tests/test-image-blend.cpp - platform/external/libxcam - Git at Google

 /*
  * test-image-blend.cpp - test cl image
  *
  *  Copyright (c) 2016 Intel Corporation
  *
  * 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.
  *
  * Author: Wind Yuan <feng.yuan@intel.com>
  */

 #include "test_common.h"
 #include "test_inline.h"
 #include <unistd.h>
 #include <getopt.h>
 #include <ocl/cl_device.h>
 #include <ocl/cl_context.h>
 #include <ocl/cl_blender.h>
 #include <image_file_handle.h>
 #include <ocl/cl_geo_map_handler.h>
 #if HAVE_LIBDRM
 #include <drm_display.h>
 #endif
 #include <dma_video_buffer.h>

 using namespace XCam;

 #define ENABLE_DMA_TEST 0

 static uint32_t input_format = V4L2_PIX_FMT_NV12;
 //static uint32_t output_format = V4L2_PIX_FMT_NV12;
 static uint32_t input_width0 = 1280, input_width1 = 1280;
 static uint32_t input_height = 960;
 static uint32_t output_width = 1920;
 static uint32_t output_height;
 static bool need_save_output = true;
 static bool enable_geo = false;
 static bool enable_seam = false;

 static int loop = 0;
 static uint32_t map_width = 51, map_height = 43;
 static const char *map0 = "fisheye0.csv";
 static const char *map1 = "fisheye1.csv";
 static char file_in0_name[XCAM_MAX_STR_SIZE], file_in1_name[XCAM_MAX_STR_SIZE], file_out_name[XCAM_MAX_STR_SIZE];

 static int read_map_data (const char* file, GeoPos *map, int width, int height);

 static void
 usage(const char* arg0)
 {
     printf ("Usage:\n"
             "%s --input0 file --input1 file --output file"
             " [--input-w0 width] [--input-w1 width] [--input-h height] [--output-w width] \n"
             "\t--input0, first image(NV12)\n"
             "\t--input1, second image(NV12)\n"
             "\t--output, output image(NV12) PREFIX\n"
             "\t--input-w0, optional, input width; default:1280\n"
             "\t--input-w1, optional, input width; default:1280\n"
             "\t--input-h,  optional, input height; default:960\n"
             "\t--output-w, optional, output width; default:1920, output height is same as input height.\n"
             "\t--loop,     optional, how many loops need to run for performance test, default 0; \n"
             "\t--save,     optional, save file or not, default true; select from [true/false]\n"
             "\t--enable-geo,  optional, enable geo map image frist. default: no\n"
             "\t--enable-seam, optional, enable seam finder in blending area. default: no\n"
             "\t--help,     usage\n",
             arg0);
 }

 static int
 geo_correct_image (
     SmartPtr<CLGeoMapHandler> geo_map_handler, SmartPtr<VideoBuffer> &in_out,
     GeoPos *geo_map0, uint32_t map_width, uint32_t map_height,
     char *file_name, bool need_save_output)
 {
     XCamReturn ret = XCAM_RETURN_NO_ERROR;
     SmartPtr<VideoBuffer> geo_out;
     geo_map_handler->set_map_data (geo_map0, map_width, map_height);
     ret = geo_map_handler->execute (in_out, geo_out);
     CHECK (ret, "geo map handler execute inpu0 failed");
     XCAM_ASSERT (geo_out.ptr ());
     in_out = geo_out;

     if (need_save_output) {
         char gdc_dump_name[1024];
         snprintf (gdc_dump_name, 1024, "gdc-%s", file_name);
         ImageFileHandle file_out;
         file_out.open (gdc_dump_name, "wb");
         file_out.write_buf (geo_out);
         file_out.close ();
         printf ("write gdc output buffer to: %s done\n", gdc_dump_name);
     }
     return 0;
 }

