#include "CCamera.h" #include "CGraphics.h" #include #include CCamera::CCamera() : mMode(eFreeCamera) , mPosition(0) , mAspectRatio(1.7777777f) , mYaw(-Math::skHalfPi) , mPitch(0.f) , mMoveSpeed(1.f) , mLookSpeed(1.f) , mTransformDirty(true) , mViewDirty(true) , mProjectionDirty(true) , mFrustumPlanesDirty(true) { ResetOrbit(); } // todo: make it actually look at the target! // don't actually use this constructor, it's unfinished and won't work properly CCamera::CCamera(CVector3f Position, CVector3f /*Target*/) : mMode(eFreeCamera) , mMoveSpeed(1.f) , mLookSpeed(1.f) , mPosition(Position) , mYaw(-Math::skHalfPi) , mPitch(0.f) { } void CCamera::Pan(float XAmount, float YAmount) { if (mMode == eFreeCamera) { mPosition += mRightVector * (XAmount * mMoveSpeed); mPosition += mUpVector * (YAmount * mMoveSpeed); mTransformDirty = true; mViewDirty = true; mFrustumPlanesDirty = true; } else Rotate(-XAmount * 0.3f, YAmount * 0.3f); } void CCamera::Rotate(float XAmount, float YAmount) { mYaw -= (XAmount * mLookSpeed * 0.3f); mPitch -= (YAmount * mLookSpeed * 0.3f); ValidatePitch(); mTransformDirty = true; mViewDirty = true; mFrustumPlanesDirty = true; } void CCamera::Zoom(float Amount) { if (mMode == eFreeCamera) mPosition += mDirection * (Amount * mMoveSpeed); else { mOrbitDistance -= Amount * mMoveSpeed; mTransformDirty = true; } mViewDirty = true; mFrustumPlanesDirty = true; } void CCamera::Snap(CVector3f Position) { mPosition = Position; mYaw = -Math::skHalfPi; mPitch = 0.0f; mTransformDirty = true; mViewDirty = true; mFrustumPlanesDirty = true; } void CCamera::ProcessKeyInput(FKeyInputs KeyFlags, double DeltaTime) { float FDeltaTime = (float) DeltaTime; if (KeyFlags & eWKey) Zoom(FDeltaTime * 25.f); if (KeyFlags & eSKey) Zoom(-FDeltaTime * 25.f); if (KeyFlags & eQKey) Pan(0, -FDeltaTime * 25.f); if (KeyFlags & eEKey) Pan(0, FDeltaTime * 25.f); if (KeyFlags & eAKey) Pan(-FDeltaTime * 25.f, 0); if (KeyFlags & eDKey) Pan(FDeltaTime * 25.f, 0); } void CCamera::ProcessMouseInput(FKeyInputs KeyFlags, FMouseInputs MouseFlags, float XMovement, float YMovement) { // Free Camera if (mMode == eFreeCamera) { if (MouseFlags & eMiddleButton) { if (KeyFlags & eCtrlKey) Zoom(-YMovement * 0.2f); else Pan(-XMovement, YMovement); } else if (MouseFlags & eRightButton) Rotate(XMovement, YMovement); } // Orbit Camera else if (mMode == eOrbitCamera) { if ((MouseFlags & eMiddleButton) || (MouseFlags & eRightButton)) Pan(-XMovement, YMovement); } } CRay CCamera::CastRay(CVector2f DeviceCoords) const { CMatrix4f InverseVP = (ViewMatrix().Transpose() * ProjectionMatrix().Transpose()).Inverse(); CVector3f RayOrigin = CVector3f(DeviceCoords.X, DeviceCoords.Y, -1.f) * InverseVP; CVector3f RayTarget = CVector3f(DeviceCoords.X, DeviceCoords.Y, 0.f) * InverseVP; CVector3f RayDir = (RayTarget - RayOrigin).Normalized(); CRay Ray; Ray.SetOrigin(RayOrigin); Ray.SetDirection(RayDir); return Ray; } void CCamera::SetMoveMode(ECameraMoveMode