From 373dc625f82b47096893add42c4472e4a57ab7eb Mon Sep 17 00:00:00 2001 From: Aki Date: Wed, 9 Feb 2022 22:23:03 +0100 Subject: Moved third-party libraries to a separate subdirectory --- Opcode/OPC_RayCollider.cpp | 762 --------------------------------------------- 1 file changed, 762 deletions(-) delete mode 100644 Opcode/OPC_RayCollider.cpp (limited to 'Opcode/OPC_RayCollider.cpp') diff --git a/Opcode/OPC_RayCollider.cpp b/Opcode/OPC_RayCollider.cpp deleted file mode 100644 index d1c90a5..0000000 --- a/Opcode/OPC_RayCollider.cpp +++ /dev/null @@ -1,762 +0,0 @@ -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -/* - * OPCODE - Optimized Collision Detection - * Copyright (C) 2001 Pierre Terdiman - * Homepage: http://www.codercorner.com/Opcode.htm - */ -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// - -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -/** - * Contains code for a ray collider. - * \file OPC_RayCollider.cpp - * \author Pierre Terdiman - * \date June, 2, 2001 - */ -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// - -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -/** - * Contains a ray-vs-tree collider. - * This class performs a stabbing query on an AABB tree, i.e. does a ray-mesh collision. - * - * HIGHER DISTANCE BOUND: - * - * If P0 and P1 are two 3D points, let's define: - * - d = distance between P0 and P1 - * - Origin = P0 - * - Direction = (P1 - P0) / d = normalized direction vector - * - A parameter t such as a IcePoint P on the line (P0,P1) is P = Origin + t * Direction - * - t = 0 --> P = P0 - * - t = d --> P = P1 - * - * Then we can define a general "ray" as: - * - * struct Ray - * { - * IcePoint Origin; - * IcePoint Direction; - * }; - * - * But it actually maps three different things: - * - a segment, when 0 <= t <= d - * - a half-line, when 0 <= t < +infinity, or -infinity < t <= d - * - a line, when -infinity < t < +infinity - * - * In Opcode, we support segment queries, which yield half-line queries by setting d = +infinity. - * We don't support line-queries. If you need them, shift the origin along the ray by an appropriate margin. - * - * In short, the lower bound is always 0, and you can setup the higher bound "d" with RayCollider::SetMaxDist(). - * - * Query |segment |half-line |line - * --------|-------------------|---------------|---------------- - * Usages |-shadow feelers |-raytracing |- - * |-sweep tests |-in/out tests | - * - * FIRST CONTACT: - * - * - You can setup "first contact" mode or "all contacts" mode with RayCollider::SetFirstContact(). - * - In "first contact" mode we return as soon as the ray hits one face. If can be useful e.g. for shadow feelers, where - * you want to know whether the path to the light is free or not (a boolean answer is enough). - * - In "all contacts" mode we return all faces hit by the ray. - * - * TEMPORAL COHERENCE: - * - * - You can enable or disable temporal coherence with RayCollider::SetTemporalCoherence(). - * - It currently only works in "first contact" mode. - * - If temporal coherence is enabled, the previously hit triangle is cached during the first query. Then, next queries - * start by colliding the ray against the cached triangle. If they still collide, we return immediately. - * - * CLOSEST HIT: - * - * - You can enable or disable "closest hit" with RayCollider::SetClosestHit(). - * - It currently only works in "all contacts" mode. - * - If closest hit is enabled, faces are sorted by distance on-the-fly and the closest one only is reported. - * - * BACKFACE CULLING: - * - * - You can enable or disable backface culling with RayCollider::SetCulling(). - * - If culling is enabled, ray will not hit back faces (only front faces). - * - * - * - * \class RayCollider - * \author Pierre Terdiman - * \version 