camera/EmulatedFakeCameraDevice.cpp - device/generic/goldfish - Git at Google

 /*
  * Copyright (C) 2011 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.
  */

 /*
  * Contains implementation of a class EmulatedFakeCameraDevice that encapsulates
  * fake camera device.
  */

 #define LOG_NDEBUG 0
 #define LOG_TAG "EmulatedCamera_FakeDevice"
 #include <cutils/log.h>
 #include "EmulatedFakeCamera.h"
 #include "EmulatedFakeCameraDevice.h"

 namespace android {

 EmulatedFakeCameraDevice::EmulatedFakeCameraDevice(EmulatedFakeCamera* camera_hal)
     : EmulatedCameraDevice(camera_hal),
       mBlackYUV(kBlack32),
       mWhiteYUV(kWhite32),
       mRedYUV(kRed8),
       mGreenYUV(kGreen8),
       mBlueYUV(kBlue8),
       mLastRedrawn(0),
       mCheckX(0),
       mCheckY(0),
       mCcounter(0)
 #if EFCD_ROTATE_FRAME
       , mLastRotatedAt(0),
         mCurrentFrameType(0),
         mCurrentColor(&mWhiteYUV)
 #endif  // EFCD_ROTATE_FRAME
 {
     // Makes the image with the original exposure compensation darker.
     // So the effects of changing the exposure compensation can be seen.
     mBlackYUV.Y = mBlackYUV.Y / 2;
     mWhiteYUV.Y = mWhiteYUV.Y / 2;
     mRedYUV.Y = mRedYUV.Y / 2;
     mGreenYUV.Y = mGreenYUV.Y / 2;
     mBlueYUV.Y = mBlueYUV.Y / 2;
 }

 EmulatedFakeCameraDevice::~EmulatedFakeCameraDevice()
 {
 }

 /****************************************************************************
  * Emulated camera device abstract interface implementation.
  ***************************************************************************/

 status_t EmulatedFakeCameraDevice::connectDevice()
 {
     ALOGV("%s", __FUNCTION__);

     Mutex::Autolock locker(&mObjectLock);
     if (!isInitialized()) {
         ALOGE("%s: Fake camera device is not initialized.", __FUNCTION__);
         return EINVAL;
     }
     if (isConnected()) {
         ALOGW("%s: Fake camera device is already connected.", __FUNCTION__);
         return NO_ERROR;
     }

     /* There is no device to connect to. */
     mState = ECDS_CONNECTED;

     return NO_ERROR;
 }

 status_t EmulatedFakeCameraDevice::disconnectDevice()
 {
     ALOGV("%s", __FUNCTION__);

     Mutex::Autolock locker(&mObjectLock);
     if (!isConnected()) {
         ALOGW("%s: Fake camera device is already disconnected.", __FUNCTION__);
         return NO_ERROR;
     }
     if (isStarted()) {
         ALOGE("%s: Cannot disconnect from the started device.", __FUNCTION__);
         return EINVAL;
     }

     /* There is no device to disconnect from. */
     mState = ECDS_INITIALIZED;

     return NO_ERROR;
 }

 status_t EmulatedFakeCameraDevice::startDevice(int width,
                                                int height,
                                                uint32_t pix_fmt)
 {
     ALOGV("%s", __FUNCTION__);

     Mutex::Autolock locker(&mObjectLock);
     if (!isConnected()) {
         ALOGE("%s: Fake camera device is not connected.", __FUNCTION__);
         return EINVAL;
     }
     if (isStarted()) {
         ALOGE("%s: Fake camera device is already started.", __FUNCTION__);
         return EINVAL;
     }

