Exemplo n.º 1
0
        private void updateCameraMode(byte controlMode)
        {
            Debug.Log("Camera update called");
            oldCameraModeControl = receivedCameraControlMode;
            needToUpdateCamera   = false;


            // Switch based on the CameraControlBits values
            switch (controlMode)
            {
            // See if the control bit is a camera mode setting bit - need to add validity checking, to make sure the modes can be entered
            case CameraControlBits.FlightMode:
                cameraManager.SetCameraFlight();
                break;

            case CameraControlBits.IVAMode:
                cameraManager.SetCameraIVA();
                break;

            case CameraControlBits.PlanetaryMode:
                PlanetariumCamera.fetch.Activate();
                break;

            // If it is not a camera mode, it must be a mode for the (hopefully) current camera
            default:

                // Based on the current camera mode, change where the CameraControl value gets sent
                switch (cameraManager.currentCameraMode)
                {
                // Flight Camera
                case CameraManager.CameraMode.Flight:
                    Debug.Log("Camera can have it's mode changed");
                    Debug.Log("Control mode: " + controlMode.ToString());
                    int currentFlightMode = FlightCamera.CamMode;
                    int maxEnum           = Enum.GetNames(typeof(FlightCamera.Modes)).Length - 1;
                    Debug.Log("Max Enum Value: " + maxEnum.ToString());

                    // Switch based on the operation to perform on the flight camera
                    switch (controlMode)
                    {
                    case CameraControlBits.Auto:
                        FlightCamera.SetMode(FlightCamera.Modes.AUTO);
                        printCameraMode("Auto");
                        break;

                    case CameraControlBits.Free:
                        FlightCamera.SetMode(FlightCamera.Modes.FREE);
                        printCameraMode("Free");
                        break;

                    case CameraControlBits.Orbital:
                        FlightCamera.SetMode(FlightCamera.Modes.ORBITAL);
                        printCameraMode("Orbital");
                        break;

                    case CameraControlBits.Chase:
                        FlightCamera.SetMode(FlightCamera.Modes.CHASE);
                        printCameraMode("Chase");
                        break;

                    case CameraControlBits.Locked:
                        FlightCamera.SetMode(FlightCamera.Modes.LOCKED);
                        printCameraMode("Locked");
                        break;

                    case CameraControlBits.NextCameraModeState:
                        printCameraMode("Next");
                        // If the current flight camera mode is at the end of the list, wrap around to the start
                        if (currentFlightMode == maxEnum)
                        {
                            FlightCamera.SetMode((FlightCamera.Modes) 0);
                        }
                        else
                        {
                            FlightCamera.SetMode((FlightCamera.Modes)currentFlightMode + 1);
                        }
                        break;

                    case CameraControlBits.PreviousCameraModeState:
                        printCameraMode("Previous");
                        // If the current flight camera mode is at the start of the list, wrap around to the end
                        if (currentFlightMode == 0)
                        {
                            FlightCamera.SetMode((FlightCamera.Modes)maxEnum);
                        }
                        else
                        {
                            // Hack to get around the issue of orbital mode not being available below a certain altitude around SOIs.
                            FlightCamera.Modes autoMode = FlightCamera.GetAutoModeForVessel(FlightGlobals.ActiveVessel);
                            // If the Flight Camera mode tries to go backwards to orbital mode, and orbital mode is not available, set the camera mode back two places.
                            if (((FlightCamera.Modes)(FlightCamera.CamMode - 1)) == FlightCamera.Modes.ORBITAL && autoMode != FlightCamera.Modes.ORBITAL)
                            {
                                FlightCamera.SetMode((FlightCamera.Modes)(currentFlightMode - 2));
                            }
                            // Otherwise just change the mode back by one
                            else
                            {
                                FlightCamera.SetMode((FlightCamera.Modes)currentFlightMode - 1);
                            }
                        }
                        break;

