src/itf/I3DLocation.cpp - platform/frameworks/wilhelm - Git at Google

 /*
  * Copyright (C) 2010 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 /* 3DLocation implementation */

 #include "sles_allinclusive.h"


 static SLresult I3DLocation_SetLocationCartesian(SL3DLocationItf self, const SLVec3D *pLocation)
 {
     SL_ENTER_INTERFACE

     if (NULL == pLocation) {
         result = SL_RESULT_PARAMETER_INVALID;
     } else {
         I3DLocation *thiz = (I3DLocation *) self;
         SLVec3D locationCartesian = *pLocation;
         interface_lock_exclusive(thiz);
         thiz->mLocationCartesian = locationCartesian;
         thiz->mLocationActive = CARTESIAN_SET_SPHERICAL_UNKNOWN;
         interface_unlock_exclusive(thiz);
         result = SL_RESULT_SUCCESS;
     }

     SL_LEAVE_INTERFACE
 }


 static SLresult I3DLocation_SetLocationSpherical(SL3DLocationItf self,
     SLmillidegree azimuth, SLmillidegree elevation, SLmillimeter distance)
 {
     SL_ENTER_INTERFACE

     if (!((-360000 <= azimuth) && (azimuth <= 360000) &&
         (-90000 <= elevation) && (elevation <= 90000) &&
         (0 <= distance) && (distance <= SL_MILLIMETER_MAX))) {
         result = SL_RESULT_PARAMETER_INVALID;
     } else {
         I3DLocation *thiz = (I3DLocation *) self;
         interface_lock_exclusive(thiz);
         thiz->mLocationSpherical.mAzimuth = azimuth;
         thiz->mLocationSpherical.mElevation = elevation;
         thiz->mLocationSpherical.mDistance = distance;
         thiz->mLocationActive = CARTESIAN_UNKNOWN_SPHERICAL_SET;
         interface_unlock_exclusive(thiz);
         result = SL_RESULT_SUCCESS;
     }

     SL_LEAVE_INTERFACE
 }


 static SLresult I3DLocation_Move(SL3DLocationItf self, const SLVec3D *pMovement)
 {
     SL_ENTER_INTERFACE

     if (NULL == pMovement) {
         result = SL_RESULT_PARAMETER_INVALID;
     } else {
         I3DLocation *thiz = (I3DLocation *) self;
         SLVec3D movementCartesian = *pMovement;
         interface_lock_exclusive(thiz);
         for (;;) {
             enum CartesianSphericalActive locationActive = thiz->mLocationActive;
             switch (locationActive) {
             case CARTESIAN_COMPUTED_SPHERICAL_SET:
             case CARTESIAN_SET_SPHERICAL_COMPUTED:  // not in 1.0.1
             case CARTESIAN_SET_SPHERICAL_REQUESTED: // not in 1.0.1
             case CARTESIAN_SET_SPHERICAL_UNKNOWN:
                 thiz->mLocationCartesian.x += movementCartesian.x;
                 thiz->mLocationCartesian.y += movementCartesian.y;
                 thiz->mLocationCartesian.z += movementCartesian.z;
                 thiz->mLocationActive = CARTESIAN_SET_SPHERICAL_UNKNOWN;
                 break;
             case CARTESIAN_UNKNOWN_SPHERICAL_SET:
                 thiz->mLocationActive = CARTESIAN_REQUESTED_SPHERICAL_SET;
                 // fall through
             case CARTESIAN_REQUESTED_SPHERICAL_SET:
                 // matched by cond_broadcast in case multiple requesters
 #if 0
                 interface_cond_wait(thiz);
 #else
                 thiz->mLocationActive = CARTESIAN_COMPUTED_SPHERICAL_SET;
 #endif
                 continue;
             default:
                 assert(SL_BOOLEAN_FALSE);
                 break;
             }
             break;
         }
         interface_unlock_exclusive(thiz);
         result = SL_RESULT_SUCCESS;
     }

