jni/feature_mos_jni.cpp - platform/packages/apps/Camera - 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.
  */

 /*
 *
  */
 #include <string.h>
 #include <jni.h>
 #include <stdio.h>
 #include <stdlib.h>
 #include <time.h>
 #include <db_utilities_camera.h>

 #include "mosaic/AlignFeatures.h"
 #include "mosaic/Blend.h"
 #include "mosaic/Mosaic.h"
 #include "mosaic/Log.h"
 #define LOG_TAG "FEATURE_MOS_JNI"

 #ifdef __cplusplus
 extern "C" {
 #endif

 #include "mosaic_renderer_jni.h"

 char buffer[1024];

 const int MAX_FRAMES = 100;

 static double mTx;

 int tWidth[NR];
 int tHeight[NR];

 ImageType tImage[NR][MAX_FRAMES];// = {{ImageUtils::IMAGE_TYPE_NOIMAGE}}; // YVU24 format image
 Mosaic *mosaic[NR] = {NULL,NULL};
 ImageType resultYVU = ImageUtils::IMAGE_TYPE_NOIMAGE;
 ImageType resultBGR = ImageUtils::IMAGE_TYPE_NOIMAGE;
 float gTRS[11]; // 9 elements of the transformation, 1 for frame-number, 1 for alignment error code.
 // Variables to keep track of the mosaic computation progress for both LR & HR.
 float gProgress[NR];
 // Variables to be able to cancel the mosaic computation when the GUI says so.
 bool gCancelComputation[NR];

 int c;
 int width=0, height=0;
 int mosaicWidth=0, mosaicHeight=0;

 //int blendingType = Blend::BLEND_TYPE_FULL;
 //int blendingType = Blend::BLEND_TYPE_CYLPAN;
 int blendingType = Blend::BLEND_TYPE_HORZ;
 int stripType = Blend::STRIP_TYPE_THIN;
 bool high_res = false;
 bool quarter_res[NR] = {false,false};
 float thresh_still[NR] = {5.0f,0.0f};

 /* return current time in milliseconds*/

 #ifndef now_ms
 static double
 now_ms(void)
 {
     //struct timespec res;
     struct timeval res;
     //clock_gettime(CLOCK_REALTIME, &res);
     gettimeofday(&res, NULL);
     return 1000.0*res.tv_sec + (double)res.tv_usec/1e3;
 }
 #endif


 static int frame_number_HR = 0;
 static int frame_number_LR = 0;

 int Init(int mID, int nmax)
 {
         double  t0, t1, time_c;

         if(mosaic[mID]!=NULL)
         {
                 delete mosaic[mID];
                 mosaic[mID] = NULL;
         }

         mosaic[mID] = new Mosaic();

         t0 = now_ms();

         // When processing higher than 720x480 video, process low-res at
         // quarter resolution
         if(tWidth[LR]>180)
             quarter_res[LR] = true;


         // Check for initialization and if not, initialize
         if (!mosaic[mID]->isInitialized())
         {
                 mosaic[mID]->initialize(blendingType, stripType, tWidth[mID], tHeight[mID],
                         nmax, quarter_res[mID], thresh_still[mID]);
         }

         t1 = now_ms();
         time_c = t1 - t0;
         LOGV("Init[%d]: %g ms [%d frames]",mID,time_c,nmax);
         return 1;
 }

 void GenerateQuarterResImagePlanar(ImageType im, int input_w, int input_h,
         ImageType &out)
 {
     ImageType imp;
     ImageType outp;

     int count = 0;

     for (int j = 0; j < input_h; j += H2L_FACTOR)
     {
         imp = im + j * input_w;
         outp = out + (j / H2L_FACTOR) * (input_w / H2L_FACTOR);

         for (int i = 0; i < input_w; i += H2L_FACTOR)
         {
             *outp++ = *(imp + i);
             count++;
         }
     }

     for (int j = input_h; j < 2 * input_h; j += H2L_FACTOR)
     {
         imp = im + j * input_w;
         outp = out + (j / H2L_FACTOR) * (input_w / H2L_FACTOR);

         for (int i = 0; i < input_w; i += H2L_FACTOR)
         {
             *outp++ = *(imp + i);
             count++;
         }
     }

     for (int j = 2 * input_h; j < 3 * input_h; j += H2L_FACTOR)
     {
         imp = im + j * input_w;
         outp = out + (j / H2L_FACTOR) * (input_w / H2L_FACTOR);

         for (int i = 0; i < input_w; i += H2L_FACTOR)
         {
             *outp++ = *(imp + i);
             count++;
         }
     }
 }

 int AddFrame(int mID, int k, float* trs1d)
 {
     double  t0, t1, time_c;
     double trs[3][3];

     int ret_code = mosaic[mID]->addFrame(tImage[mID][k]);

     mosaic[mID]->getAligner()->getLastTRS(trs);

     if(trs1d!=NULL)
     {

         trs1d[0] = trs[0][0];
         trs1d[1] = trs[0][1];
         trs1d[2] = trs[0][2];
         trs1d[3] = trs[1][0];
         trs1d[4] = trs[1][1];
         trs1d[5] = trs[1][2];
         trs1d[6] = trs[2][0];
         trs1d[7] = trs[2][1];
         trs1d[8] = trs[2][2];
     }

     return ret_code;
 }

 int Finalize(int mID)
 {
     double  t0, t1, time_c;

     t0 = now_ms();
     // Create the mosaic
     int ret = mosaic[mID]->createMosaic(gProgress[mID], gCancelComputation[mID]);
     t1 = now_ms();
     time_c = t1 - t0;
     LOGV("CreateMosaic: %g ms",time_c);