     /* Initialize the base class. */
     const status_t res =
         EmulatedCameraDevice::commonStartDevice(width, height, pix_fmt);
     if (res == NO_ERROR) {
         /* Calculate U/V panes inside the framebuffer. */
         switch (mPixelFormat) {
             case V4L2_PIX_FMT_YVU420:
                 mFrameV = mCurrentFrame + mTotalPixels;
                 mFrameU = mFrameU + mTotalPixels / 4;
                 mUVStep = 1;
                 mUVTotalNum = mTotalPixels / 4;
                 break;

             case V4L2_PIX_FMT_YUV420:
                 mFrameU = mCurrentFrame + mTotalPixels;
                 mFrameV = mFrameU + mTotalPixels / 4;
                 mUVStep = 1;
                 mUVTotalNum = mTotalPixels / 4;
                 break;

             case V4L2_PIX_FMT_NV21:
                 /* Interleaved UV pane, V first. */
                 mFrameV = mCurrentFrame + mTotalPixels;
                 mFrameU = mFrameV + 1;
                 mUVStep = 2;
                 mUVTotalNum = mTotalPixels / 4;
                 break;

             case V4L2_PIX_FMT_NV12:
                 /* Interleaved UV pane, U first. */
                 mFrameU = mCurrentFrame + mTotalPixels;
                 mFrameV = mFrameU + 1;
                 mUVStep = 2;
                 mUVTotalNum = mTotalPixels / 4;
                 break;

             default:
                 ALOGE("%s: Unknown pixel format %.4s", __FUNCTION__,
                      reinterpret_cast<const char*>(&mPixelFormat));
                 return EINVAL;
         }
         /* Number of items in a single row inside U/V panes. */
         mUVInRow = (width / 2) * mUVStep;
         mState = ECDS_STARTED;
     } else {
         ALOGE("%s: commonStartDevice failed", __FUNCTION__);
     }

     return res;
 }

 status_t EmulatedFakeCameraDevice::stopDevice()
 {
     ALOGV("%s", __FUNCTION__);

     Mutex::Autolock locker(&mObjectLock);
     if (!isStarted()) {
         ALOGW("%s: Fake camera device is not started.", __FUNCTION__);
         return NO_ERROR;
     }

     mFrameU = mFrameV = NULL;
     EmulatedCameraDevice::commonStopDevice();
     mState = ECDS_CONNECTED;

     return NO_ERROR;
 }

 /****************************************************************************
  * Worker thread management overrides.
  ***************************************************************************/

 bool EmulatedFakeCameraDevice::inWorkerThread()
 {
     /* Wait till FPS timeout expires, or thread exit message is received. */
     WorkerThread::SelectRes res =
         getWorkerThread()->Select(-1, 1000000 / mEmulatedFPS);
     if (res == WorkerThread::EXIT_THREAD) {
         ALOGV("%s: Worker thread has been terminated.", __FUNCTION__);
         return false;
     }

     /* Lets see if we need to generate a new frame. */
     if ((systemTime(SYSTEM_TIME_MONOTONIC) - mLastRedrawn) >= mRedrawAfter) {
         /*
          * Time to generate a new frame.
          */

 #if EFCD_ROTATE_FRAME
         const int frame_type = rotateFrame();
         switch (frame_type) {
             case 0:
                 drawCheckerboard();
                 break;
             case 1:
                 drawStripes();
                 break;
             case 2:
                 drawSolid(mCurrentColor);
                 break;
         }
 #else
         /* Draw the checker board. */
         drawCheckerboard();

 #endif  // EFCD_ROTATE_FRAME

         mLastRedrawn = systemTime(SYSTEM_TIME_MONOTONIC);
     }

     /* Timestamp the current frame, and notify the camera HAL about new frame. */
     mCurFrameTimestamp = systemTime(SYSTEM_TIME_MONOTONIC);
     mCameraHAL->onNextFrameAvailable(mCurrentFrame, mCurFrameTimestamp, this);

     return true;
 }

 /****************************************************************************
  * Fake camera device private API
  ***************************************************************************/

 void EmulatedFakeCameraDevice::drawCheckerboard()
 {
     const int size = mFrameWidth / 10;
     bool black = true;

     if (size == 0) {
         // When this happens, it happens at a very high rate,
         //     so don't log any messages and just return.
         return;
     }


     if((mCheckX / size) & 1)
         black = false;
     if((mCheckY / size) & 1)
         black = !black;

     int county = mCheckY % size;
     int checkxremainder = mCheckX % size;
     uint8_t* Y = mCurrentFrame;
     uint8_t* U_pos = mFrameU;
     uint8_t* V_pos = mFrameV;
     uint8_t* U = U_pos;
     uint8_t* V = V_pos;