1.3 - * \date June, 2, 2001 -*/ -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// - -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -/** - * This class describes a face hit by a ray or segment. - * This is a particular class dedicated to stabbing queries. - * - * \class CollisionFace - * \author Pierre Terdiman - * \version 1.3 - * \date March, 20, 2001 -*/ -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// - -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -/** - * This class is a dedicated collection of CollisionFace. - * - * \class CollisionFaces - * \author Pierre Terdiman - * \version 1.3 - * \date March, 20, 2001 -*/ -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// - -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -// Precompiled Header -#include "StdAfx.h" - -using namespace Opcode; - -#include "OPC_RayAABBOverlap.h" -#include "OPC_RayTriOverlap.h" - -#define SET_CONTACT(prim_index, flag) \ - mNbIntersections++; \ - /* Set contact status */ \ - mFlags |= flag; \ - /* In any case the contact has been found and recorded in mStabbedFace */ \ - mStabbedFace.mFaceID = prim_index; - -#ifdef OPC_RAYHIT_CALLBACK - - #define HANDLE_CONTACT(prim_index, flag) \ - SET_CONTACT(prim_index, flag) \ - \ - if(mHitCallback) (mHitCallback)(mStabbedFace, mUserData); - - #define UPDATE_CACHE \ - if(cache && GetContactStatus()) \ - { \ - *cache = mStabbedFace.mFaceID; \ - } -#else - - #define HANDLE_CONTACT(prim_index, flag) \ - SET_CONTACT(prim_index, flag) \ - \ - /* Now we can also record it in mStabbedFaces if available */ \ - if(mStabbedFaces) \ - { \ - /* If we want all faces or if that's the first one we hit */ \ - if(!mClosestHit || !mStabbedFaces->GetNbFaces()) \ - { \ - mStabbedFaces->AddFace(mStabbedFace); \ - } \ - else \ - { \ - /* We only keep closest hit */ \ - CollisionFace* Current = const_cast(mStabbedFaces->GetFaces()); \ - if(Current && mStabbedFace.mDistancemDistance) \ - { \ - *Current = mStabbedFace; \ - } \ - } \ - } - - #define UPDATE_CACHE \ - if(cache && GetContactStatus() && mStabbedFaces) \ - { \ - const CollisionFace* Current = mStabbedFaces->GetFaces(); \ - if(Current) *cache = Current->mFaceID; \ - else *cache = INVALID_ID; \ - } -#endif - -#define SEGMENT_PRIM(prim_index, flag) \ - /* Request vertices from the app */ \ - VertexPointers VP; mIMesh->GetTriangle(VP, prim_index); \ - \ - /* Perform ray-tri overlap test and return */ \ - if(RayTriOverlap(*VP.Vertex[0], *VP.Vertex[1], *VP.Vertex[2])) \ - { \ - /* Intersection IcePoint is valid if dist < segment's length */ \ - /* We know dist>0 so we can use integers */ \ - if(IR(mStabbedFace.mDistance)GetTriangle(VP, prim_index); \ - \ - /* Perform ray-tri overlap test and return */ \ - if(RayTriOverlap(*VP.Vertex[0], *VP.Vertex[1], *VP.Vertex[2])) \ - { \ - HANDLE_CONTACT(prim_index, flag) \ - } - - -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -/** - * Constructor. - */ -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -RayCollider::RayCollider() : - mNbRayBVTests (0), - mNbRayPrimTests (0), - mNbIntersections (0), - mCulling (true), -#ifdef OPC_RAYHIT_CALLBACK - mHitCallback (null), - mUserData (0), -#else - mClosestHit (false), - mStabbedFaces (null), -#endif - mMaxDist (MAX_FLOAT) -{ -} - -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -/** - * Destructor. - */ -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -RayCollider::~RayCollider() -{ -} - -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -/** - * Validates current settings. You should call this method after all the settings and callbacks have been defined. - * \return null if everything is ok, else a string describing the problem - */ -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -const char* RayCollider::ValidateSettings() -{ - if(mMaxDist<0.0f) return "Higher distance bound must be positive!"; - if(TemporalCoherenceEnabled() && !FirstContactEnabled()) return "Temporal coherence only works with ""First contact"" mode!"; -#ifndef OPC_RAYHIT_CALLBACK - if(mClosestHit && FirstContactEnabled()) return "Closest hit doesn't work with ""First contact"" mode!"; - if(TemporalCoherenceEnabled() && mClosestHit) return "Temporal coherence can't guarantee to report closest hit!"; -#endif - if(SkipPrimitiveTests()) return "SkipPrimitiveTests not possible for RayCollider ! (not implemented)"; - return null; -} - -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -/** - * Generic stabbing query for generic OPCODE models. After the call, access the results: - * - with GetContactStatus() - * - in the user-provided destination array - * - * \param world_ray [in] stabbing ray in world space - * \param model [in] Opcode model to collide with - * \param world [in] model's world matrix, or null - * \param cache [in] a possibly cached face index, or null - * \return true if success - * \warning SCALE NOT SUPPORTED. The matrices must contain rotation & translation parts only. - */ -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -bool RayCollider::Collide(const Ray& world_ray, const Model& model, const Matrix4x4* world, udword* cache) -{ - // Checkings - if(!Setup(&model)) return false; - - // Init collision query - if(InitQuery(world_ray, world, cache)) return true; - - if(!model.HasLeafNodes()) - { - if(model.IsQuantized()) - { - const AABBQuantizedNoLeafTree* Tree = (const AABBQuantizedNoLeafTree*)model.GetTree(); - - // Setup dequantization coeffs - mCenterCoeff = Tree->mCenterCoeff; - mExtentsCoeff = Tree->mExtentsCoeff; - - // Perform stabbing query - if(IR(mMaxDist)!=IEEE_MAX_FLOAT) _SegmentStab(Tree->GetNodes()); - else _RayStab(Tree->GetNodes()); - } - else - { - const AABBNoLeafTree* Tree = (const AABBNoLeafTree*)model.GetTree(); - - // Perform stabbing query - if(IR(mMaxDist)!=IEEE_MAX_FLOAT) _SegmentStab(Tree->GetNodes()); - else _RayStab(Tree->GetNodes()); - } - } - else - { - if(model.IsQuantized()) - { - const AABBQuantizedTree* Tree = (const AABBQuantizedTree*)model.GetTree(); - - // Setup dequantization coeffs - mCenterCoeff = Tree->mCenterCoeff; - mExtentsCoeff = Tree->mExtentsCoeff; - - // Perform stabbing query - if(IR(mMaxDist)!=IEEE_MAX_FLOAT) _SegmentStab(Tree->GetNodes()); - else _RayStab(Tree->GetNodes()); - } - else - { - const AABBCollisionTree* Tree = (const AABBCollisionTree*)model.GetTree(); - - // Perform stabbing query - if(IR(mMaxDist)!=IEEE_MAX_FLOAT) _SegmentStab(Tree->GetNodes()); - else _RayStab(Tree->GetNodes()); - } - } - - // Update cache if needed - UPDATE_CACHE - return true; -} - - -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -/** - * Initializes a stabbing query : - * - reset stats & contact status - * - compute ray in local space - * - check temporal coherence - * - * \param world_ray [in] stabbing ray in world space - * \param world [in] object's world matrix, or null - * \param face_id [in] index of previously stabbed triangle - * \return TRUE if we can return immediately - * \warning SCALE NOT SUPPORTED. The matrix must contain rotation & translation parts only. - */ -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -BOOL RayCollider::InitQuery(const Ray& world_ray, const Matrix4x4* world, udword* face_id) -{ - // Reset stats & contact status - Collider::InitQuery(); - mNbRayBVTests = 0; - mNbRayPrimTests = 0; - mNbIntersections = 0; -#ifndef OPC_RAYHIT_CALLBACK - if(mStabbedFaces) mStabbedFaces->Reset(); -#endif - - // Compute ray in local space - // The (Origin/Dir) form is needed for the ray-triangle test anyway (even for segment tests) - if(world) - { - Matrix3x3 InvWorld = *world; - mDir = InvWorld * world_ray.mDir; - - Matrix4x4 World; - InvertPRMatrix(World, *world); - mOrigin = world_ray.mOrig * World; - } - else - { - mDir = world_ray.mDir; - mOrigin = world_ray.mOrig; - } - - // 4) Special case: 1-triangle meshes [Opcode 1.3] - if(mCurrentModel && mCurrentModel->HasSingleNode()) - { - // We simply perform the BV-Prim overlap test each time. We assume single triangle has index 0. - if(!SkipPrimitiveTests()) - { - // Perform overlap test between the unique triangle and the ray (and set contact status if needed) - SEGMENT_PRIM(udword(0), OPC_CONTACT) - - // Return immediately regardless of status - return TRUE; - } - } - - // Check temporal coherence : - - // Test previously colliding primitives first - if(TemporalCoherenceEnabled() && FirstContactEnabled() && face_id && *face_id!=INVALID_ID) - { -#ifdef OLD_CODE -#ifndef OPC_RAYHIT_CALLBACK - if(!mClosestHit) -#endif - { - // Request vertices from the app - VertexPointers VP; - mIMesh->GetTriangle(VP, *face_id); - // Perform ray-cached tri overlap test - if(RayTriOverlap(*VP.Vertex[0], *VP.Vertex[1], *VP.Vertex[2])) - { - // Intersection IcePoint is valid if: - // - distance is positive (else it can just be a face behind the orig IcePoint) - // - distance is smaller than a given max distance (useful for shadow feelers) -// if(mStabbedFace.mDistance>0.0f && mStabbedFace.mDistanceAddFace(mStabbedFace); -#endif - return TRUE; - } - } - } -#else - // New code - // We handle both IceSegment/ray queries with the same segment code, and a possible infinite limit - SEGMENT_PRIM(*face_id, OPC_TEMPORAL_CONTACT) - - // Return immediately if possible - if(GetContactStatus()) return TRUE; -#endif - } - - // Precompute data (moved after temporal coherence since only needed for ray-AABB) - if(IR(mMaxDist)!=IEEE_MAX_FLOAT) - { - // For IceSegment-AABB overlap - mData = 0.5f * mDir * mMaxDist; - mData2 = mOrigin + mData; - - // Precompute mFDir; - mFDir.x = fabsf(mData.x); - mFDir.y = fabsf(mData.y); - mFDir.z = fabsf(mData.z); - } - else - { - // For Ray-AABB overlap -// udword x = SIR(mDir.x)-1; -// udword y = SIR(mDir.y)-1; -// udword z = SIR(mDir.z)-1; -// mData.x = FR(x); -// mData.y = FR(y); -// mData.z = FR(z); - - // Precompute mFDir; - mFDir.x = fabsf(mDir.x); - mFDir.y = fabsf(mDir.y); - mFDir.z = fabsf(mDir.z); - } - - return FALSE; -} - -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -/** - * Stabbing query for vanilla AABB trees. - * \param world_ray [in] stabbing ray in world space - * \param tree [in] AABB tree - * \param box_indices [out] indices of stabbed boxes - * \return true if success - */ -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -bool RayCollider::Collide(const Ray& world_ray, const AABBTree* tree, Container& box_indices) -{ - // ### bad design here - - // This is typically called for a scene tree, full of -AABBs-, not full of triangles. - // So we don't really have "primitives" to deal with. Hence it doesn't work with - // "FirstContact" + "TemporalCoherence". - ASSERT( !(FirstContactEnabled() && TemporalCoherenceEnabled()) ); - - // Checkings - if(!tree) return false; - - // Init collision query - // Basically this is only called to initialize precomputed data - if(InitQuery(world_ray)) return true; - - // Perform stabbing query - if(IR(mMaxDist)!