     SL_LEAVE_INTERFACE
 }


 static SLresult I3DLocation_GetLocationCartesian(SL3DLocationItf self, SLVec3D *pLocation)
 {
     SL_ENTER_INTERFACE

     if (NULL == pLocation) {
         result = SL_RESULT_PARAMETER_INVALID;
     } else {
         I3DLocation *thiz = (I3DLocation *) self;
         interface_lock_exclusive(thiz);
         for (;;) {
             enum CartesianSphericalActive locationActive = thiz->mLocationActive;
             switch (locationActive) {
             case CARTESIAN_COMPUTED_SPHERICAL_SET:
             case CARTESIAN_SET_SPHERICAL_COMPUTED:  // not in 1.0.1
             case CARTESIAN_SET_SPHERICAL_REQUESTED: // not in 1.0.1
             case CARTESIAN_SET_SPHERICAL_UNKNOWN:
                 {
                 SLVec3D locationCartesian = thiz->mLocationCartesian;
                 interface_unlock_exclusive(thiz);
                 *pLocation = locationCartesian;
                 }
                 break;
             case CARTESIAN_UNKNOWN_SPHERICAL_SET:
                 thiz->mLocationActive = CARTESIAN_REQUESTED_SPHERICAL_SET;
                 // fall through
             case CARTESIAN_REQUESTED_SPHERICAL_SET:
                 // matched by cond_broadcast in case multiple requesters
 #if 0
                 interface_cond_wait(thiz);
 #else
                 thiz->mLocationActive = CARTESIAN_COMPUTED_SPHERICAL_SET;
 #endif
                 continue;
             default:
                 assert(SL_BOOLEAN_FALSE);
                 interface_unlock_exclusive(thiz);
                 pLocation->x = 0;
                 pLocation->y = 0;
                 pLocation->z = 0;
                 break;
             }
             break;
         }
         result = SL_RESULT_SUCCESS;
     }

     SL_LEAVE_INTERFACE
 }


 static SLresult I3DLocation_SetOrientationVectors(SL3DLocationItf self,
     const SLVec3D *pFront, const SLVec3D *pAbove)
 {
     SL_ENTER_INTERFACE

     if (NULL == pFront || NULL == pAbove) {
         result = SL_RESULT_PARAMETER_INVALID;
     } else {
         SLVec3D front = *pFront;
         SLVec3D above = *pAbove;
         // NTH Check for vectors close to zero or close to parallel
         I3DLocation *thiz = (I3DLocation *) self;
         interface_lock_exclusive(thiz);
         thiz->mOrientationVectors.mFront = front;
         thiz->mOrientationVectors.mAbove = above;
         thiz->mOrientationActive = ANGLES_UNKNOWN_VECTORS_SET;
         thiz->mRotatePending = SL_BOOLEAN_FALSE;
         interface_unlock_exclusive(thiz);
         result = SL_RESULT_SUCCESS;
     }

     SL_LEAVE_INTERFACE
 }


 static SLresult I3DLocation_SetOrientationAngles(SL3DLocationItf self,
     SLmillidegree heading, SLmillidegree pitch, SLmillidegree roll)
 {
     SL_ENTER_INTERFACE

     if (!((-360000 <= heading) && (heading <= 360000) &&
         (-90000 <= pitch) && (pitch <= 90000) &&
         (-360000 <= roll) && (roll <= 360000))) {
         result = SL_RESULT_PARAMETER_INVALID;
     } else {
         I3DLocation *thiz = (I3DLocation *) self;
         interface_lock_exclusive(thiz);
         thiz->mOrientationAngles.mHeading = heading;
         thiz->mOrientationAngles.mPitch = pitch;
         thiz->mOrientationAngles.mRoll = roll;
         thiz->mOrientationActive = ANGLES_SET_VECTORS_UNKNOWN;
         thiz->mRotatePending = SL_BOOLEAN_FALSE;
         interface_unlock_exclusive(thiz);
         result = SL_RESULT_SUCCESS;
     }

     SL_LEAVE_INTERFACE
 }


 static SLresult I3DLocation_Rotate(SL3DLocationItf self, SLmillidegree theta, const SLVec3D *pAxis)
 {
     SL_ENTER_INTERFACE

     if (!((-360000 <= theta) && (theta <= 360000)) || (NULL == pAxis)) {
         result = SL_RESULT_PARAMETER_INVALID;
     } else {
         SLVec3D axis = *pAxis;
         // NTH Check that axis is not (close to) zero vector, length does not matter
         I3DLocation *thiz = (I3DLocation *) self;
         interface_lock_exclusive(thiz);
         while (thiz->mRotatePending)
 #if 0
             interface_cond_wait(thiz);
 #else
             break;
 #endif
         thiz->mTheta = theta;
         thiz->mAxis = axis;
         thiz->mRotatePending = SL_BOOLEAN_TRUE;
         interface_unlock_exclusive(thiz);
         result = SL_RESULT_SUCCESS;
     }