     YUVPixel adjustedWhite = YUVPixel(mWhiteYUV);
     changeWhiteBalance(adjustedWhite.Y, adjustedWhite.U, adjustedWhite.V);

     for(int y = 0; y < mFrameHeight; y++) {
         int countx = checkxremainder;
         bool current = black;
         for(int x = 0; x < mFrameWidth; x += 2) {
             if (current) {
                 mBlackYUV.get(Y, U, V);
             } else {
                 adjustedWhite.get(Y, U, V);
             }
             *Y = changeExposure(*Y);
             Y[1] = *Y;
             Y += 2; U += mUVStep; V += mUVStep;
             countx += 2;
             if(countx >= size) {
                 countx = 0;
                 current = !current;
             }
         }
         if (y & 0x1) {
             U_pos = U;
             V_pos = V;
         } else {
             U = U_pos;
             V = V_pos;
         }
         if(county++ >= size) {
             county = 0;
             black = !black;
         }
     }
     mCheckX += 3;
     mCheckY++;

     /* Run the square. */
     int sqx = ((mCcounter * 3) & 255);
     if(sqx > 128) sqx = 255 - sqx;
     int sqy = ((mCcounter * 5) & 255);
     if(sqy > 128) sqy = 255 - sqy;
     const int sqsize = mFrameWidth / 10;
     drawSquare(sqx * sqsize / 32, sqy * sqsize / 32, (sqsize * 5) >> 1,
                (mCcounter & 0x100) ? &mRedYUV : &mGreenYUV);
     mCcounter++;
 }

 void EmulatedFakeCameraDevice::drawSquare(int x,
                                           int y,
                                           int size,
                                           const YUVPixel* color)
 {
     const int square_xstop = min(mFrameWidth, x + size);
     const int square_ystop = min(mFrameHeight, y + size);
     uint8_t* Y_pos = mCurrentFrame + y * mFrameWidth + x;

     YUVPixel adjustedColor = *color;
     changeWhiteBalance(adjustedColor.Y, adjustedColor.U, adjustedColor.V);

     // Draw the square.
     for (; y < square_ystop; y++) {
         const int iUV = (y / 2) * mUVInRow + (x / 2) * mUVStep;
         uint8_t* sqU = mFrameU + iUV;
         uint8_t* sqV = mFrameV + iUV;
         uint8_t* sqY = Y_pos;
         for (int i = x; i < square_xstop; i += 2) {
             adjustedColor.get(sqY, sqU, sqV);
             *sqY = changeExposure(*sqY);
             sqY[1] = *sqY;
             sqY += 2; sqU += mUVStep; sqV += mUVStep;
         }
         Y_pos += mFrameWidth;
     }
 }

 #if EFCD_ROTATE_FRAME

 void EmulatedFakeCameraDevice::drawSolid(YUVPixel* color)
 {
     YUVPixel adjustedColor = *color;
     changeWhiteBalance(adjustedColor.Y, adjustedColor.U, adjustedColor.V);

     /* All Ys are the same. */
     memset(mCurrentFrame, changeExposure(adjustedColor.Y), mTotalPixels);

     /* Fill U, and V panes. */
     uint8_t* U = mFrameU;
     uint8_t* V = mFrameV;
     for (int k = 0; k < mUVTotalNum; k++, U += mUVStep, V += mUVStep) {
         *U = color->U;
         *V = color->V;
     }
 }

 void EmulatedFakeCameraDevice::drawStripes()
 {
     /* Divide frame into 4 stripes. */
     const int change_color_at = mFrameHeight / 4;
     const int each_in_row = mUVInRow / mUVStep;
     uint8_t* pY = mCurrentFrame;
     for (int y = 0; y < mFrameHeight; y++, pY += mFrameWidth) {
         /* Select the color. */
         YUVPixel* color;
         const int color_index = y / change_color_at;
         if (color_index == 0) {
             /* White stripe on top. */
             color = &mWhiteYUV;
         } else if (color_index == 1) {
             /* Then the red stripe. */
             color = &mRedYUV;
         } else if (color_index == 2) {
             /* Then the green stripe. */
             color = &mGreenYUV;
         } else {
             /* And the blue stripe at the bottom. */
             color = &mBlueYUV;
         }
         changeWhiteBalance(color->Y, color->U, color->V);

