BulletShape newShape = new BulletShape();
IMesh meshData = null;
MeshDesc meshDesc;
if (Meshes.TryGetValue(newMeshKey, out meshDesc))
@ -632,27 +631,53 @@ public sealed class BSShapeCollection : IDisposable
}
else
{
meshData = PhysicsScene.mesher.CreateMesh(objName, pbs, size, lod, true, false);
IMesh meshData = PhysicsScene.mesher.CreateMesh(objName, pbs, size, lod,
false, // say it is not physical so a bounding box is not built
false // do not cache the mesh and do not use previously built versions
);
if (meshData != null)
{
int[] indices = meshData.getIndexListAsInt();
List<OMV.Vector3> vertices = meshData.getVertexList();
int realIndicesIndex = indices.Length;
float[] verticesAsFloats = meshData.getVertexListAsFloat();
float[] verticesAsFloats = new float[vertices.Count * 3];
int vi = 0;
foreach (OMV.Vector3 vv in vertices)
if (BSParam.ShouldRemoveZeroWidthTriangles)
{
verticesAsFloats[vi++] = vv.X;
verticesAsFloats[vi++] = vv.Y;
verticesAsFloats[vi++] = vv.Z;
// Remove degenerate triangles. These are triangles with two of the vertices
// are the same. This is complicated by the problem that vertices are not
// made unique in sculpties so we have to compare the values in the vertex.
realIndicesIndex = 0;
for (int tri = 0; tri < indices.Length; tri += 3)
{
int v1 = indices[tri + 0] * 3;
int v2 = indices[tri + 1] * 3;
int v3 = indices[tri + 2] * 3;
if (!((verticesAsFloats[v1 + 0] == verticesAsFloats[v2 + 0]
&& verticesAsFloats[v1 + 1] == verticesAsFloats[v2 + 1]
&& verticesAsFloats[v1 + 2] == verticesAsFloats[v2 + 2])
|| (verticesAsFloats[v2 + 0] == verticesAsFloats[v3 + 0]
&& verticesAsFloats[v2 + 1] == verticesAsFloats[v3 + 1]
&& verticesAsFloats[v2 + 2] == verticesAsFloats[v3 + 2])
|| (verticesAsFloats[v1 + 0] == verticesAsFloats[v3 + 0]
&& verticesAsFloats[v1 + 1] == verticesAsFloats[v3 + 1]
&& verticesAsFloats[v1 + 2] == verticesAsFloats[v3 + 2]))
)
{
// None of the vertices of the triangles are the same. This is a good triangle;
indices[realIndicesIndex + 0] = indices[tri + 0];
indices[realIndicesIndex + 1] = indices[tri + 1];
indices[realIndicesIndex + 2] = indices[tri + 2];
realIndicesIndex += 3;
}
}
}
// m_log.DebugFormat("{0}: BSShapeCollection.CreatePhysicalMesh: calling CreateMesh. lid={1}, key={2}, indices={3}, vertices={4}",
// LogHeader, prim.LocalID, newMeshKey, indices.Length, vertices.Count);
DetailLog("{0},BSShapeCollection.CreatePhysicalMesh,origTri={1},realTri={2},numVerts={3}",
BSScene.DetailLogZero, indices.Length / 3, realIndicesIndex / 3, verticesAsFloats.Length / 3);
newShape = PhysicsScene.PE.CreateMeshShape(PhysicsScene.World,
indices.GetLength(0), indices, vertices.Count, verticesAsFloats);
realIndicesIndex, indices, verticesAsFloats.Length/3, verticesAsFloats);
}
}
newShape.shapeKey = newMeshKey;
@ -831,6 +856,11 @@ public sealed class BSShapeCollection : IDisposable
{
// level of detail based on size and type of the object
float lod = BSParam.MeshLOD;
// prims with curvy internal cuts need higher lod
if (pbs.HollowShape == HollowShape.Circle)
lod = BSParam.MeshCircularLOD;
if (pbs.SculptEntry)
lod = BSParam.SculptLOD;

13
OpenSim/Region/Physics/BulletSPlugin/BSTerrainMesh.cs
View File

@ -96,7 +96,7 @@ public sealed class BSTerrainMesh : BSTerrainPhys
{
// DISASTER!!
PhysicsScene.DetailLog("{0},BSTerrainMesh.create,failedCreationOfShape", ID);
physicsScene.Logger.ErrorFormat("{0} Failed creation of terrain mesh! base={1}", LogHeader, TerrainBase);
PhysicsScene.Logger.ErrorFormat("{0} Failed creation of terrain mesh! base={1}", LogHeader, TerrainBase);
// Something is very messed up and a crash is in our future.
return;
}
@ -108,7 +108,7 @@ public sealed class BSTerrainMesh : BSTerrainPhys
if (!m_terrainBody.HasPhysicalBody)
{
// DISASTER!!
physicsScene.Logger.ErrorFormat("{0} Failed creation of terrain body! base={1}", LogHeader, TerrainBase);
PhysicsScene.Logger.ErrorFormat("{0} Failed creation of terrain body! base={1}", LogHeader, TerrainBase);
// Something is very messed up and a crash is in our future.
return;
}
@ -131,6 +131,12 @@ public sealed class BSTerrainMesh : BSTerrainPhys
m_terrainBody.collisionType = CollisionType.Terrain;
m_terrainBody.ApplyCollisionMask(PhysicsScene);
if (BSParam.UseSingleSidedMeshes)
{
PhysicsScene.DetailLog("{0},BSTerrainMesh.settingCustomMaterial", id);
PhysicsScene.PE.AddToCollisionFlags(m_terrainBody, CollisionFlags.CF_CUSTOM_MATERIAL_CALLBACK);
}
// Make it so the terrain will not move or be considered for movement.
PhysicsScene.PE.ForceActivationState(m_terrainBody, ActivationState.DISABLE_SIMULATION);
}
@ -176,8 +182,7 @@ public sealed class BSTerrainMesh : BSTerrainPhys
// Convert the passed heightmap to mesh information suitable for CreateMeshShape2().
// Return 'true' if successfully created.
public static bool ConvertHeightmapToMesh(
BSScene physicsScene,
public static bool ConvertHeightmapToMesh( BSScene physicsScene,
float[] heightMap, int sizeX, int sizeY, // parameters of incoming heightmap
float extentX, float extentY, // zero based range for output vertices
Vector3 extentBase, // base to be added to all vertices