                    default:
                        printCameraMode("No flight camera state to match the control bits:(");
                        break;
                    }
                    break;         /* End Flight Camera Mode */

                case CameraManager.CameraMode.IVA:
                    break;

                default:
                    Debug.Log(String.Format("Simpit control for the camera mode: {0} is unsupported", cameraManager.currentCameraMode.ToString()));
                    break;
                }     /* End of current camera mode switch */
                break;
            } /* End of control mode switch */
        }
        void Update()
        {
            if (ADJUST_LOOK.GetKeyDown())
            {
                adjustLook = true;
            }
            if (ADJUST_LOOK.GetKeyUp())
            {
                adjustLook = false;
            }


            if (InternalCamera.Instance != null && InternalCamera.Instance.isActive)  //checking if camera is IVA
            {
                if (!isIVA)
                {
                    isIVA = true;
                }
            }
            else
            {
                if (isIVA)
                {
                    isIVA = false;
                }
            }

            #region Chase(locked) mode
            if (FlightCamera.fetch.mode == FlightCamera.Modes.LOCKED && !MapView.MapIsEnabled && !FlightGlobals.ActiveVessel.isEVA)
            {
                Vector3 lookVector = Quaternion.Inverse(FlightGlobals.ActiveVessel.transform.rotation) * FlightGlobals.ActiveVessel.GetSrfVelocity();
                //lookvector X is left/right velocity, Y is forward velocity, Z is up/down velocity

                Vector3    forwardVector = new Vector3(0f, 1f, 0f);
                Quaternion pitchAngleQ   = Quaternion.FromToRotation(forwardVector, lookVector);
                //float lerpRate = Mathf.Clamp((float) FlightGlobals.ActiveVessel.srf_velocity.magnitude / 50f, 0f, 1f);
                float lerpRate;
                if (Time.time - timeCheck < 2)
                {
                    lerpRate = 0.1f;
                }
                else
                {
                    lerpRate = 1;
                }

                if (adjustLook)
                {
                    snapHeading = FlightCamera.fetch.camHdg - (0 - pitchAngleQ.Roll());
                    snapPitch   = FlightCamera.fetch.camPitch - (0 + pitchAngleQ.Pitch());
                }

                if (defaultOn && defaultFiredMode != "CHASE")
                {
                    enableChase      = true;
                    defaultFiredMode = "CHASE";

                    ScreenMessages.RemoveMessage(chaseOn);
                    ScreenMessages.RemoveMessage(chaseOff);
                    ScreenMessages.RemoveMessage(freeChaseOn);
                    ScreenMessages.RemoveMessage(freeChaseOff);

                    ScreenMessages.PostScreenMessage(chaseOn);
                    timeCheck   = Time.time;
                    snapHeading = 0;
                    snapPitch   = defaultAngle * Mathf.Deg2Rad;
                    //FlightCamera.fetch.SetFoV(setFov);
                }

                if (ENABLE_CHASE.GetKeyDown())
                {
                    if (enableChase)
                    {
                        ScreenMessages.RemoveMessage(chaseOn);
                        ScreenMessages.RemoveMessage(chaseOff);
                        ScreenMessages.RemoveMessage(freeChaseOn);
                        ScreenMessages.RemoveMessage(freeChaseOff);

                        ScreenMessages.PostScreenMessage(chaseOff);
                        FlightCamera.fetch.SetFoV(FlightCamera.fetch.fovDefault);
                    }
                    if (!enableChase)
                    {
                        ScreenMessages.RemoveMessage(chaseOn);
                        ScreenMessages.RemoveMessage(chaseOff);
                        ScreenMessages.RemoveMessage(freeChaseOn);
                        ScreenMessages.RemoveMessage(freeChaseOff);