         /* All Ys at the row are the same. */
         memset(pY, changeExposure(color->Y), mFrameWidth);

         /* Offset of the current row inside U/V panes. */
         const int uv_off = (y / 2) * mUVInRow;
         /* Fill U, and V panes. */
         uint8_t* U = mFrameU + uv_off;
         uint8_t* V = mFrameV + uv_off;
         for (int k = 0; k < each_in_row; k++, U += mUVStep, V += mUVStep) {
             *U = color->U;
             *V = color->V;
         }
     }
 }

 int EmulatedFakeCameraDevice::rotateFrame()
 {
     if ((systemTime(SYSTEM_TIME_MONOTONIC) - mLastRotatedAt) >= mRotateFreq) {
         mLastRotatedAt = systemTime(SYSTEM_TIME_MONOTONIC);
         mCurrentFrameType++;
         if (mCurrentFrameType > 2) {
             mCurrentFrameType = 0;
         }
         if (mCurrentFrameType == 2) {
             ALOGD("********** Rotated to the SOLID COLOR frame **********");
             /* Solid color: lets rotate color too. */
             if (mCurrentColor == &mWhiteYUV) {
                 ALOGD("----- Painting a solid RED frame -----");
                 mCurrentColor = &mRedYUV;
             } else if (mCurrentColor == &mRedYUV) {
                 ALOGD("----- Painting a solid GREEN frame -----");
                 mCurrentColor = &mGreenYUV;
             } else if (mCurrentColor == &mGreenYUV) {
                 ALOGD("----- Painting a solid BLUE frame -----");
                 mCurrentColor = &mBlueYUV;
             } else {
                 /* Back to white. */
                 ALOGD("----- Painting a solid WHITE frame -----");
                 mCurrentColor = &mWhiteYUV;
             }
         } else if (mCurrentFrameType == 0) {
             ALOGD("********** Rotated to the CHECKERBOARD frame **********");
         } else if (mCurrentFrameType == 1) {
             ALOGD("********** Rotated to the STRIPED frame **********");
         }
     }

     return mCurrentFrameType;
 }

 #endif  // EFCD_ROTATE_FRAME

 }; /* namespace android */
	/*
	* Copyright (C) 2011 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.
	*/

	/*
	* Contains implementation of a class EmulatedFakeCameraDevice that encapsulates
	* fake camera device.
	*/

	#define LOG_NDEBUG 0
	#define LOG_TAG "EmulatedCamera_FakeDevice"
	#include <cutils/log.h>
	#include "EmulatedFakeCamera.h"
	#include "EmulatedFakeCameraDevice.h"

	namespace android {

	EmulatedFakeCameraDevice::EmulatedFakeCameraDevice(EmulatedFakeCamera* camera_hal)
	: EmulatedCameraDevice(camera_hal),
	mBlackYUV(kBlack32),
	mWhiteYUV(kWhite32),
	mRedYUV(kRed8),
	mGreenYUV(kGreen8),
	mBlueYUV(kBlue8),
	mLastRedrawn(0),
	mCheckX(0),
	mCheckY(0),
	mCcounter(0)
	#if EFCD_ROTATE_FRAME
	, mLastRotatedAt(0),
	mCurrentFrameType(0),
	mCurrentColor(&mWhiteYUV)
	#endif // EFCD_ROTATE_FRAME
	{
	// Makes the image with the original exposure compensation darker.
	// So the effects of changing the exposure compensation can be seen.
	mBlackYUV.Y = mBlackYUV.Y / 2;
	mWhiteYUV.Y = mWhiteYUV.Y / 2;
	mRedYUV.Y = mRedYUV.Y / 2;
	mGreenYUV.Y = mGreenYUV.Y / 2;
	mBlueYUV.Y = mBlueYUV.Y / 2;
	}

	EmulatedFakeCameraDevice::~EmulatedFakeCameraDevice()
	{
	}

	/****************************************************************************
	* Emulated camera device abstract interface implementation.
	***************************************************************************/

	status_t EmulatedFakeCameraDevice::connectDevice()
	{
	ALOGV("%s", __FUNCTION__);