4
OpenSim/Region/Physics/BulletSPlugin/BulletSimData.cs
View File

@ -217,6 +217,10 @@ public static class BulletSimData
{
// Map of collisionTypes to flags for collision groups and masks.
// An object's 'group' is the collison groups this object belongs to
// An object's 'filter' is the groups another object has to belong to in order to collide with me
// A collision happens if ((obj1.group & obj2.filter) != 0) || ((obj2.group & obj1.filter) != 0)
//
// As mentioned above, don't use the CollisionFilterGroups definitions directly in the code
// but, instead, use references to this dictionary. Finding and debugging
// collision flag problems will be made easier.

5
OpenSim/Region/Physics/BulletSPlugin/BulletSimTODO.txt
View File

@ -65,6 +65,8 @@ Vehicle attributes are not restored when a vehicle is rezzed on region creation
GENERAL TODO LIST:
=================================================
Level-of-detail for mesh creation. Prims with circular interiors require lod of 32.
Is much saved with lower LODs? At the moment, all set to 32.
Collisions are inconsistant: arrows are supposed to hit and report collision. Often don't.
If arrow show at prim, collision reported about 1/3 of time. If collision reported,
both arrow and prim report it. The arrow bounces off the prim 9 out of 10 times.
@ -128,6 +130,9 @@ Physical and phantom will drop through the terrain
LINKSETS
======================================================
Child prims do not report collisions
Allow children of a linkset to be phantom:
http://opensim-dev.2196679.n2.nabble.com/Setting-a-single-child-prim-to-Phantom-tp7578513.html
Add OS_STATUS_PHANTOM_PRIM to llSetLinkPrimitaveParamsFast.
Editing a child of a linkset causes the child to go phantom
Move a child prim once when it is physical and can never move it again without it going phantom
Offset the center of the linkset to be the geometric center of all the prims

1
OpenSim/Region/Physics/Manager/IMesher.cs
View File

@ -59,6 +59,7 @@ namespace OpenSim.Region.Physics.Manager
List<Vector3> getVertexList();
int[] getIndexListAsInt();
int[] getIndexListAsIntLocked();
float[] getVertexListAsFloat();
float[] getVertexListAsFloatLocked();
void getIndexListAsPtrToIntArray(out IntPtr indices, out int triStride, out int indexCount);
void getVertexListAsPtrToFloatArray(out IntPtr vertexList, out int vertexStride, out int vertexCount);

2
OpenSim/Region/Physics/Meshing/Mesh.cs
View File

@ -152,7 +152,7 @@ namespace OpenSim.Region.Physics.Meshing
return result;
}
private float[] getVertexListAsFloat()
public float[] getVertexListAsFloat()
{
if (m_vertices == null)
throw new NotSupportedException();

2
OpenSim/Services/UserAccountService/UserAccountService.cs
View File

@ -545,7 +545,7 @@ namespace OpenSim.Services.UserAccountService
return account;
}
private void CreateDefaultAppearanceEntries(UUID principalID)
protected void CreateDefaultAppearanceEntries(UUID principalID)
{
m_log.DebugFormat("[USER ACCOUNT SERVICE]: Creating default appearance items for {0}", principalID);

16
bin/OpenSimDefaults.ini
View File

@ -916,13 +916,9 @@
; Terrain Implementation {1|0} 0 for HeightField, 1 for Mesh terrain. If you're using the bulletxna engine,
; you will want to switch to the heightfield option
TerrainImplementation = 1
; TerrainImplementation = 0
DefaultFriction = 0.20
DefaultDensity = 10.000006836
DefaultRestitution = 0.0
Gravity = -9.80665
TerrainFriction = 0.30
@ -931,7 +927,7 @@
TerrainCollisionMargin = 0.04
AvatarFriction = 0.2
AvatarStandingFriction = 10.0
AvatarStandingFriction = 0.95
AvatarRestitution = 0.0
AvatarDensity = 3.5
AvatarCapsuleWidth = 0.6
@ -943,7 +939,7 @@
CollisionMargin = 0.04
; Linkset constraint parameters
; Linkset implmentation
LinkImplementation = 1 ; 0=constraint, 1=compound
; Whether to mesh sculpties
@ -952,14 +948,6 @@
; If 'true', force simple prims (box and sphere) to be meshed
ForceSimplePrimMeshing = false
; level of detail for physical meshes. 32,16,8 or 4 with 32 being full detail
MeshLevelOfDetail = 8
; if mesh size is > threshold meters, we need to add more detail because people will notice
MeshLevelOfDetailMegaPrimThreshold = 10
MeshLevelOfDetailMegaPrim = 16
; number^2 non-physical level of detail of the sculpt texture. 32x32 - 1024 verticies
SculptLevelOfDetail = 32
; Bullet step parameters
MaxSubSteps = 10
FixedTimeStep = .01667

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bin/lib32/BulletSim.dll
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bin/lib32/libBulletSim.so
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bin/lib64/BulletSim.dll
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bin/lib64/libBulletSim.so
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