     // Get back the result
     resultYVU = mosaic[mID]->getMosaic(mosaicWidth, mosaicHeight);

     return ret;
 }

 void YUV420toYVU24(ImageType yvu24, ImageType yuv420sp, int width, int height)
 {
     int frameSize = width * height;

     ImageType oyp = yvu24;
     ImageType ovp = yvu24+frameSize;
     ImageType oup = yvu24+frameSize+frameSize;

     for (int j = 0, yp = 0; j < height; j++)
     {
         unsigned char u = 0, v = 0;
         int uvp = frameSize + (j >> 1) * width;
         for (int i = 0; i < width; i++, yp++)
         {
             *oyp++ = yuv420sp[yp];
             //int y = (0xff & (int)yuv420sp[yp]) -16;
             //yvu24p[yp] = (y<0)?0:y;

             if ((i & 1) == 0)
             {
                 v = yuv420sp[uvp++];
                 u = yuv420sp[uvp++];
             }

             *ovp++ = v;
             *oup++ = u;
         }
     }
 }

 void YUV420toYVU24_NEW(ImageType yvu24, ImageType yuv420sp, int width,
         int height)
 {
     int frameSize = width * height;

     ImageType oyp = yvu24;
     ImageType ovp = yvu24 + frameSize;
     ImageType oup = yvu24 + frameSize + frameSize;

     memcpy(yvu24, yuv420sp, frameSize * sizeof(unsigned char));

     for (int j = 0; j < height; j += 2)
     {
         unsigned char u = 0, v = 0;
         int uvp = frameSize + (j >> 1) * width;
         ovp = yvu24 + frameSize + j * width;
         oup = ovp + frameSize;

         ImageType iuvp = yuv420sp + uvp;

         for (int i = 0; i < width; i += 2)
         {
             v = *iuvp++;
             u = *iuvp++;

             *ovp++ = v;
             *oup++ = u;

             *ovp++ = v;
             *oup++ = u;

         }
         memcpy(ovp, ovp - width, width * sizeof(unsigned char));
         memcpy(oup, oup - width, width * sizeof(unsigned char));
     }
 }


 JNIEXPORT void JNICALL Java_com_android_camera_Mosaic_allocateMosaicMemory(
         JNIEnv* env, jobject thiz, jint width, jint height)
 {
     tWidth[HR] = width;
     tHeight[HR] = height;
     tWidth[LR] = int(width / H2L_FACTOR);
     tHeight[LR] = int(height / H2L_FACTOR);

     for(int i=0; i<MAX_FRAMES; i++)
     {
             tImage[LR][i] = ImageUtils::allocateImage(tWidth[LR], tHeight[LR],
                     ImageUtils::IMAGE_TYPE_NUM_CHANNELS);
             tImage[HR][i] = ImageUtils::allocateImage(tWidth[HR], tHeight[HR],
                     ImageUtils::IMAGE_TYPE_NUM_CHANNELS);
     }

     AllocateTextureMemory(tWidth[HR], tHeight[HR], tWidth[LR], tHeight[LR]);
 }

 JNIEXPORT void JNICALL Java_com_android_camera_Mosaic_freeMosaicMemory(
         JNIEnv* env, jobject thiz)
 {
     for(int i = 0; i < MAX_FRAMES; i++)
     {
         ImageUtils::freeImage(tImage[LR][i]);
         ImageUtils::freeImage(tImage[HR][i]);
     }

     FreeTextureMemory();
 }


 void decodeYUV444SP(unsigned char* rgb, unsigned char* yuv420sp, int width,
         int height)
 {
     int frameSize = width * height;

     for (int j = 0, yp = 0; j < height; j++)
     {
         int vp = frameSize + j * width, u = 0, v = 0;
         int up = vp + frameSize;

         for (int i = 0; i < width; i++, yp++, vp++, up++)
         {
             int y = (0xff & ((int) yuv420sp[yp])) - 16;
             if (y < 0) y = 0;

             v = (0xff & yuv420sp[vp]) - 128;
             u = (0xff & yuv420sp[up]) - 128;

             int y1192 = 1192 * y;
             int r = (y1192 + 1634 * v);
             int g = (y1192 - 833 * v - 400 * u);
             int b = (y1192 + 2066 * u);

             if (r < 0) r = 0; else if (r > 262143) r = 262143;
             if (g < 0) g = 0; else if (g > 262143) g = 262143;
             if (b < 0) b = 0; else if (b > 262143) b = 262143;

             //rgb[yp] = 0xff000000 | ((r << 6) & 0xff0000) | ((g >> 2) & 0xff00) | ((b >> 10) & 0xff);
             int p = j*width*3+i*3;
             rgb[p+0] = (r<<6 & 0xFF0000)>>16;
             rgb[p+1] = (g>>2 & 0xFF00)>>8;
             rgb[p+2] =  b>>10 & 0xFF;
         }
     }
 }

 static int count = 0;

 void ConvertYVUAiToPlanarYVU(unsigned char *planar, unsigned char *in, int width,
         int height)
 {
     int planeSize = width * height;
     unsigned char* Yptr = planar;
     unsigned char* Vptr = planar + planeSize;
     unsigned char* Uptr = Vptr + planeSize;

     for (int i = 0; i < planeSize; i++)
     {
         *Yptr++ = *in++;
         *Vptr++ = *in++;
         *Uptr++ = *in++;
         in++;   // Alpha
     }
 }