     SL_LEAVE_INTERFACE
 }


 static SLresult I3DLocation_GetOrientationVectors(SL3DLocationItf self,
     SLVec3D *pFront, SLVec3D *pUp)
 {
     SL_ENTER_INTERFACE

     if (NULL == pFront || NULL == pUp) {
         result = SL_RESULT_PARAMETER_INVALID;
     } else {
         I3DLocation *thiz = (I3DLocation *) self;
         interface_lock_shared(thiz);
         SLVec3D front = thiz->mOrientationVectors.mFront;
         SLVec3D up = thiz->mOrientationVectors.mUp;
         interface_unlock_shared(thiz);
         *pFront = front;
         *pUp = up;
         result = SL_RESULT_SUCCESS;
     }

     SL_LEAVE_INTERFACE
 }


 static const struct SL3DLocationItf_ I3DLocation_Itf = {
     I3DLocation_SetLocationCartesian,
     I3DLocation_SetLocationSpherical,
     I3DLocation_Move,
     I3DLocation_GetLocationCartesian,
     I3DLocation_SetOrientationVectors,
     I3DLocation_SetOrientationAngles,
     I3DLocation_Rotate,
     I3DLocation_GetOrientationVectors
 };

 void I3DLocation_init(void *self)
 {
     I3DLocation *thiz = (I3DLocation *) self;
     thiz->mItf = &I3DLocation_Itf;
     thiz->mLocationCartesian.x = 0;
     thiz->mLocationCartesian.y = 0;
     thiz->mLocationCartesian.z = 0;
     memset(&thiz->mLocationSpherical, 0x55, sizeof(thiz->mLocationSpherical));
     thiz->mLocationActive = CARTESIAN_SET_SPHERICAL_UNKNOWN;
     thiz->mOrientationAngles.mHeading = 0;
     thiz->mOrientationAngles.mPitch = 0;
     thiz->mOrientationAngles.mRoll = 0;
     memset(&thiz->mOrientationVectors, 0x55, sizeof(thiz->mOrientationVectors));
     thiz->mOrientationActive = ANGLES_SET_VECTORS_UNKNOWN;
     thiz->mTheta = 0x55555555;
     thiz->mAxis.x = 0x55555555;
     thiz->mAxis.y = 0x55555555;
     thiz->mAxis.z = 0x55555555;
     thiz->mRotatePending = SL_BOOLEAN_FALSE;
 }
	/*
	* Copyright (C) 2010 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	/* 3DLocation implementation */

	#include "sles_allinclusive.h"


	static SLresult I3DLocation_SetLocationCartesian(SL3DLocationItf self, const SLVec3D *pLocation)
	{
	SL_ENTER_INTERFACE

	if (NULL == pLocation) {
	result = SL_RESULT_PARAMETER_INVALID;
	} else {
	I3DLocation thiz = (I3DLocation ) self;
	SLVec3D locationCartesian = *pLocation;
	interface_lock_exclusive(thiz);
	thiz->mLocationCartesian = locationCartesian;
	thiz->mLocationActive = CARTESIAN_SET_SPHERICAL_UNKNOWN;
	interface_unlock_exclusive(thiz);
	result = SL_RESULT_SUCCESS;
	}

	SL_LEAVE_INTERFACE
	}


	static SLresult I3DLocation_SetLocationSpherical(SL3DLocationItf self,
	SLmillidegree azimuth, SLmillidegree elevation, SLmillimeter distance)
	{
	SL_ENTER_INTERFACE

	if (!((-360000 <= azimuth) && (azimuth <= 360000) &&
	(-90000 <= elevation) && (elevation <= 90000) &&
	(0 <= distance) && (distance <= SL_MILLIMETER_MAX))) {
	result = SL_RESULT_PARAMETER_INVALID;
	} else {
	I3DLocation thiz = (I3DLocation ) self;
	interface_lock_exclusive(thiz);
	thiz->mLocationSpherical.mAzimuth = azimuth;
	thiz->mLocationSpherical.mElevation = elevation;
	thiz->mLocationSpherical.mDistance = distance;
	thiz->mLocationActive = CARTESIAN_UNKNOWN_SPHERICAL_SET;
	interface_unlock_exclusive(thiz);
	result = SL_RESULT_SUCCESS;
	}

