#ifndef _CMETROIDAREACOLLIDER_HPP #define _CMETROIDAREACOLLIDER_HPP #include "types.h" #include "WorldFormat/CAreaOctTree.hpp" #include "Kyoto/Math/CAABox.hpp" #include "rstl/reserved_vector.hpp" class CMetroidAreaCollider { public: class COctreeLeafCache { public: COctreeLeafCache(const CAreaOctTree& octTree); void AddLeaf(const CAreaOctTree::Node& node); u32 GetNumLeaves() const { return x4_nodeCache.size(); } bool HasCacheOverflowed() const { return x908_24_overflow; } const CAreaOctTree& GetOctTree() const { return x0_octTree; } rstl::reserved_vector< CAreaOctTree::Node, 64 >::const_iterator begin() const { return x4_nodeCache.begin(); } rstl::reserved_vector< CAreaOctTree::Node, 64 >::const_iterator end() const { return x4_nodeCache.end(); } private: const CAreaOctTree& x0_octTree; rstl::reserved_vector< CAreaOctTree::Node, 64 > x4_nodeCache; bool x908_24_overflow : 1; }; // TODO private: // TODO }; class CAreaCollisionCache { public: CAreaCollisionCache(const CAABox& aabb); void ClearCache(); const CAABox& GetCacheBounds() const { return x0_aabb; } void SetCacheBounds(const CAABox& aabb) { x0_aabb = aabb; } void AddOctreeLeafCache(const CMetroidAreaCollider::COctreeLeafCache& leafCache); u32 GetNumCaches() const { return x18_leafCaches.size(); } const CMetroidAreaCollider::COctreeLeafCache& GetOctreeLeafCache(int idx) { return x18_leafCaches[idx]; } bool HasCacheOverflowed() const { return x1b40_24_leafOverflow; } rstl::reserved_vector< CMetroidAreaCollider::COctreeLeafCache, 3 >::const_iterator begin() const { return x18_leafCaches.begin(); } rstl::reserved_vector< CMetroidAreaCollider::COctreeLeafCache, 3 >::const_iterator end() const { return x18_leafCaches.end(); } private: CAABox x0_aabb; rstl::reserved_vector< CMetroidAreaCollider::COctreeLeafCache, 3 > x18_leafCaches; bool x1b40_24_leafOverflow : 1; bool x1b40_25_cacheOverflow : 1; }; CHECK_SIZEOF(CAreaCollisionCache, 0x1b44) #endif