 JNIEXPORT jfloatArray JNICALL Java_com_android_camera_Mosaic_setSourceImageFromGPU(
         JNIEnv* env, jobject thiz)
 {
     double  t0, t1, time_c;
     t0 = now_ms();
     int ret_code;

     if(frame_number_HR<MAX_FRAMES && frame_number_LR<MAX_FRAMES)
     {
         double last_tx = mTx;

         sem_wait(&gPreviewImage_semaphore);
         ConvertYVUAiToPlanarYVU(tImage[LR][frame_number_LR], gPreviewImage[LR],
                 tWidth[LR], tHeight[LR]);

         sem_post(&gPreviewImage_semaphore);

         ret_code = AddFrame(LR, frame_number_LR, gTRS);

         if(ret_code == Mosaic::MOSAIC_RET_OK || ret_code == Mosaic::MOSAIC_RET_FEW_INLIERS)
         {
             // Copy into HR buffer only if this is a valid frame
             sem_wait(&gPreviewImage_semaphore);
             ConvertYVUAiToPlanarYVU(tImage[HR][frame_number_HR], gPreviewImage[HR],
                     tWidth[HR], tHeight[HR]);
             sem_post(&gPreviewImage_semaphore);

             frame_number_LR++;
             frame_number_HR++;
         }
     }
     else
     {
         gTRS[1] = gTRS[2] = gTRS[3] = gTRS[5] = gTRS[6] = gTRS[7] = 0.0f;
         gTRS[0] = gTRS[4] = gTRS[8] = 1.0f;
     }

     UpdateWarpTransformation(gTRS);

     gTRS[9] = frame_number_HR;
     gTRS[10] = ret_code;

     jfloatArray bytes = env->NewFloatArray(11);
     if(bytes != 0)
     {
         env->SetFloatArrayRegion(bytes, 0, 11, (jfloat*) gTRS);
     }
     return bytes;
 }


 JNIEXPORT jfloatArray JNICALL Java_com_android_camera_Mosaic_setSourceImage(
         JNIEnv* env, jobject thiz, jbyteArray photo_data)
 {
     double  t0, t1, time_c;
     t0 = now_ms();

     int ret_code;

     if(frame_number_HR<MAX_FRAMES && frame_number_LR<MAX_FRAMES)
     {
         jbyte *pixels = env->GetByteArrayElements(photo_data, 0);

         YUV420toYVU24_NEW(tImage[HR][frame_number_HR], (ImageType)pixels,
                 tWidth[HR], tHeight[HR]);

         env->ReleaseByteArrayElements(photo_data, pixels, 0);

         double last_tx = mTx;

         t0 = now_ms();
         GenerateQuarterResImagePlanar(tImage[HR][frame_number_HR], tWidth[HR],
                 tHeight[HR], tImage[LR][frame_number_LR]);


         sem_wait(&gPreviewImage_semaphore);
         decodeYUV444SP(gPreviewImage[LR], tImage[LR][frame_number_LR],
                 gPreviewImageWidth[LR], gPreviewImageHeight[LR]);
         sem_post(&gPreviewImage_semaphore);

         ret_code = AddFrame(LR, frame_number_LR, gTRS);

         if(ret_code == Mosaic::MOSAIC_RET_OK || ret_code == Mosaic::MOSAIC_RET_FEW_INLIERS)
         {
             frame_number_LR++;
             frame_number_HR++;
         }

     }
     else
     {
         gTRS[1] = gTRS[2] = gTRS[3] = gTRS[5] = gTRS[6] = gTRS[7] = 0.0f;
         gTRS[0] = gTRS[4] = gTRS[8] = 1.0f;
     }

     UpdateWarpTransformation(gTRS);

     gTRS[9] = frame_number_HR;
     gTRS[10] = ret_code;

     jfloatArray bytes = env->NewFloatArray(11);
     if(bytes != 0)
     {
         env->SetFloatArrayRegion(bytes, 0, 11, (jfloat*) gTRS);
     }
     return bytes;
 }

 JNIEXPORT void JNICALL Java_com_android_camera_Mosaic_setBlendingType(
         JNIEnv* env, jobject thiz, jint type)
 {
     blendingType = int(type);
 }

 JNIEXPORT void JNICALL Java_com_android_camera_Mosaic_setStripType(
         JNIEnv* env, jobject thiz, jint type)
 {
     stripType = int(type);
 }

 JNIEXPORT void JNICALL Java_com_android_camera_Mosaic_reset(
         JNIEnv* env, jobject thiz)
 {
     frame_number_HR = 0;
     frame_number_LR = 0;

     gProgress[LR] = 0.0;
     gProgress[HR] = 0.0;

     gCancelComputation[LR] = false;
     gCancelComputation[HR] = false;