	SL_LEAVE_INTERFACE
	}


	static SLresult I3DLocation_Move(SL3DLocationItf self, const SLVec3D *pMovement)
	{
	SL_ENTER_INTERFACE

	if (NULL == pMovement) {
	result = SL_RESULT_PARAMETER_INVALID;
	} else {
	I3DLocation thiz = (I3DLocation ) self;
	SLVec3D movementCartesian = *pMovement;
	interface_lock_exclusive(thiz);
	for (;;) {
	enum CartesianSphericalActive locationActive = thiz->mLocationActive;
	switch (locationActive) {
	case CARTESIAN_COMPUTED_SPHERICAL_SET:
	case CARTESIAN_SET_SPHERICAL_COMPUTED: // not in 1.0.1
	case CARTESIAN_SET_SPHERICAL_REQUESTED: // not in 1.0.1
	case CARTESIAN_SET_SPHERICAL_UNKNOWN:
	thiz->mLocationCartesian.x += movementCartesian.x;
	thiz->mLocationCartesian.y += movementCartesian.y;
	thiz->mLocationCartesian.z += movementCartesian.z;
	thiz->mLocationActive = CARTESIAN_SET_SPHERICAL_UNKNOWN;
	break;
	case CARTESIAN_UNKNOWN_SPHERICAL_SET:
	thiz->mLocationActive = CARTESIAN_REQUESTED_SPHERICAL_SET;
	// fall through
	case CARTESIAN_REQUESTED_SPHERICAL_SET:
	// matched by cond_broadcast in case multiple requesters
	#if 0
	interface_cond_wait(thiz);
	#else
	thiz->mLocationActive = CARTESIAN_COMPUTED_SPHERICAL_SET;
	#endif
	continue;
	default:
	assert(SL_BOOLEAN_FALSE);
	break;
	}
	break;
	}
	interface_unlock_exclusive(thiz);
	result = SL_RESULT_SUCCESS;
	}

	SL_LEAVE_INTERFACE
	}


	static SLresult I3DLocation_GetLocationCartesian(SL3DLocationItf self, SLVec3D *pLocation)
	{
	SL_ENTER_INTERFACE

	if (NULL == pLocation) {
	result = SL_RESULT_PARAMETER_INVALID;
	} else {
	I3DLocation thiz = (I3DLocation ) self;
	interface_lock_exclusive(thiz);
	for (;;) {
	enum CartesianSphericalActive locationActive = thiz->mLocationActive;
	switch (locationActive) {
	case CARTESIAN_COMPUTED_SPHERICAL_SET:
	case CARTESIAN_SET_SPHERICAL_COMPUTED: // not in 1.0.1
	case CARTESIAN_SET_SPHERICAL_REQUESTED: // not in 1.0.1
	case CARTESIAN_SET_SPHERICAL_UNKNOWN:
	{
	SLVec3D locationCartesian = thiz->mLocationCartesian;
	interface_unlock_exclusive(thiz);
	*pLocation = locationCartesian;
	}
	break;
	case CARTESIAN_UNKNOWN_SPHERICAL_SET:
	thiz->mLocationActive = CARTESIAN_REQUESTED_SPHERICAL_SET;
	// fall through
	case CARTESIAN_REQUESTED_SPHERICAL_SET:
	// matched by cond_broadcast in case multiple requesters
	#if 0
	interface_cond_wait(thiz);
	#else
	thiz->mLocationActive = CARTESIAN_COMPUTED_SPHERICAL_SET;
	#endif
	continue;
	default:
	assert(SL_BOOLEAN_FALSE);
	interface_unlock_exclusive(thiz);
	pLocation->x = 0;
	pLocation->y = 0;
	pLocation->z = 0;
	break;
	}
	break;
	}
	result = SL_RESULT_SUCCESS;
	}

	SL_LEAVE_INTERFACE
	}


	static SLresult I3DLocation_SetOrientationVectors(SL3DLocationItf self,
	const SLVec3D pFront, const SLVec3D pAbove)
	{
	SL_ENTER_INTERFACE

	if (NULL == pFront \|\| NULL == pAbove) {
	result = SL_RESULT_PARAMETER_INVALID;
	} else {
	SLVec3D front = *pFront;
	SLVec3D above = *pAbove;
	// NTH Check for vectors close to zero or close to parallel
	I3DLocation thiz = (I3DLocation ) self;
	interface_lock_exclusive(thiz);
	thiz->mOrientationVectors.mFront = front;
	thiz->mOrientationVectors.mAbove = above;
	thiz->mOrientationActive = ANGLES_UNKNOWN_VECTORS_SET;
	thiz->mRotatePending = SL_BOOLEAN_FALSE;
	interface_unlock_exclusive(thiz);
	result = SL_RESULT_SUCCESS;
	}