	Mutex::Autolock locker(&mObjectLock);
	if (!isInitialized()) {
	ALOGE("%s: Fake camera device is not initialized.", __FUNCTION__);
	return EINVAL;
	}
	if (isConnected()) {
	ALOGW("%s: Fake camera device is already connected.", __FUNCTION__);
	return NO_ERROR;
	}

	/* There is no device to connect to. */
	mState = ECDS_CONNECTED;

	return NO_ERROR;
	}

	status_t EmulatedFakeCameraDevice::disconnectDevice()
	{
	ALOGV("%s", __FUNCTION__);

	Mutex::Autolock locker(&mObjectLock);
	if (!isConnected()) {
	ALOGW("%s: Fake camera device is already disconnected.", __FUNCTION__);
	return NO_ERROR;
	}
	if (isStarted()) {
	ALOGE("%s: Cannot disconnect from the started device.", __FUNCTION__);
	return EINVAL;
	}

	/* There is no device to disconnect from. */
	mState = ECDS_INITIALIZED;

	return NO_ERROR;
	}

	status_t EmulatedFakeCameraDevice::startDevice(int width,
	int height,
	uint32_t pix_fmt)
	{
	ALOGV("%s", __FUNCTION__);

	Mutex::Autolock locker(&mObjectLock);
	if (!isConnected()) {
	ALOGE("%s: Fake camera device is not connected.", __FUNCTION__);
	return EINVAL;
	}
	if (isStarted()) {
	ALOGE("%s: Fake camera device is already started.", __FUNCTION__);
	return EINVAL;
	}

	/* Initialize the base class. */
	const status_t res =
	EmulatedCameraDevice::commonStartDevice(width, height, pix_fmt);
	if (res == NO_ERROR) {
	/* Calculate U/V panes inside the framebuffer. */
	switch (mPixelFormat) {
	case V4L2_PIX_FMT_YVU420:
	mFrameV = mCurrentFrame + mTotalPixels;
	mFrameU = mFrameU + mTotalPixels / 4;
	mUVStep = 1;
	mUVTotalNum = mTotalPixels / 4;
	break;

	case V4L2_PIX_FMT_YUV420:
	mFrameU = mCurrentFrame + mTotalPixels;
	mFrameV = mFrameU + mTotalPixels / 4;
	mUVStep = 1;
	mUVTotalNum = mTotalPixels / 4;
	break;

	case V4L2_PIX_FMT_NV21:
	/* Interleaved UV pane, V first. */
	mFrameV = mCurrentFrame + mTotalPixels;
	mFrameU = mFrameV + 1;
	mUVStep = 2;
	mUVTotalNum = mTotalPixels / 4;
	break;

	case V4L2_PIX_FMT_NV12:
	/* Interleaved UV pane, U first. */
	mFrameU = mCurrentFrame + mTotalPixels;
	mFrameV = mFrameU + 1;
	mUVStep = 2;
	mUVTotalNum = mTotalPixels / 4;
	break;

	default:
	ALOGE("%s: Unknown pixel format %.4s", __FUNCTION__,
	reinterpret_cast<const char*>(&mPixelFormat));
	return EINVAL;
	}
	/* Number of items in a single row inside U/V panes. */
	mUVInRow = (width / 2) * mUVStep;
	mState = ECDS_STARTED;
	} else {
	ALOGE("%s: commonStartDevice failed", __FUNCTION__);
	}

	return res;
	}

	status_t EmulatedFakeCameraDevice::stopDevice()
	{
	ALOGV("%s", __FUNCTION__);

	Mutex::Autolock locker(&mObjectLock);
	if (!isStarted()) {
	ALOGW("%s: Fake camera device is not started.", __FUNCTION__);
	return NO_ERROR;
	}

	mFrameU = mFrameV = NULL;
	EmulatedCameraDevice::commonStopDevice();
	mState = ECDS_CONNECTED;

	return NO_ERROR;
	}

	/****************************************************************************
	* Worker thread management overrides.
	***************************************************************************/

	bool EmulatedFakeCameraDevice::inWorkerThread()
	{
	/* Wait till FPS timeout expires, or thread exit message is received. */
	WorkerThread::SelectRes res =
	getWorkerThread()->Select(-1, 1000000 / mEmulatedFPS);
	if (res == WorkerThread::EXIT_THREAD) {
	ALOGV("%s: Worker thread has been terminated.", __FUNCTION__);
	return false;
	}