     Init(LR,MAX_FRAMES);
 }

 JNIEXPORT jint JNICALL Java_com_android_camera_Mosaic_reportProgress(
         JNIEnv* env, jobject thiz, jboolean hires, jboolean cancel_computation)
 {
     if(bool(hires))
         gCancelComputation[HR] = cancel_computation;
     else
         gCancelComputation[LR] = cancel_computation;

     if(bool(hires))
         return (jint) gProgress[HR];
     else
         return (jint) gProgress[LR];
 }

 JNIEXPORT jint JNICALL Java_com_android_camera_Mosaic_createMosaic(
         JNIEnv* env, jobject thiz, jboolean value)
 {
     high_res = bool(value);

     int ret;

     if(high_res)
     {
         LOGV("createMosaic() - High-Res Mode");
         double  t0, t1, time_c;

         gProgress[HR] = 0.0;
         t0 = now_ms();

         Init(HR, frame_number_HR);

         for(int k = 0; k < frame_number_HR; k++)
         {
             if (gCancelComputation[HR])
                 break;
             AddFrame(HR, k, NULL);
             gProgress[HR] += TIME_PERCENT_ALIGN/frame_number_HR;
         }

         if (gCancelComputation[HR])
         {
             ret = Mosaic::MOSAIC_RET_CANCELLED;
         }
         else
         {
             gProgress[HR] = TIME_PERCENT_ALIGN;

             t1 = now_ms();
             time_c = t1 - t0;
             LOGV("AlignAll - %d frames [HR]: %g ms", frame_number_HR, time_c);

             ret = Finalize(HR);

             gProgress[HR] = 100.0;
         }

         high_res = false;
     }
     else
     {
         LOGV("createMosaic() - Low-Res Mode");
         gProgress[LR] = TIME_PERCENT_ALIGN;

         ret = Finalize(LR);

         gProgress[LR] = 100.0;
     }

     return (jint) ret;
 }

 JNIEXPORT jintArray JNICALL Java_com_android_camera_Mosaic_getFinalMosaic(
         JNIEnv* env, jobject thiz)
 {
     int y,x;
     int width = mosaicWidth;
     int height = mosaicHeight;
     int imageSize = width * height;

     // Convert back to RGB24
     resultBGR = ImageUtils::allocateImage(mosaicWidth, mosaicHeight,
             ImageUtils::IMAGE_TYPE_NUM_CHANNELS);
     ImageUtils::yvu2bgr(resultBGR, resultYVU, mosaicWidth, mosaicHeight);

     LOGV("MosBytes: %d, W = %d, H = %d", imageSize, width, height);

     int* image = new int[imageSize];
     int* dims = new int[2];

     for(y=0; y<height; y++)
     {
         for(x=0; x<width; x++)
         {
             image[y*width+x] = (0xFF<<24) | (resultBGR[y*width*3+x*3+2]<<16)|
                     (resultBGR[y*width*3+x*3+1]<<8)| (resultBGR[y*width*3+x*3]);
         }
     }

     dims[0] = width;
     dims[1] = height;

     ImageUtils::freeImage(resultBGR);

     jintArray bytes = env->NewIntArray(imageSize+2);
     if (bytes == 0) {
         LOGE("Error in creating the image.");
         delete[] image;
         return 0;
     }
     env->SetIntArrayRegion(bytes, 0, imageSize, (jint*) image);
     env->SetIntArrayRegion(bytes, imageSize, 2, (jint*) dims);
     delete[] image;
     delete[] dims;
     return bytes;
 }

 JNIEXPORT jbyteArray JNICALL Java_com_android_camera_Mosaic_getFinalMosaicNV21(
         JNIEnv* env, jobject thiz)
 {
     int y,x;
     int width;
     int height;

     width = mosaicWidth;
     height = mosaicHeight;

     int imageSize = 1.5*width * height;

     // Convert YVU to NV21 format in-place
     ImageType V = resultYVU+mosaicWidth*mosaicHeight;
     ImageType U = V+mosaicWidth*mosaicHeight;
     for(int j=0; j<mosaicHeight/2; j++)
     {
         for(int i=0; i<mosaicWidth; i+=2)
         {
             V[j*mosaicWidth+i] = V[(2*j)*mosaicWidth+i];        // V
             V[j*mosaicWidth+i+1] = U[(2*j)*mosaicWidth+i];        // U
         }
     }

     LOGV("MosBytes: %d, W = %d, H = %d", imageSize, width, height);

     unsigned char* dims = new unsigned char[8];

     dims[0] = (unsigned char)(width >> 24);
     dims[1] = (unsigned char)(width >> 16);
     dims[2] = (unsigned char)(width >> 8);
     dims[3] = (unsigned char)width;

     dims[4] = (unsigned char)(height >> 24);
     dims[5] = (unsigned char)(height >> 16);
     dims[6] = (unsigned char)(height >> 8);
     dims[7] = (unsigned char)height;

     jbyteArray bytes = env->NewByteArray(imageSize+8);
     if (bytes == 0) {
         LOGE("Error in creating the image.");
         ImageUtils::freeImage(resultYVU);
         return 0;
     }
     env->SetByteArrayRegion(bytes, 0, imageSize, (jbyte*) resultYVU);
     env->SetByteArrayRegion(bytes, imageSize, 8, (jbyte*) dims);
     delete[] dims;
     ImageUtils::freeImage(resultYVU);
     return bytes;
 }