Mode) { mMode = Mode; mViewDirty = true; mFrustumPlanesDirty = true; if (mMode == eOrbitCamera) mTransformDirty = true; } void CCamera::SetOrbit(const CVector3f& OrbitTarget, float Distance) { mOrbitTarget = OrbitTarget; mOrbitDistance = Distance; if (mMode == eOrbitCamera) { mTransformDirty = true; mViewDirty = true; mFrustumPlanesDirty = true; } } void CCamera::SetOrbit(const CAABox& OrbitTarget, float DistScale /*= 1.75f*/) { mOrbitTarget = OrbitTarget.Center(); // Determine orbit radius, which should be enough to cover the entire box with some buffer room float Dist = OrbitTarget.Center().Distance(OrbitTarget.Max()); mOrbitDistance = Dist * DistScale; if (mMode == eOrbitCamera) { mTransformDirty = true; mViewDirty = true; mFrustumPlanesDirty = true; } } void CCamera::SetOrbitTarget(const CVector3f& rkOrbitTarget) { mOrbitTarget = rkOrbitTarget; if (mMode == eOrbitCamera) { mTransformDirty = true; mViewDirty = true; mFrustumPlanesDirty = true; } } void CCamera::SetOrbitDistance(float Distance) { mOrbitDistance = Distance; if (mMode == eOrbitCamera) { mTransformDirty = true; mViewDirty = true; mFrustumPlanesDirty = true; } } void CCamera::LoadMatrices() const { CGraphics::sMVPBlock.ViewMatrix = ViewMatrix(); CGraphics::sMVPBlock.ProjectionMatrix = ProjectionMatrix(); CGraphics::UpdateMVPBlock(); } // ************ PRIVATE ************ void CCamera::ValidatePitch() { // This function mainly just exists to ensure the camera doesn't flip upside down if (mPitch > Math::skHalfPi) mPitch = Math::skHalfPi; if (mPitch < -Math::skHalfPi) mPitch = -Math::skHalfPi; } void CCamera::UpdateTransform() const { // Transform should be marked dirty when pitch, yaw, or orbit target/distance are changed if (mTransformDirty) { mDirection = CVector3f( cos(mPitch) * cos(mYaw), cos(mPitch) * sin(mYaw), sin(mPitch) ); mRightVector = CVector3f( cos(mYaw - Math::skHalfPi), sin(mYaw - Math::skHalfPi), 0 ); mUpVector = mRightVector.Cross(mDirection); // Update position if (mMode == eOrbitCamera) { if (mOrbitDistance < 1.f) mOrbitDistance = 1.f; mPosition = mOrbitTarget + (mDirection * -mOrbitDistance); } mViewDirty = true; mFrustumPlanesDirty = true; mTransformDirty = false; } } void CCamera::UpdateView() const { UpdateTransform(); if (mViewDirty) { mViewMatrix = CMatrix4f( mRightVector.X, mRightVector.Y, mRightVector.Z, -mRightVector.Dot(mPosition), mUpVector.X, mUpVector.Y, mUpVector.Z, -mUpVector.Dot(mPosition), -mDirection.X, -mDirection.Y, -mDirection.Z, mDirection.Dot(mPosition), 0.f, 0.f, 0.f, 1.f ); mViewDirty = false; } } void CCamera::UpdateProjection() const { if (mProjectionDirty) { mProjectionMatrix = Math::PerspectiveMatrix(55.f, mAspectRatio, 0.1f, 4096.f); mProjectionDirty = false; } } void CCamera::UpdateFrustum() const { UpdateTransform(); if (mFrustumPlanesDirty) { mFrustumPlanes.SetPlanes(mPosition, mDirection, 55.f, mAspectRatio, 0.1f, 4096.f); mFrustumPlanesDirty = false; } }