	/* Lets see if we need to generate a new frame. */
	if ((systemTime(SYSTEM_TIME_MONOTONIC) - mLastRedrawn) >= mRedrawAfter) {
	/*
	* Time to generate a new frame.
	*/

	#if EFCD_ROTATE_FRAME
	const int frame_type = rotateFrame();
	switch (frame_type) {
	case 0:
	drawCheckerboard();
	break;
	case 1:
	drawStripes();
	break;
	case 2:
	drawSolid(mCurrentColor);
	break;
	}
	#else
	/* Draw the checker board. */
	drawCheckerboard();

	#endif // EFCD_ROTATE_FRAME

	mLastRedrawn = systemTime(SYSTEM_TIME_MONOTONIC);
	}

	/* Timestamp the current frame, and notify the camera HAL about new frame. */
	mCurFrameTimestamp = systemTime(SYSTEM_TIME_MONOTONIC);
	mCameraHAL->onNextFrameAvailable(mCurrentFrame, mCurFrameTimestamp, this);

	return true;
	}

	/****************************************************************************
	* Fake camera device private API
	***************************************************************************/

	void EmulatedFakeCameraDevice::drawCheckerboard()
	{
	const int size = mFrameWidth / 10;
	bool black = true;

	if (size == 0) {
	// When this happens, it happens at a very high rate,
	// so don't log any messages and just return.
	return;
	}


	if((mCheckX / size) & 1)
	black = false;
	if((mCheckY / size) & 1)
	black = !black;

	int county = mCheckY % size;
	int checkxremainder = mCheckX % size;
	uint8_t* Y = mCurrentFrame;
	uint8_t* U_pos = mFrameU;
	uint8_t* V_pos = mFrameV;
	uint8_t* U = U_pos;
	uint8_t* V = V_pos;

	YUVPixel adjustedWhite = YUVPixel(mWhiteYUV);
	changeWhiteBalance(adjustedWhite.Y, adjustedWhite.U, adjustedWhite.V);

	for(int y = 0; y < mFrameHeight; y++) {
	int countx = checkxremainder;
	bool current = black;
	for(int x = 0; x < mFrameWidth; x += 2) {
	if (current) {
	mBlackYUV.get(Y, U, V);
	} else {
	adjustedWhite.get(Y, U, V);
	}
	Y = changeExposure(Y);
	Y[1] = *Y;
	Y += 2; U += mUVStep; V += mUVStep;
	countx += 2;
	if(countx >= size) {
	countx = 0;
	current = !current;
	}
	}
	if (y & 0x1) {
	U_pos = U;
	V_pos = V;
	} else {
	U = U_pos;
	V = V_pos;
	}
	if(county++ >= size) {
	county = 0;
	black = !black;
	}
	}
	mCheckX += 3;
	mCheckY++;

	/* Run the square. */
	int sqx = ((mCcounter * 3) & 255);
	if(sqx > 128) sqx = 255 - sqx;
	int sqy = ((mCcounter * 5) & 255);
	if(sqy > 128) sqy = 255 - sqy;
	const int sqsize = mFrameWidth / 10;
	drawSquare(sqx * sqsize / 32, sqy * sqsize / 32, (sqsize * 5) >> 1,
	(mCcounter & 0x100) ? &mRedYUV : &mGreenYUV);
	mCcounter++;
	}

	void EmulatedFakeCameraDevice::drawSquare(int x,
	int y,
	int size,
	const YUVPixel* color)
	{
	const int square_xstop = min(mFrameWidth, x + size);
	const int square_ystop = min(mFrameHeight, y + size);
	uint8_t* Y_pos = mCurrentFrame + y * mFrameWidth + x;

	YUVPixel adjustedColor = *color;
	changeWhiteBalance(adjustedColor.Y, adjustedColor.U, adjustedColor.V);