=IEEE_MAX_FLOAT) _SegmentStab(tree, box_indices); - else _RayStab(tree, box_indices); - - return true; -} - - -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -/** - * Recursive stabbing query for normal AABB trees. - * \param node [in] current collision node - */ -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -void RayCollider::_SegmentStab(const AABBCollisionNode* node) -{ - // Perform IceSegment-AABB overlap test - if(!SegmentAABBOverlap(node->mAABB.mCenter, node->mAABB.mExtents)) return; - - if(node->IsLeaf()) - { - SEGMENT_PRIM(node->GetPrimitive(), OPC_CONTACT) - } - else - { - _SegmentStab(node->GetPos()); - - if(ContactFound()) return; - - _SegmentStab(node->GetNeg()); - } -} - -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -/** - * Recursive stabbing query for quantized AABB trees. - * \param node [in] current collision node - */ -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -void RayCollider::_SegmentStab(const AABBQuantizedNode* node) -{ - // Dequantize box - const QuantizedAABB& Box = node->mAABB; - const IcePoint Center(float(Box.mCenter[0]) * mCenterCoeff.x, float(Box.mCenter[1]) * mCenterCoeff.y, float(Box.mCenter[2]) * mCenterCoeff.z); - const IcePoint Extents(float(Box.mExtents[0]) * mExtentsCoeff.x, float(Box.mExtents[1]) * mExtentsCoeff.y, float(Box.mExtents[2]) * mExtentsCoeff.z); - - // Perform IceSegment-AABB overlap test - if(!SegmentAABBOverlap(Center, Extents)) return; - - if(node->IsLeaf()) - { - SEGMENT_PRIM(node->GetPrimitive(), OPC_CONTACT) - } - else - { - _SegmentStab(node->GetPos()); - - if(ContactFound()) return; - - _SegmentStab(node->GetNeg()); - } -} - -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -/** - * Recursive stabbing query for no-leaf AABB trees. - * \param node [in] current collision node - */ -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -void RayCollider::_SegmentStab(const AABBNoLeafNode* node) -{ - // Perform IceSegment-AABB overlap test - if(!SegmentAABBOverlap(node->mAABB.mCenter, node->mAABB.mExtents)) return; - - if(node->HasPosLeaf()) - { - SEGMENT_PRIM(node->GetPosPrimitive(), OPC_CONTACT) - } - else _SegmentStab(node->GetPos()); - - if(ContactFound()) return; - - if(node->HasNegLeaf()) - { - SEGMENT_PRIM(node->GetNegPrimitive(), OPC_CONTACT) - } - else _SegmentStab(node->GetNeg()); -} - -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -/** - * Recursive stabbing query for quantized no-leaf AABB trees. - * \param node [in] current collision node - */ -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -void RayCollider::_SegmentStab(const AABBQuantizedNoLeafNode* node) -{ - // Dequantize box - const QuantizedAABB& Box = node->mAABB; - const IcePoint Center(float(Box.mCenter[0]) * mCenterCoeff.x, float(Box.mCenter[1]) * mCenterCoeff.y, float(Box.mCenter[2]) * mCenterCoeff.z); - const IcePoint Extents(float(Box.mExtents[0]) * mExtentsCoeff.x, float(Box.mExtents[1]) * mExtentsCoeff.y, float(Box.mExtents[2]) * mExtentsCoeff.z); - - // Perform IceSegment-AABB overlap test - if(!SegmentAABBOverlap(Center, Extents)) return; - - if(node->HasPosLeaf()) - { - SEGMENT_PRIM(node->GetPosPrimitive(), OPC_CONTACT) - } - else _SegmentStab(node->GetPos()); - - if(ContactFound()) return; - - if(node->HasNegLeaf()) - { - SEGMENT_PRIM(node->GetNegPrimitive(), OPC_CONTACT) - } - else _SegmentStab(node->GetNeg()); -} - -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -/** - * Recursive stabbing query for vanilla AABB trees. - * \param node [in] current collision node - * \param box_indices [out] indices of stabbed boxes - */ -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -void RayCollider::_SegmentStab(const AABBTreeNode* node, Container& box_indices) -{ - // Test the box against the segment - IcePoint Center, Extents; - node->GetAABB()->GetCenter(Center); - node->GetAABB()->GetExtents(Extents); - if(!SegmentAABBOverlap(Center, Extents)) return; - - if(node->IsLeaf()) - { - box_indices.Add(node->GetPrimitives(), node->GetNbPrimitives()); - } - else - { - _SegmentStab(node->GetPos(), box_indices); - _SegmentStab(node->GetNeg(), box_indices); - } -} - -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -/** - * Recursive stabbing query for normal AABB trees. - * \param node [in] current collision node - */ -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -void RayCollider::_RayStab(const AABBCollisionNode* node) -{ - // Perform Ray-AABB overlap test - if(!RayAABBOverlap(node->mAABB.mCenter, node->mAABB.mExtents)) return; - - if(node->IsLeaf()) - { - RAY_PRIM(node->GetPrimitive(), OPC_CONTACT) - } - else - { - _RayStab(node->GetPos()); - - if(ContactFound()) return; - - _RayStab(node->GetNeg()); - } -} - -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -/** - * Recursive stabbing query for quantized AABB trees. - * \param node [in] current collision node - */ -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -void RayCollider::_RayStab(const AABBQuantizedNode* node) -{ - // Dequantize box - const QuantizedAABB& Box = node->mAABB; - const IcePoint Center(float(Box.mCenter[0]) * mCenterCoeff.x, float(Box.mCenter[1]) * mCenterCoeff.y, float(Box.mCenter[2]) * mCenterCoeff.z); - const IcePoint Extents(float(Box.mExtents[0]) * mExtentsCoeff.x, float(Box.mExtents[1]) * mExtentsCoeff.y, float(Box.mExtents[2]) * mExtentsCoeff.z); - - // Perform Ray-AABB overlap test - if(!RayAABBOverlap(Center, Extents)) return; - - if(node->IsLeaf()) - { - RAY_PRIM(node->GetPrimitive(), OPC_CONTACT) - } - else - { - _RayStab(node->GetPos()); - - if(ContactFound()) return; - - _RayStab(node->GetNeg()); - } -} - -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -/** - * Recursive stabbing query for no-leaf AABB trees. - * \param node [in] current collision node - */ -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -void RayCollider::_RayStab(const AABBNoLeafNode* node) -{ - // Perform Ray-AABB overlap test - if(!RayAABBOverlap(node->mAABB.mCenter, node->mAABB.mExtents)) return; - - if(node->HasPosLeaf()) - { - RAY_PRIM(node->GetPosPrimitive(), OPC_CONTACT) - } - else _RayStab(node->GetPos()); - - if(ContactFound()) return; - - if(node->HasNegLeaf()) - { - RAY_PRIM(node->GetNegPrimitive(), OPC_CONTACT) - } - else _RayStab(node->GetNeg()); -} - -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -/** - * Recursive stabbing query for quantized no-leaf AABB trees. - * \param node [in] current collision node - */ -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -void RayCollider::_RayStab(const AABBQuantizedNoLeafNode* node) -{ - // Dequantize box - const QuantizedAABB& Box = node->mAABB; - const IcePoint Center(float(Box.mCenter[0]) * mCenterCoeff.x, float(Box.mCenter[1]) * mCenterCoeff.y, float(Box.mCenter[2]) * mCenterCoeff.z); - const IcePoint Extents(float(Box.mExtents[0]) * mExtentsCoeff.x, float(Box.mExtents[1]) * mExtentsCoeff.y, float(Box.mExtents[2]) * mExtentsCoeff.z); - - // Perform Ray-AABB overlap test - if(!RayAABBOverlap(Center, Extents)) return; - - if(node->HasPosLeaf()) - { - RAY_PRIM(node->GetPosPrimitive(), OPC_CONTACT) - } - else _RayStab(node->GetPos()); - - if(ContactFound()) return; - - if(node->HasNegLeaf()) - { - RAY_PRIM(node->GetNegPrimitive(), OPC_CONTACT) - } - else _RayStab(node->GetNeg()); -} - -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -/** - * Recursive stabbing query for vanilla AABB trees. - * \param node [in] current collision node - * \param box_indices [out] indices of stabbed boxes - */ -/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// -void RayCollider::_RayStab(const AABBTreeNode* node, Container& box_indices) -{ - // Test the box against the ray - IcePoint Center, Extents; - node->GetAABB()->GetCenter(Center); - node->GetAABB()->GetExtents(Extents); - if(!RayAABBOverlap(Center, Extents)) return; - - if(node->IsLeaf()) - { - mFlags |= OPC_CONTACT; - box_indices.Add(node->GetPrimitives(), node->GetNbPrimitives()); - } - else - { - _RayStab(node->GetPos(), box_indices); - _RayStab(node->GetNeg(), box_indices); - } -} -- cgit v1.1