                        ScreenMessages.PostScreenMessage(chaseOn);
                        timeCheck   = Time.time;
                        snapHeading = 0;
                        snapPitch   = defaultAngle * Mathf.Deg2Rad;
                        //FlightCamera.fetch.SetFoV(setFov);
                    }
                    enableChase = !enableChase;
                }

                if (enableChase && FlightGlobals.ActiveVessel != null && !adjustLook) //runs continuously while in chase cam on an active vessel when not adjusting look angle
                {
                    if (FlightGlobals.ActiveVessel.srf_velocity.magnitude > 0.5)
                    {
                        targetPitch = (0 + pitchAngleQ.Pitch() + snapPitch);
                        FlightCamera.fetch.camPitch = Mathf.Lerp(FlightCamera.fetch.camPitch, targetPitch, lerpRate);
                        targetHeading             = (0 - pitchAngleQ.Roll() + snapHeading);
                        FlightCamera.fetch.camHdg = Mathf.Lerp(FlightCamera.fetch.camHdg, targetHeading, lerpRate);
                    }
                }
            }
            if (FlightCamera.fetch.mode != FlightCamera.Modes.LOCKED && enableChase) //runs once on switching out of chase cam
            {
                //setCam = false;
                enableChase = false;
            }
            #endregion



            #region Free chase mode
            if (FlightCamera.fetch.mode == FlightCamera.Modes.FREE && !MapView.MapIsEnabled && !FlightGlobals.ActiveVessel.isEVA)
            {
                Vessel     v           = FlightGlobals.ActiveVessel;
                Quaternion vesselRot   = getSrfRotation(v);
                float      headingRads = vesselRot.eulerAngles.y * Mathf.Deg2Rad;
                float      pitchRads   = ((vesselRot.eulerAngles.x > 180f) ? (360.0f - vesselRot.eulerAngles.x) : -vesselRot.eulerAngles.x) * Mathf.Deg2Rad; //cred to r4m0n
                float      rollDegrees = ((vesselRot.eulerAngles.z > 180f) ? (vesselRot.eulerAngles.z - 360.0f) : vesselRot.eulerAngles.z);

                Vector3 lookVector = Quaternion.Inverse(FlightGlobals.ActiveVessel.transform.rotation) * FlightGlobals.ActiveVessel.GetSrfVelocity();
                //lookvector X is left/right velocity, Y is forward velocity, Z is up/down velocity
                Vector3    forwardVector = new Vector3(0f, 1f, 0f);
                Quaternion rollAdjust    = Quaternion.AngleAxis(rollDegrees, forwardVector);
                lookVector = rollAdjust * lookVector;

                Quaternion viewAngleQ = Quaternion.FromToRotation(forwardVector, lookVector);



                if (defaultOn && defaultFiredMode != "FREE")
                {
                    enableFreeChase  = true;
                    defaultFiredMode = "FREE";

                    ScreenMessages.RemoveMessage(chaseOn);
                    ScreenMessages.RemoveMessage(chaseOff);
                    ScreenMessages.RemoveMessage(freeChaseOn);
                    ScreenMessages.RemoveMessage(freeChaseOff);

                    ScreenMessages.PostScreenMessage(freeChaseOn);
                    snapHeading = 0;
                    snapPitch   = defaultAngle * Mathf.Deg2Rad;
                    //FlightCamera.fetch.SetFoV(setFov);
                    timeCheck = Time.time;
                }

                if (ENABLE_CHASE.GetKeyDown())
                {
                    if (enableFreeChase)
                    {
                        ScreenMessages.RemoveMessage(chaseOn);
                        ScreenMessages.RemoveMessage(chaseOff);
                        ScreenMessages.RemoveMessage(freeChaseOn);
                        ScreenMessages.RemoveMessage(freeChaseOff);

                        ScreenMessages.PostScreenMessage(freeChaseOff);
                        FlightCamera.fetch.SetFoV(FlightCamera.fetch.fovDefault);
                    }
                    if (!enableFreeChase)
                    {
                        ScreenMessages.RemoveMessage(chaseOn);
                        ScreenMessages.RemoveMessage(chaseOff);
                        ScreenMessages.RemoveMessage(freeChaseOn);
                        ScreenMessages.RemoveMessage(freeChaseOff);