 #ifdef __cplusplus
 }
 #endif
	/*
	* 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.
	*/

	/*
	*
	*/
	#include <string.h>
	#include <jni.h>
	#include <stdio.h>
	#include <stdlib.h>
	#include <time.h>
	#include <db_utilities_camera.h>

	#include "mosaic/AlignFeatures.h"
	#include "mosaic/Blend.h"
	#include "mosaic/Mosaic.h"
	#include "mosaic/Log.h"
	#define LOG_TAG "FEATURE_MOS_JNI"

	#ifdef __cplusplus
	extern "C" {
	#endif

	#include "mosaic_renderer_jni.h"

	char buffer[1024];

	const int MAX_FRAMES = 100;

	static double mTx;

	int tWidth[NR];
	int tHeight[NR];

	ImageType tImage[NR][MAX_FRAMES];// = {{ImageUtils::IMAGE_TYPE_NOIMAGE}}; // YVU24 format image
	Mosaic *mosaic[NR] = {NULL,NULL};
	ImageType resultYVU = ImageUtils::IMAGE_TYPE_NOIMAGE;
	ImageType resultBGR = ImageUtils::IMAGE_TYPE_NOIMAGE;
	float gTRS[11]; // 9 elements of the transformation, 1 for frame-number, 1 for alignment error code.
	// Variables to keep track of the mosaic computation progress for both LR & HR.
	float gProgress[NR];
	// Variables to be able to cancel the mosaic computation when the GUI says so.
	bool gCancelComputation[NR];

	int c;
	int width=0, height=0;
	int mosaicWidth=0, mosaicHeight=0;

	//int blendingType = Blend::BLEND_TYPE_FULL;
	//int blendingType = Blend::BLEND_TYPE_CYLPAN;
	int blendingType = Blend::BLEND_TYPE_HORZ;
	int stripType = Blend::STRIP_TYPE_THIN;
	bool high_res = false;
	bool quarter_res[NR] = {false,false};
	float thresh_still[NR] = {5.0f,0.0f};

	/* return current time in milliseconds*/

	#ifndef now_ms
	static double
	now_ms(void)
	{
	//struct timespec res;
	struct timeval res;
	//clock_gettime(CLOCK_REALTIME, &res);
	gettimeofday(&res, NULL);
	return 1000.0*res.tv_sec + (double)res.tv_usec/1e3;
	}
	#endif


	static int frame_number_HR = 0;
	static int frame_number_LR = 0;

	int Init(int mID, int nmax)
	{
	double t0, t1, time_c;

	if(mosaic[mID]!=NULL)
	{
	delete mosaic[mID];
	mosaic[mID] = NULL;
	}

	mosaic[mID] = new Mosaic();

	t0 = now_ms();

	// When processing higher than 720x480 video, process low-res at
	// quarter resolution
	if(tWidth[LR]>180)
	quarter_res[LR] = true;


	// Check for initialization and if not, initialize
	if (!mosaic[mID]->isInitialized())
	{
	mosaic[mID]->initialize(blendingType, stripType, tWidth[mID], tHeight[mID],
	nmax, quarter_res[mID], thresh_still[mID]);
	}

	t1 = now_ms();
	time_c = t1 - t0;
	LOGV("Init[%d]: %g ms [%d frames]",mID,time_c,nmax);
	return 1;
	}

	void GenerateQuarterResImagePlanar(ImageType im, int input_w, int input_h,
	ImageType &out)
	{
	ImageType imp;
	ImageType outp;

	int count = 0;

	for (int j = 0; j < input_h; j += H2L_FACTOR)
	{
	imp = im + j * input_w;
	outp = out + (j / H2L_FACTOR) * (input_w / H2L_FACTOR);

	for (int i = 0; i < input_w; i += H2L_FACTOR)
	{
	outp++ = (imp + i);
	count++;
	}
	}

	for (int j = input_h; j < 2 * input_h; j += H2L_FACTOR)
	{
	imp = im + j * input_w;
	outp = out + (j / H2L_FACTOR) * (input_w / H2L_FACTOR);

	for (int i = 0; i < input_w; i += H2L_FACTOR)
	{
	outp++ = (imp + i);
	count++;
	}
	}

	for (int j = 2 * input_h; j < 3 * input_h; j += H2L_FACTOR)
	{
	imp = im + j * input_w;
	outp = out + (j / H2L_FACTOR) * (input_w / H2L_FACTOR);

	for (int i = 0; i < input_w; i += H2L_FACTOR)
	{
	outp++ = (imp + i);
	count++;
	}
	}
	}

	int AddFrame(int mID, int k, float* trs1d)
	{
	double t0, t1, time_c;
	double trs[3][3];

	int ret_code = mosaic[mID]->addFrame(tImage[mID][k]);

	mosaic[mID]->getAligner()->getLastTRS(trs);

	if(trs1d!=NULL)
	{

	trs1d[0] = trs[0][0];
	trs1d[1] = trs[0][1];
	trs1d[2] = trs[0][2];
	trs1d[3] = trs[1][0];
	trs1d[4] = trs[1][1];
	trs1d[5] = trs[1][2];
	trs1d[6] = trs[2][0];
	trs1d[7] = trs[2][1];
	trs1d[8] = trs[2][2];
	}

	return ret_code;
	}

	int Finalize(int mID)
	{
	double t0, t1, time_c;

	t0 = now_ms();
	// Create the mosaic
	int ret = mosaic[mID]->createMosaic(gProgress[mID], gCancelComputation[mID]);
	t1 = now_ms();
	time_c = t1 - t0;
	LOGV("CreateMosaic: %g ms",time_c);