 #if (ENABLE_DMA_TEST) && (HAVE_LIBDRM)
 static SmartPtr<VideoBuffer>
 dma_buf_to_xcam_buf (
     SmartPtr<DrmDisplay> display, int dma_fd,
     uint32_t width, uint32_t height, uint32_t size,
     uint32_t aligned_width = 0, uint32_t aligned_height = 0)
 {
     /*
      *
      *  XCAM_ASSERT (native_handle_t.numFds == 1);
      *  XCAM_ASSERT (native_handle_t.data[0] > 0);
      * dma_fd = native_handle_t.data[0] ;
      */;
     VideoBufferInfo info;
     SmartPtr<VideoBuffer> dma_buf;
     SmartPtr<VideoBuffer> output;

     XCAM_ASSERT (dma_fd > 0);

     if (aligned_width == 0)
         aligned_width = XCAM_ALIGN_UP(width, 16);
     if (aligned_height == 0)
         aligned_height = XCAM_ALIGN_UP(height, 16);

     info.init (V4L2_PIX_FMT_NV12, width, height, aligned_width, aligned_height, size);
     dma_buf = new DmaVideoBuffer (info, dma_fd);
     output = display->convert_to_drm_bo_buf (display, dma_buf);
     if (!output.ptr ()) {
         XCAM_LOG_ERROR ("dma_buf(%d) convert to xcam_buf failed", dma_fd);
     }

     return output;
 }

 static SmartPtr<VideoBuffer>
 create_dma_buffer (SmartPtr<DrmDisplay> &display, const VideoBufferInfo &info)
 {
     SmartPtr<BufferPool> buf_pool = new DrmBoBufferPool (display);
     buf_pool->set_video_info (info);
     buf_pool->reserve (1);
     return buf_pool->get_buffer (buf_pool);
 }
 #endif

 static XCamReturn
 blend_images (
     SmartPtr<VideoBuffer> input0, SmartPtr<VideoBuffer> input1,
     SmartPtr<VideoBuffer> &output_buf,
     SmartPtr<CLBlender> blender)
 {
     blender->set_output_size (output_width, output_height);
     input0->attach_buffer (input1);
     return blender->execute (input0, output_buf);
 }

 int main (int argc, char *argv[])
 {
     GeoPos *geo_map0 = NULL, *geo_map1 = NULL;
     XCamReturn ret = XCAM_RETURN_NO_ERROR;
     SmartPtr<CLImageHandler> image_handler;
     SmartPtr<CLGeoMapHandler> geo_map_handler;
     SmartPtr<CLBlender> blender;
     VideoBufferInfo input_buf_info0, input_buf_info1, output_buf_info;
     SmartPtr<CLContext> context;
     SmartPtr<BufferPool> buf_pool0, buf_pool1;
     ImageFileHandle file_in0, file_in1, file_out;
     SmartPtr<VideoBuffer> input0, input1;
     SmartPtr<VideoBuffer> output_buf;
     SmartPtr<VideoBuffer> read_buf;

 #define FAILED_GEO_FREE  { delete [] geo_map0; delete [] geo_map1; return -1; }

     const struct option long_opts[] = {
         {"input0", required_argument, NULL, 'i'},
         {"input1", required_argument, NULL, 'I'},
         {"output", required_argument, NULL, 'o'},
         {"input-w0", required_argument, NULL, 'w'},
         {"input-w1", required_argument, NULL, 'W'},
         {"input-h", required_argument, NULL, 'H'},
         {"output-w", required_argument, NULL, 'x'},
         {"loop", required_argument, NULL, 'l'},
         {"save", required_argument, NULL, 's'},
         {"enable-geo", no_argument, NULL, 'g'},
         {"enable-seam", no_argument, NULL, 'm'},
         {"help", no_argument, NULL, 'h'},
         {0, 0, 0, 0},
     };