	SL_LEAVE_INTERFACE
	}


	static SLresult I3DLocation_SetOrientationAngles(SL3DLocationItf self,
	SLmillidegree heading, SLmillidegree pitch, SLmillidegree roll)
	{
	SL_ENTER_INTERFACE

	if (!((-360000 <= heading) && (heading <= 360000) &&
	(-90000 <= pitch) && (pitch <= 90000) &&
	(-360000 <= roll) && (roll <= 360000))) {
	result = SL_RESULT_PARAMETER_INVALID;
	} else {
	I3DLocation thiz = (I3DLocation ) self;
	interface_lock_exclusive(thiz);
	thiz->mOrientationAngles.mHeading = heading;
	thiz->mOrientationAngles.mPitch = pitch;
	thiz->mOrientationAngles.mRoll = roll;
	thiz->mOrientationActive = ANGLES_SET_VECTORS_UNKNOWN;
	thiz->mRotatePending = SL_BOOLEAN_FALSE;
	interface_unlock_exclusive(thiz);
	result = SL_RESULT_SUCCESS;
	}

	SL_LEAVE_INTERFACE
	}


	static SLresult I3DLocation_Rotate(SL3DLocationItf self, SLmillidegree theta, const SLVec3D *pAxis)
	{
	SL_ENTER_INTERFACE

	if (!((-360000 <= theta) && (theta <= 360000)) \|\| (NULL == pAxis)) {
	result = SL_RESULT_PARAMETER_INVALID;
	} else {
	SLVec3D axis = *pAxis;
	// NTH Check that axis is not (close to) zero vector, length does not matter
	I3DLocation thiz = (I3DLocation ) self;
	interface_lock_exclusive(thiz);
	while (thiz->mRotatePending)
	#if 0
	interface_cond_wait(thiz);
	#else
	break;
	#endif
	thiz->mTheta = theta;
	thiz->mAxis = axis;
	thiz->mRotatePending = SL_BOOLEAN_TRUE;
	interface_unlock_exclusive(thiz);
	result = SL_RESULT_SUCCESS;
	}

	SL_LEAVE_INTERFACE
	}


	static SLresult I3DLocation_GetOrientationVectors(SL3DLocationItf self,
	SLVec3D pFront, SLVec3D pUp)
	{
	SL_ENTER_INTERFACE

	if (NULL == pFront \|\| NULL == pUp) {
	result = SL_RESULT_PARAMETER_INVALID;
	} else {
	I3DLocation thiz = (I3DLocation ) self;
	interface_lock_shared(thiz);
	SLVec3D front = thiz->mOrientationVectors.mFront;
	SLVec3D up = thiz->mOrientationVectors.mUp;
	interface_unlock_shared(thiz);
	*pFront = front;
	*pUp = up;
	result = SL_RESULT_SUCCESS;
	}

	SL_LEAVE_INTERFACE
	}


	static const struct SL3DLocationItf_ I3DLocation_Itf = {
	I3DLocation_SetLocationCartesian,
	I3DLocation_SetLocationSpherical,
	I3DLocation_Move,
	I3DLocation_GetLocationCartesian,
	I3DLocation_SetOrientationVectors,
	I3DLocation_SetOrientationAngles,
	I3DLocation_Rotate,
	I3DLocation_GetOrientationVectors
	};

	void I3DLocation_init(void *self)
	{
	I3DLocation thiz = (I3DLocation ) self;
	thiz->mItf = &I3DLocation_Itf;
	thiz->mLocationCartesian.x = 0;
	thiz->mLocationCartesian.y = 0;
	thiz->mLocationCartesian.z = 0;
	memset(&thiz->mLocationSpherical, 0x55, sizeof(thiz->mLocationSpherical));
	thiz->mLocationActive = CARTESIAN_SET_SPHERICAL_UNKNOWN;
	thiz->mOrientationAngles.mHeading = 0;
	thiz->mOrientationAngles.mPitch = 0;
	thiz->mOrientationAngles.mRoll = 0;
	memset(&thiz->mOrientationVectors, 0x55, sizeof(thiz->mOrientationVectors));
	thiz->mOrientationActive = ANGLES_SET_VECTORS_UNKNOWN;
	thiz->mTheta = 0x55555555;
	thiz->mAxis.x = 0x55555555;
	thiz->mAxis.y = 0x55555555;
	thiz->mAxis.z = 0x55555555;
	thiz->mRotatePending = SL_BOOLEAN_FALSE;
	}