	// Get back the result
	resultYVU = mosaic[mID]->getMosaic(mosaicWidth, mosaicHeight);

	return ret;
	}

	void YUV420toYVU24(ImageType yvu24, ImageType yuv420sp, int width, int height)
	{
	int frameSize = width * height;

	ImageType oyp = yvu24;
	ImageType ovp = yvu24+frameSize;
	ImageType oup = yvu24+frameSize+frameSize;

	for (int j = 0, yp = 0; j < height; j++)
	{
	unsigned char u = 0, v = 0;
	int uvp = frameSize + (j >> 1) * width;
	for (int i = 0; i < width; i++, yp++)
	{
	*oyp++ = yuv420sp[yp];
	//int y = (0xff & (int)yuv420sp[yp]) -16;
	//yvu24p[yp] = (y<0)?0:y;

	if ((i & 1) == 0)
	{
	v = yuv420sp[uvp++];
	u = yuv420sp[uvp++];
	}

	*ovp++ = v;
	*oup++ = u;
	}
	}
	}

	void YUV420toYVU24_NEW(ImageType yvu24, ImageType yuv420sp, int width,
	int height)
	{
	int frameSize = width * height;

	ImageType oyp = yvu24;
	ImageType ovp = yvu24 + frameSize;
	ImageType oup = yvu24 + frameSize + frameSize;

	memcpy(yvu24, yuv420sp, frameSize * sizeof(unsigned char));

	for (int j = 0; j < height; j += 2)
	{
	unsigned char u = 0, v = 0;
	int uvp = frameSize + (j >> 1) * width;
	ovp = yvu24 + frameSize + j * width;
	oup = ovp + frameSize;

	ImageType iuvp = yuv420sp + uvp;

	for (int i = 0; i < width; i += 2)
	{
	v = *iuvp++;
	u = *iuvp++;

	*ovp++ = v;
	*oup++ = u;

	*ovp++ = v;
	*oup++ = u;

	}
	memcpy(ovp, ovp - width, width * sizeof(unsigned char));
	memcpy(oup, oup - width, width * sizeof(unsigned char));
	}
	}


	JNIEXPORT void JNICALL Java_com_android_camera_Mosaic_allocateMosaicMemory(
	JNIEnv* env, jobject thiz, jint width, jint height)
	{
	tWidth[HR] = width;
	tHeight[HR] = height;
	tWidth[LR] = int(width / H2L_FACTOR);
	tHeight[LR] = int(height / H2L_FACTOR);

	for(int i=0; i<MAX_FRAMES; i++)
	{
	tImage[LR][i] = ImageUtils::allocateImage(tWidth[LR], tHeight[LR],
	ImageUtils::IMAGE_TYPE_NUM_CHANNELS);
	tImage[HR][i] = ImageUtils::allocateImage(tWidth[HR], tHeight[HR],
	ImageUtils::IMAGE_TYPE_NUM_CHANNELS);
	}

	AllocateTextureMemory(tWidth[HR], tHeight[HR], tWidth[LR], tHeight[LR]);
	}

	JNIEXPORT void JNICALL Java_com_android_camera_Mosaic_freeMosaicMemory(
	JNIEnv* env, jobject thiz)
	{
	for(int i = 0; i < MAX_FRAMES; i++)
	{
	ImageUtils::freeImage(tImage[LR][i]);
	ImageUtils::freeImage(tImage[HR][i]);
	}

	FreeTextureMemory();
	}


	void decodeYUV444SP(unsigned char* rgb, unsigned char* yuv420sp, int width,
	int height)
	{
	int frameSize = width * height;

	for (int j = 0, yp = 0; j < height; j++)
	{
	int vp = frameSize + j * width, u = 0, v = 0;
	int up = vp + frameSize;

	for (int i = 0; i < width; i++, yp++, vp++, up++)
	{
	int y = (0xff & ((int) yuv420sp[yp])) - 16;
	if (y < 0) y = 0;

	v = (0xff & yuv420sp[vp]) - 128;
	u = (0xff & yuv420sp[up]) - 128;

	int y1192 = 1192 * y;
	int r = (y1192 + 1634 * v);
	int g = (y1192 - 833 * v - 400 * u);
	int b = (y1192 + 2066 * u);

	if (r < 0) r = 0; else if (r > 262143) r = 262143;
	if (g < 0) g = 0; else if (g > 262143) g = 262143;
	if (b < 0) b = 0; else if (b > 262143) b = 262143;

	//rgb[yp] = 0xff000000 \| ((r << 6) & 0xff0000) \| ((g >> 2) & 0xff00) \| ((b >> 10) & 0xff);
	int p = jwidth3+i*3;
	rgb[p+0] = (r<<6 & 0xFF0000)>>16;
	rgb[p+1] = (g>>2 & 0xFF00)>>8;
	rgb[p+2] = b>>10 & 0xFF;
	}
	}
	}

	static int count = 0;

	void ConvertYVUAiToPlanarYVU(unsigned char planar, unsigned char in, int width,
	int height)
	{
	int planeSize = width * height;
	unsigned char* Yptr = planar;
	unsigned char* Vptr = planar + planeSize;
	unsigned char* Uptr = Vptr + planeSize;

	for (int i = 0; i < planeSize; i++)
	{
	Yptr++ = in++;
	Vptr++ = in++;
	Uptr++ = in++;
	in++; // Alpha
	}
	}