     int opt = -1;
     while ((opt = getopt_long(argc, argv, "", long_opts, NULL)) != -1) {
         switch (opt) {
         case 'i':
             strncpy (file_in0_name, optarg, XCAM_MAX_STR_SIZE);
             break;
         case 'I':
             strncpy (file_in1_name, optarg, XCAM_MAX_STR_SIZE);
             break;
         case 'o':
             strncpy (file_out_name, optarg, XCAM_MAX_STR_SIZE);
             break;
         case 'w':
             input_width0 = atoi(optarg);
             break;
         case 'W':
             input_width1 = atoi(optarg);
             break;
         case 'H':
             input_height = atoi(optarg);
             break;
         case 'x':
             output_width = atoi(optarg);
             break;
         case 'l':
             loop = atoi(optarg);
             break;
         case 's':
             need_save_output = (strcasecmp (optarg, "false") == 0 ? false : true);
             break;
         case 'g':
             enable_geo = true;
             break;
         case 'm':
             enable_seam = true;
             break;
         case 'h':
             usage (argv[0]);
             return -1;
         default:
             printf ("getopt_long return unknown value:%c\n", opt);
             usage (argv[0]);
             return -1;

         }
     }

     if (optind < argc || argc < 2) {
         printf("unknown option %s\n", argv[optind]);
         usage (argv[0]);
         return -1;
     }

     printf ("Description-----------\n");
     printf ("input0 file:%s\n", file_in0_name);
     printf ("input1 file:%s\n", file_in1_name);
     printf ("output file PREFIX:%s\n", file_out_name);
     printf ("input0 width:%d\n", input_width0);
     printf ("input1 width:%d\n", input_width1);
     printf ("input/output height:%d\n", input_height);
     printf ("output width:%d\n", output_width);
     printf ("loop count:%d\n", loop);
     printf ("need save file:%s\n", need_save_output ? "true" : "false");
     printf ("enable seam mask:%s\n", (enable_seam ? "true" : "false"));
     printf ("----------------------\n");

     output_height = input_height;
     input_buf_info0.init (input_format, input_width0, input_height);
     input_buf_info1.init (input_format, input_width1, input_height);
     output_buf_info.init (input_format, output_width, output_height);
 #if (ENABLE_DMA_TEST) && (HAVE_LIBDRM)
     SmartPtr<DrmDisplay> display = DrmDisplay::instance ();
     buf_pool0 = new DrmBoBufferPool (display);
     buf_pool1 = new DrmBoBufferPool (display);
 #else
     buf_pool0 = new CLVideoBufferPool ();
     buf_pool1 = new CLVideoBufferPool ();
 #endif
     XCAM_ASSERT (buf_pool0.ptr () && buf_pool1.ptr ());
     buf_pool0->set_video_info (input_buf_info0);
     buf_pool1->set_video_info (input_buf_info1);
     if (!buf_pool0->reserve (2)) {
         XCAM_LOG_ERROR ("init buffer pool failed");
         return -1;
     }
     if (!buf_pool1->reserve (2)) {
         XCAM_LOG_ERROR ("init buffer pool failed");
         return -1;
     }

     context = CLDevice::instance ()->get_context ();
     blender = create_pyramid_blender (context, 2, true, enable_seam).dynamic_cast_ptr<CLBlender> ();
     XCAM_ASSERT (blender.ptr ());

