#include "dpShapeBase.h" #include "dpShapeBox.h" #include "dpShapeSphere.h" #include "dpCollisionChecks.h" #include "dpEntity.h" #include "NiPoint3.h" #include "NiQuaternion.h" #include dpShapeBox::dpShapeBox(dpEntity* parentEntity, const BoxDimensions& dimensions) : dpShapeBase(parentEntity), m_Width(dimensions.width / 2), m_Height(dimensions.height / 2), m_Depth(dimensions.depth / 2), m_Scale(1.0f) { m_ShapeType = dpShapeType::Box; InitVertices(); } dpShapeBox::~dpShapeBox() { } bool dpShapeBox::IsColliding(dpShapeBase* other) { if (!other) return false; switch (other->GetShapeType()) { case dpShapeType::Sphere: return dpCollisionChecks::CheckSphereBox(m_ParentEntity, other->GetParentEntity()); case dpShapeType::Box: return dpCollisionChecks::CheckBoxes(m_ParentEntity, other->GetParentEntity()); default: std::cout << "No collision detection for: " << (int)m_ShapeType << "-to-" << (int)other->GetShapeType() << " collision!" << std::endl; } return false; } const float dpShapeBox::GetMaxWidth() { return m_ParentEntity->GetPosition().x + m_Width; } const float dpShapeBox::GetTop() { return m_ParentEntity->GetPosition().y + (m_Height * 2); } const float dpShapeBox::GetMaxDepth() { return m_ParentEntity->GetPosition().z + m_Depth; } const float dpShapeBox::GetMinWidth() { return m_ParentEntity->GetPosition().x - m_Width; } const float dpShapeBox::GetBottom() { return m_ParentEntity->GetPosition().y; //- m_Height; } const float dpShapeBox::GetMinDepth() { return m_ParentEntity->GetPosition().z - m_Depth; } void dpShapeBox::SetScale(float scale) { if (isScaled) return; isScaled = true; m_Width *= scale; m_Height *= scale; m_Depth *= scale; //fuuuckkk yoouu InitVertices(); //SetRotation(m_ParentEntity->GetRotation()); } void dpShapeBox::SetRotation(const NiQuaternion& rotation) { if (m_HasBeenRotated) return; //Boxes cannot be rotated more than once. m_HasBeenRotated = true; m_TopMinLeft = m_TopMinLeft.RotateByQuaternion(rotation); m_TopMaxLeft = m_TopMaxLeft.RotateByQuaternion(rotation); m_TopMinRight = m_TopMinRight.RotateByQuaternion(rotation); m_TopMaxRight = m_TopMaxRight.RotateByQuaternion(rotation); m_BottomMinLeft = m_BottomMinLeft.RotateByQuaternion(rotation); m_BottomMinRight = m_BottomMinRight.RotateByQuaternion(rotation); m_BottomMaxLeft = m_BottomMaxLeft.RotateByQuaternion(rotation); m_BottomMaxRight = m_BottomMaxRight.RotateByQuaternion(rotation); InsertVertices(); } bool dpShapeBox::IsVertInBox(const NiPoint3& vert) { //if we are in the correct height if (vert.y >= m_MinY && vert.y <= m_MaxY) { //if we're inside the x bounds if (vert.x >= m_MinX && vert.x <= m_MaxX) { //if we're inside the z bounds if (vert.z >= m_MinZ && vert.z <= m_MaxZ) return true; } } return false; } void dpShapeBox::InitVertices() { //The four top verts m_TopMinLeft = NiPoint3(GetMinWidth(), GetTop(), GetMinDepth()); m_TopMaxLeft = NiPoint3(GetMinWidth(), GetTop(), GetMaxDepth()); m_TopMinRight = NiPoint3(GetMaxWidth(), GetTop(), GetMinDepth()); m_TopMaxRight = NiPoint3(GetMaxWidth(), GetTop(), GetMaxDepth()); //The four bottom verts m_BottomMinLeft = NiPoint3(GetMinWidth(), GetBottom(), GetMinDepth()); m_BottomMaxLeft = NiPoint3(GetMinWidth(), GetBottom(), GetMaxDepth()); m_BottomMinRight = NiPoint3(GetMaxWidth(), GetBottom(), GetMinDepth()); m_BottomMaxRight = NiPoint3(GetMaxWidth(), GetBottom(), GetMaxDepth()); InsertVertices(); } void dpShapeBox::SetPosition(const NiPoint3& position) { if (isTransformed) return; isTransformed = true; for (auto& vert : m_Vertices) { vert.x += position.x; vert.y += position.y; vert.z += position.z; } m_TopMinLeft = m_Vertices[0]; m_TopMaxLeft = m_Vertices[1]; m_TopMinRight = m_Vertices[2]; m_TopMaxRight = m_Vertices[3]; m_BottomMinLeft = m_Vertices[4]; m_BottomMaxLeft = m_Vertices[5]; m_BottomMinRight = m_Vertices[6]; m_BottomMaxRight = m_Vertices[7]; for (auto& vert : m_Vertices) { if (m_MinX >= vert.x) m_MinX = vert.x; if (m_MinY >= vert.y) m_MinY = vert.y; if (m_MinZ >= vert.z) m_MinZ = vert.z; if (m_MaxX <= vert.x) m_MaxX = vert.x; if (m_MaxY <= vert.y) m_MaxY = vert.y; if (m_MaxZ <= vert.z) m_MaxZ = vert.z; } } void dpShapeBox::InsertVertices() { //Insert into our vector: m_Vertices.clear(); m_Vertices.push_back(m_TopMinLeft); m_Vertices.push_back(m_TopMaxLeft); m_Vertices.push_back(m_TopMinRight); m_Vertices.push_back(m_TopMaxRight); m_Vertices.push_back(m_BottomMinLeft); m_Vertices.push_back(m_BottomMaxLeft); m_Vertices.push_back(m_BottomMinRight); m_Vertices.push_back(m_BottomMaxRight); }