	JNIEXPORT jfloatArray JNICALL Java_com_android_camera_Mosaic_setSourceImageFromGPU(
	JNIEnv* env, jobject thiz)
	{
	double t0, t1, time_c;
	t0 = now_ms();
	int ret_code;

	if(frame_number_HR<MAX_FRAMES && frame_number_LR<MAX_FRAMES)
	{
	double last_tx = mTx;

	sem_wait(&gPreviewImage_semaphore);
	ConvertYVUAiToPlanarYVU(tImage[LR][frame_number_LR], gPreviewImage[LR],
	tWidth[LR], tHeight[LR]);

	sem_post(&gPreviewImage_semaphore);

	ret_code = AddFrame(LR, frame_number_LR, gTRS);

	if(ret_code == Mosaic::MOSAIC_RET_OK \|\| ret_code == Mosaic::MOSAIC_RET_FEW_INLIERS)
	{
	// Copy into HR buffer only if this is a valid frame
	sem_wait(&gPreviewImage_semaphore);
	ConvertYVUAiToPlanarYVU(tImage[HR][frame_number_HR], gPreviewImage[HR],
	tWidth[HR], tHeight[HR]);
	sem_post(&gPreviewImage_semaphore);

	frame_number_LR++;
	frame_number_HR++;
	}
	}
	else
	{
	gTRS[1] = gTRS[2] = gTRS[3] = gTRS[5] = gTRS[6] = gTRS[7] = 0.0f;
	gTRS[0] = gTRS[4] = gTRS[8] = 1.0f;
	}

	UpdateWarpTransformation(gTRS);

	gTRS[9] = frame_number_HR;
	gTRS[10] = ret_code;

	jfloatArray bytes = env->NewFloatArray(11);
	if(bytes != 0)
	{
	env->SetFloatArrayRegion(bytes, 0, 11, (jfloat*) gTRS);
	}
	return bytes;
	}



	JNIEXPORT jfloatArray JNICALL Java_com_android_camera_Mosaic_setSourceImage(
	JNIEnv* env, jobject thiz, jbyteArray photo_data)
	{
	double t0, t1, time_c;
	t0 = now_ms();

	int ret_code;

	if(frame_number_HR<MAX_FRAMES && frame_number_LR<MAX_FRAMES)
	{
	jbyte *pixels = env->GetByteArrayElements(photo_data, 0);

	YUV420toYVU24_NEW(tImage[HR][frame_number_HR], (ImageType)pixels,
	tWidth[HR], tHeight[HR]);

	env->ReleaseByteArrayElements(photo_data, pixels, 0);

	double last_tx = mTx;

	t0 = now_ms();
	GenerateQuarterResImagePlanar(tImage[HR][frame_number_HR], tWidth[HR],
	tHeight[HR], tImage[LR][frame_number_LR]);


	sem_wait(&gPreviewImage_semaphore);
	decodeYUV444SP(gPreviewImage[LR], tImage[LR][frame_number_LR],
	gPreviewImageWidth[LR], gPreviewImageHeight[LR]);
	sem_post(&gPreviewImage_semaphore);

	ret_code = AddFrame(LR, frame_number_LR, gTRS);

	if(ret_code == Mosaic::MOSAIC_RET_OK \|\| ret_code == Mosaic::MOSAIC_RET_FEW_INLIERS)
	{
	frame_number_LR++;
	frame_number_HR++;
	}

	}
	else
	{
	gTRS[1] = gTRS[2] = gTRS[3] = gTRS[5] = gTRS[6] = gTRS[7] = 0.0f;
	gTRS[0] = gTRS[4] = gTRS[8] = 1.0f;
	}

	UpdateWarpTransformation(gTRS);

	gTRS[9] = frame_number_HR;
	gTRS[10] = ret_code;

	jfloatArray bytes = env->NewFloatArray(11);
	if(bytes != 0)
	{
	env->SetFloatArrayRegion(bytes, 0, 11, (jfloat*) gTRS);
	}
	return bytes;
	}

	JNIEXPORT void JNICALL Java_com_android_camera_Mosaic_setBlendingType(
	JNIEnv* env, jobject thiz, jint type)
	{
	blendingType = int(type);
	}

	JNIEXPORT void JNICALL Java_com_android_camera_Mosaic_setStripType(
	JNIEnv* env, jobject thiz, jint type)
	{
	stripType = int(type);
	}

	JNIEXPORT void JNICALL Java_com_android_camera_Mosaic_reset(
	JNIEnv* env, jobject thiz)
	{
	frame_number_HR = 0;
	frame_number_LR = 0;

	gProgress[LR] = 0.0;
	gProgress[HR] = 0.0;

	gCancelComputation[LR] = false;
	gCancelComputation[HR] = false;