                        ScreenMessages.PostScreenMessage(freeChaseOn);
                        snapHeading = 0;
                        snapPitch   = defaultAngle * Mathf.Deg2Rad;
                        //FlightCamera.fetch.SetFoV(setFov);
                        timeCheck = Time.time;
                    }
                    enableFreeChase = !enableFreeChase;
                }


                if (adjustLook)
                {
                    if (!autoSnap)
                    {
                        if (!vtolMode)
                        {
                            snapPitch   = FlightCamera.fetch.camPitch - (0 - pitchRads + (1f * viewAngleQ.Pitch())); //adjusted
                            snapHeading = FlightCamera.fetch.camHdg - (headingRads - (1f * viewAngleQ.Roll()));      //adjusted
                        }
                        else
                        {
                            snapPitch   = FlightCamera.fetch.camPitch - (0 + Mathf.Clamp(viewAngleQ.Pitch() / 10, 0, 90f));
                            snapHeading = FlightCamera.fetch.camHdg - (headingRads - (viewAngleQ.Roll() / 10));
                        }
                        if (Mathf.Abs(snapHeading) < 5 * Mathf.Deg2Rad)  //snap heading straight if close enough
                        {
                            snapHeading = 0;
                        }
                    }
                    else
                    {
                        snapHeading = 0;
                        snapPitch   = defaultAngle * Mathf.Deg2Rad;
                        timeCheck   = Time.time;
                    }
                }

                float lerpRate;
                if (Time.time - timeCheck < 1 || v.srfSpeed < 90)
                {
                    lerpRate = 0.1f;
                }
                else
                {
                    lerpRate = 1;
                }

                if (enableFreeChase && FlightGlobals.ActiveVessel != null && !adjustLook)
                {
                    if (FlightGlobals.ActiveVessel.srf_velocity.magnitude > 0.5)
                    {
                        if (lookVector.y < 35 && FlightGlobals.ActiveVessel.srfSpeed < 50)//vtol mode when fwd velocity is less than 50m/s
                        {
                            if (!vtolMode)
                            {
                                vtolMode = true;
                            }
                            lerpRate = 0.1f;
                            FlightCamera.fetch.camPitch = Mathf.LerpAngle(FlightCamera.fetch.camPitch, (0 + Mathf.Clamp(viewAngleQ.Pitch() / 10, 0, 90f) + snapPitch), lerpRate);
                            FlightCamera.fetch.camHdg   = (Mathf.LerpAngle(FlightCamera.fetch.camHdg * Mathf.Rad2Deg, ((headingRads - (viewAngleQ.Roll() / 10) + snapHeading) * Mathf.Rad2Deg), lerpRate)) * Mathf.Deg2Rad;
                        }
                        else
                        {
                            if (vtolMode)
                            {
                                vtolMode = false;
                            }
                            FlightCamera.fetch.camPitch = Mathf.LerpAngle(FlightCamera.fetch.camPitch, 0 - pitchRads + viewAngleQ.Pitch() + snapPitch, lerpRate);  //doesn't really need to be LerpAngle unless converted to degrees.
                            FlightCamera.fetch.camHdg   = (Mathf.LerpAngle(FlightCamera.fetch.camHdg * Mathf.Rad2Deg, (headingRads - viewAngleQ.Roll() + snapHeading) * Mathf.Rad2Deg, lerpRate)) * Mathf.Deg2Rad;
                        }
                    }
                }
            }



            if (FlightCamera.fetch.mode != FlightCamera.Modes.FREE && enableFreeChase)
            {
                enableFreeChase = false;
            }
            #endregion