	// Draw the square.
	for (; y < square_ystop; y++) {
	const int iUV = (y / 2) * mUVInRow + (x / 2) * mUVStep;
	uint8_t* sqU = mFrameU + iUV;
	uint8_t* sqV = mFrameV + iUV;
	uint8_t* sqY = Y_pos;
	for (int i = x; i < square_xstop; i += 2) {
	adjustedColor.get(sqY, sqU, sqV);
	sqY = changeExposure(sqY);
	sqY[1] = *sqY;
	sqY += 2; sqU += mUVStep; sqV += mUVStep;
	}
	Y_pos += mFrameWidth;
	}
	}

	#if EFCD_ROTATE_FRAME

	void EmulatedFakeCameraDevice::drawSolid(YUVPixel* color)
	{
	YUVPixel adjustedColor = *color;
	changeWhiteBalance(adjustedColor.Y, adjustedColor.U, adjustedColor.V);

	/* All Ys are the same. */
	memset(mCurrentFrame, changeExposure(adjustedColor.Y), mTotalPixels);

	/* Fill U, and V panes. */
	uint8_t* U = mFrameU;
	uint8_t* V = mFrameV;
	for (int k = 0; k < mUVTotalNum; k++, U += mUVStep, V += mUVStep) {
	*U = color->U;
	*V = color->V;
	}
	}

	void EmulatedFakeCameraDevice::drawStripes()
	{
	/* Divide frame into 4 stripes. */
	const int change_color_at = mFrameHeight / 4;
	const int each_in_row = mUVInRow / mUVStep;
	uint8_t* pY = mCurrentFrame;
	for (int y = 0; y < mFrameHeight; y++, pY += mFrameWidth) {
	/* Select the color. */
	YUVPixel* color;
	const int color_index = y / change_color_at;
	if (color_index == 0) {
	/* White stripe on top. */
	color = &mWhiteYUV;
	} else if (color_index == 1) {
	/* Then the red stripe. */
	color = &mRedYUV;
	} else if (color_index == 2) {
	/* Then the green stripe. */
	color = &mGreenYUV;
	} else {
	/* And the blue stripe at the bottom. */
	color = &mBlueYUV;
	}
	changeWhiteBalance(color->Y, color->U, color->V);

	/* All Ys at the row are the same. */
	memset(pY, changeExposure(color->Y), mFrameWidth);

	/* Offset of the current row inside U/V panes. */
	const int uv_off = (y / 2) * mUVInRow;
	/* Fill U, and V panes. */
	uint8_t* U = mFrameU + uv_off;
	uint8_t* V = mFrameV + uv_off;
	for (int k = 0; k < each_in_row; k++, U += mUVStep, V += mUVStep) {
	*U = color->U;
	*V = color->V;
	}
	}
	}

	int EmulatedFakeCameraDevice::rotateFrame()
	{
	if ((systemTime(SYSTEM_TIME_MONOTONIC) - mLastRotatedAt) >= mRotateFreq) {
	mLastRotatedAt = systemTime(SYSTEM_TIME_MONOTONIC);
	mCurrentFrameType++;
	if (mCurrentFrameType > 2) {
	mCurrentFrameType = 0;
	}
	if (mCurrentFrameType == 2) {
	ALOGD("******** Rotated to the SOLID COLOR frame ********");
	/* Solid color: lets rotate color too. */
	if (mCurrentColor == &mWhiteYUV) {
	ALOGD("----- Painting a solid RED frame -----");
	mCurrentColor = &mRedYUV;
	} else if (mCurrentColor == &mRedYUV) {
	ALOGD("----- Painting a solid GREEN frame -----");
	mCurrentColor = &mGreenYUV;
	} else if (mCurrentColor == &mGreenYUV) {
	ALOGD("----- Painting a solid BLUE frame -----");
	mCurrentColor = &mBlueYUV;
	} else {
	/* Back to white. */
	ALOGD("----- Painting a solid WHITE frame -----");
	mCurrentColor = &mWhiteYUV;
	}
	} else if (mCurrentFrameType == 0) {
	ALOGD("******** Rotated to the CHECKERBOARD frame ********");
	} else if (mCurrentFrameType == 1) {
	ALOGD("******** Rotated to the STRIPED frame ********");
	}
	}

	return mCurrentFrameType;
	}

	#endif // EFCD_ROTATE_FRAME

	}; /* namespace android */