	Init(LR,MAX_FRAMES);
	}

	JNIEXPORT jint JNICALL Java_com_android_camera_Mosaic_reportProgress(
	JNIEnv* env, jobject thiz, jboolean hires, jboolean cancel_computation)
	{
	if(bool(hires))
	gCancelComputation[HR] = cancel_computation;
	else
	gCancelComputation[LR] = cancel_computation;

	if(bool(hires))
	return (jint) gProgress[HR];
	else
	return (jint) gProgress[LR];
	}

	JNIEXPORT jint JNICALL Java_com_android_camera_Mosaic_createMosaic(
	JNIEnv* env, jobject thiz, jboolean value)
	{
	high_res = bool(value);

	int ret;

	if(high_res)
	{
	LOGV("createMosaic() - High-Res Mode");
	double t0, t1, time_c;

	gProgress[HR] = 0.0;
	t0 = now_ms();

	Init(HR, frame_number_HR);

	for(int k = 0; k < frame_number_HR; k++)
	{
	if (gCancelComputation[HR])
	break;
	AddFrame(HR, k, NULL);
	gProgress[HR] += TIME_PERCENT_ALIGN/frame_number_HR;
	}

	if (gCancelComputation[HR])
	{
	ret = Mosaic::MOSAIC_RET_CANCELLED;
	}
	else
	{
	gProgress[HR] = TIME_PERCENT_ALIGN;

	t1 = now_ms();
	time_c = t1 - t0;
	LOGV("AlignAll - %d frames [HR]: %g ms", frame_number_HR, time_c);

	ret = Finalize(HR);

	gProgress[HR] = 100.0;
	}

	high_res = false;
	}
	else
	{
	LOGV("createMosaic() - Low-Res Mode");
	gProgress[LR] = TIME_PERCENT_ALIGN;

	ret = Finalize(LR);

	gProgress[LR] = 100.0;
	}

	return (jint) ret;
	}

	JNIEXPORT jintArray JNICALL Java_com_android_camera_Mosaic_getFinalMosaic(
	JNIEnv* env, jobject thiz)
	{
	int y,x;
	int width = mosaicWidth;
	int height = mosaicHeight;
	int imageSize = width * height;

	// Convert back to RGB24
	resultBGR = ImageUtils::allocateImage(mosaicWidth, mosaicHeight,
	ImageUtils::IMAGE_TYPE_NUM_CHANNELS);
	ImageUtils::yvu2bgr(resultBGR, resultYVU, mosaicWidth, mosaicHeight);

	LOGV("MosBytes: %d, W = %d, H = %d", imageSize, width, height);

	int* image = new int[imageSize];
	int* dims = new int[2];

	for(y=0; y<height; y++)
	{
	for(x=0; x<width; x++)
	{
	image[ywidth+x] = (0xFF<<24) \| (resultBGR[ywidth3+x3+2]<<16)\|
	(resultBGR[ywidth3+x3+1]<<8)\| (resultBGR[ywidth3+x3]);
	}
	}

	dims[0] = width;
	dims[1] = height;

	ImageUtils::freeImage(resultBGR);

	jintArray bytes = env->NewIntArray(imageSize+2);
	if (bytes == 0) {
	LOGE("Error in creating the image.");
	delete[] image;
	return 0;
	}
	env->SetIntArrayRegion(bytes, 0, imageSize, (jint*) image);
	env->SetIntArrayRegion(bytes, imageSize, 2, (jint*) dims);
	delete[] image;
	delete[] dims;
	return bytes;
	}

	JNIEXPORT jbyteArray JNICALL Java_com_android_camera_Mosaic_getFinalMosaicNV21(
	JNIEnv* env, jobject thiz)
	{
	int y,x;
	int width;
	int height;

	width = mosaicWidth;
	height = mosaicHeight;

	int imageSize = 1.5width height;

	// Convert YVU to NV21 format in-place
	ImageType V = resultYVU+mosaicWidth*mosaicHeight;
	ImageType U = V+mosaicWidth*mosaicHeight;
	for(int j=0; j<mosaicHeight/2; j++)
	{
	for(int i=0; i<mosaicWidth; i+=2)
	{
	V[jmosaicWidth+i] = V[(2j)*mosaicWidth+i]; // V
	V[jmosaicWidth+i+1] = U[(2j)*mosaicWidth+i]; // U
	}
	}

	LOGV("MosBytes: %d, W = %d, H = %d", imageSize, width, height);

	unsigned char* dims = new unsigned char[8];

	dims[0] = (unsigned char)(width >> 24);
	dims[1] = (unsigned char)(width >> 16);
	dims[2] = (unsigned char)(width >> 8);
	dims[3] = (unsigned char)width;

	dims[4] = (unsigned char)(height >> 24);
	dims[5] = (unsigned char)(height >> 16);
	dims[6] = (unsigned char)(height >> 8);
	dims[7] = (unsigned char)height;

	jbyteArray bytes = env->NewByteArray(imageSize+8);
	if (bytes == 0) {
	LOGE("Error in creating the image.");
	ImageUtils::freeImage(resultYVU);
	return 0;
	}
	env->SetByteArrayRegion(bytes, 0, imageSize, (jbyte*) resultYVU);
	env->SetByteArrayRegion(bytes, imageSize, 8, (jbyte*) dims);
	delete[] dims;
	ImageUtils::freeImage(resultYVU);
	return bytes;
	}

	#ifdef __cplusplus
	}
	#endif