            if (FlightCamera.fetch.mode == FlightCamera.Modes.AUTO)
            {
                if (disableAuto)
                {
                    FlightCamera.fetch.setMode(FlightCamera.GetAutoModeForVessel(FlightGlobals.ActiveVessel));
                    if (defaultOn && FlightCamera.fetch.mode == FlightCamera.Modes.FREE)
                    {
                        enableFreeChase = true;
                    }
                    snapHeading = 0;
                    snapPitch   = defaultAngle * Mathf.Deg2Rad;
                }



                if (defaultFiredMode != "AUTO")
                {
                    ScreenMessages.RemoveMessage(chaseOn);
                    ScreenMessages.RemoveMessage(chaseOff);
                    ScreenMessages.RemoveMessage(freeChaseOn);
                    ScreenMessages.RemoveMessage(freeChaseOff);
                }
            }

            #region IVA

            /*
             *          if(isIVA && !MapView.MapIsEnabled)
             *          {
             *                  if(enableIVASnap)
             *                  {
             *                          adjustLookIVA = InternalCamera.Instance.mouseLocked;
             *                          if(adjustLookIVA)
             *                          {
             *                                  if(SET_IVA_SNAP.GetKeyDown())
             *                                  {
             *                                          snapIVARotation = InternalCamera.Instance.camera.transform.localRotation;
             *                                  }
             *                                  if(ADJUST_LOOK.GetKeyUp())
             *                                  {
             *                                          InternalCamera.Instance.UnlockMouse();
             *                                  }
             *                          }
             *                          else
             *                          {
             *                                  InternalCamera.Instance.camera.transform.localRotation = snapIVARotation;
             *                          }
             *                  }
             *          }
             */
            #endregion
        }
Exemplo n.º 3
0
        void StationaryCamera()
        {
            Debug.Log("flightCamera position init: " + flightCamera.transform.position);
            if (FlightGlobals.ActiveVessel != null)
            {
                hasDied  = false;
                vessel   = FlightGlobals.ActiveVessel;
                cameraUp = -FlightGlobals.getGeeForceAtPosition(vessel.GetWorldPos3D()).normalized;
                if (FlightCamera.fetch.mode == FlightCamera.Modes.ORBITAL || (FlightCamera.fetch.mode == FlightCamera.Modes.AUTO && FlightCamera.GetAutoModeForVessel(vessel) == FlightCamera.Modes.ORBITAL))
                {
                    cameraUp = Vector3.up;
                }

                flightCamera.transform.parent = cameraParent.transform;
                flightCamera.setTarget(null);
                cameraParent.transform.position = vessel.transform.position + vessel.rigidbody.velocity * Time.fixedDeltaTime;
                manualPosition = Vector3.zero;


                hasTarget = (camTarget != null) ? true : false;


                Vector3 rightAxis;
                if (referenceMode == ReferenceModes.Surface && vessel.horizontalSrfSpeed > 2)
                {
                    rightAxis = Quaternion.AngleAxis(-90, vessel.srf_velocity) * cameraUp;
                }
                else
                {
                    rightAxis = Quaternion.AngleAxis(-90, vessel.obt_velocity) * cameraUp;
                }

                if (flightCamera.autoMode == FlightCamera.Modes.FREE)
                {
                    Vector3 cameraUpRef = cameraUp;
                    Vector3.OrthoNormalize(ref rightAxis, ref cameraUpRef);
                }


                if (autoFlybyPosition)
                {
                    setPresetOffset = false;
                    Vector3 velocity = vessel.srf_velocity;
                    if (referenceMode == ReferenceModes.Orbit)
                    {
                        velocity = vessel.obt_velocity;
                    }

                    Vector3 clampedVelocity = Mathf.Clamp((float)vessel.srfSpeed, 0, maxRelV) * velocity.normalized;
                    float   clampedSpeed    = clampedVelocity.magnitude;
                    float   sideDistance    = Mathf.Clamp(20 + (clampedSpeed / 10), 20, 150);
                    float   distanceAhead   = Mathf.Clamp(4 * clampedSpeed, 30, 3500);

                    flightCamera.transform.rotation = Quaternion.LookRotation(vessel.transform.position - flightCamera.transform.position, cameraUp);


                    if (referenceMode == ReferenceModes.Surface && vessel.srfSpeed > 4)
                    {
                        flightCamera.transform.position = vessel.transform.position + (distanceAhead * vessel.srf_velocity.normalized);
                    }
                    else if (referenceMode == ReferenceModes.Orbit && vessel.obt_speed > 4)
                    {
                        flightCamera.transform.position = vessel.transform.position + (distanceAhead * vessel.obt_velocity.normalized);
                    }
                    else
                    {
                        flightCamera.transform.position = vessel.transform.position + (distanceAhead * vessel.vesselTransform.up);
                    }


                    if (flightCamera.mode == FlightCamera.Modes.FREE || FlightCamera.GetAutoModeForVessel(vessel) == FlightCamera.Modes.FREE)
                    {
                        flightCamera.transform.position += (sideDistance * rightAxis) + (15 * cameraUp);
                    }
                    else if (flightCamera.mode == FlightCamera.Modes.ORBITAL || FlightCamera.GetAutoModeForVessel(vessel) == FlightCamera.Modes.ORBITAL)
                    {
                        flightCamera.transform.position += (sideDistance * FlightGlobals.getUpAxis()) + (15 * Vector3.up);
                    }
                }
                else if (manualOffset)
                {
                    setPresetOffset = false;
                    float sideDistance  = manualOffsetRight;
                    float distanceAhead = manualOffsetForward;


                    flightCamera.transform.rotation = Quaternion.LookRotation(vessel.transform.position - flightCamera.transform.position, cameraUp);

                    if (referenceMode == ReferenceModes.Surface && vessel.srfSpeed > 4)
                    {
                        flightCamera.transform.position = vessel.transform.position + (distanceAhead * vessel.srf_velocity.normalized);
                    }
                    else if (referenceMode == ReferenceModes.Orbit && vessel.obt_speed > 4)
                    {
                        flightCamera.transform.position = vessel.transform.position + (distanceAhead * vessel.obt_velocity.normalized);
                    }
                    else
                    {
                        flightCamera.transform.position = vessel.transform.position + (distanceAhead * vessel.vesselTransform.up);
                    }

                    if (flightCamera.mode == FlightCamera.Modes.FREE || FlightCamera.GetAutoModeForVessel(vessel) == FlightCamera.Modes.FREE)
                    {
                        flightCamera.transform.position += (sideDistance * rightAxis) + (manualOffsetUp * cameraUp);
                    }
                    else if (flightCamera.mode == FlightCamera.Modes.ORBITAL || FlightCamera.GetAutoModeForVessel(vessel) == FlightCamera.Modes.ORBITAL)
                    {
                        flightCamera.transform.position += (sideDistance * FlightGlobals.getUpAxis()) + (manualOffsetUp * Vector3.up);
                    }
                }
                else if (setPresetOffset)
                {
                    flightCamera.transform.position = presetOffset;
                    //setPresetOffset = false;
                }

                initialVelocity = vessel.srf_velocity;
                initialOrbit    = new Orbit();
                initialOrbit.UpdateFromStateVectors(vessel.orbit.pos, vessel.orbit.vel, FlightGlobals.currentMainBody, Planetarium.GetUniversalTime());
                initialUT = Planetarium.GetUniversalTime();

                isStationaryCamera = true;
                isDefault          = false;

                SetDoppler();
                AddAtmoAudioControllers();
            }
            else
            {
                Debug.Log("CameraTools: Stationary Camera failed. Active Vessel is null.");
            }
            resetPositionFix = flightCamera.transform.position;
            Debug.Log("flightCamera position post init: " + flightCamera.transform.position);
        }