 #if (ENABLE_DMA_TEST) && (HAVE_LIBDRM)
     int dma_fd0 = 30, dma_fd1 = 31, dma_fd_out = 32;
     input_buf_info0.init (
         input_format, input_width0, input_height, XCAM_ALIGN_UP (input_width0, 16), XCAM_ALIGN_UP(input_height, 16));
     input_buf_info1.init (
         input_format, input_width1, input_height, XCAM_ALIGN_UP (input_width1, 16), XCAM_ALIGN_UP(input_height, 16));
     output_buf_info.init (
         input_format, output_width, output_height, XCAM_ALIGN_UP (output_width, 16), XCAM_ALIGN_UP(output_height, 16));
     uint32_t in_size = input_buf_info0.aligned_width * input_buf_info0.aligned_height * 3 / 2;
     uint32_t out_size = output_buf_info.aligned_width * output_buf_info.aligned_height * 3 / 2;
     /* create dma fd, for buffer_handle_t just skip this segment, directly goto dma_buf_to_xcam_buf */
     SmartPtr<VideoBuffer> dma_buf0, dma_buf1, dma_buf_out;
     dma_buf0 = create_dma_buffer (display, input_buf_info0); //unit test
     dma_buf1 = create_dma_buffer (display, input_buf_info1); //unit test
     dma_buf_out = create_dma_buffer (display, output_buf_info); //unit test
     dma_fd0 = dma_buf0->get_fd (); //unit test
     dma_fd1 = dma_buf1->get_fd (); //unit test
     dma_fd_out = dma_buf_out->get_fd (); //unit test
     /*
       buffer_handle_t just go to here,
       dma_fd0 = native_handle_t.data[0];
       dma_fd1 = native_handle_t.data[0];
       dma_fd_out = native_handle_t.data[0];
      */
     printf ("DMA handles, buf0:%d, buf1:%d, buf_out:%d\n", dma_fd0, dma_fd1, dma_fd_out);
     input0 = dma_buf_to_xcam_buf (
                  display, dma_fd0, input_width0, input_height, in_size,
                  input_buf_info0.aligned_width, input_buf_info0.aligned_height);
     input1 = dma_buf_to_xcam_buf (
                  display, dma_fd1, input_width0, input_height, in_size,
                  input_buf_info1.aligned_width, input_buf_info1.aligned_height);
     output_buf = dma_buf_to_xcam_buf (
                      display, dma_fd_out, output_width, output_height, out_size,
                      output_buf_info.aligned_width, output_buf_info.aligned_height);
     blender->disable_buf_pool (true);
 #else
     input0 = buf_pool0->get_buffer (buf_pool0);
     input1 = buf_pool1->get_buffer (buf_pool1);
     XCAM_ASSERT (input0.ptr () && input1.ptr ());
 #endif
     //
     ret = file_in0.open (file_in0_name, "rb");
     CHECK_STATEMENT (ret, FAILED_GEO_FREE, "open input file(%s) failed", file_in0_name);
     read_buf = input0;
     ret = file_in0.read_buf (read_buf);
     CHECK_STATEMENT (ret, FAILED_GEO_FREE, "read buffer0 from (%s) failed", file_in0_name);

     ret = file_in1.open (file_in1_name, "rb");
     CHECK_STATEMENT (ret, FAILED_GEO_FREE, "open input file(%s) failed", file_in1_name);
     read_buf = input1;
     ret = file_in1.read_buf (read_buf);
     CHECK_STATEMENT (ret, FAILED_GEO_FREE, "read buffer1 from (%s) failed", file_in1_name);

     if (enable_geo) {
         geo_map_handler = create_geo_map_handler (context).dynamic_cast_ptr<CLGeoMapHandler> ();
         XCAM_ASSERT (geo_map_handler.ptr ());

         geo_map0 = new GeoPos[map_width * map_height];
         geo_map1 = new GeoPos[map_width * map_height];
         XCAM_ASSERT (geo_map0 && geo_map1);
         if (read_map_data (map0, geo_map0, map_width, map_height) <= 0 ||
                 read_map_data (map1, geo_map1, map_width, map_height) <= 0) {
             delete [] geo_map0;
             delete [] geo_map1;
             return -1;
         }

         geo_map_handler->set_map_uint (28.0f, 28.0f);
     }

     int i = 0;
     do {
         input0->clear_attached_buffers ();
         input1->clear_attached_buffers ();

         if (enable_geo) {
             geo_correct_image (geo_map_handler, input0, geo_map0, map_width, map_height, file_in0_name, need_save_output);
             geo_correct_image (geo_map_handler, input1, geo_map1, map_width, map_height, file_in1_name, need_save_output);
         }

         ret = blend_images (input0, input1, output_buf, blender);
         CHECK_STATEMENT (ret, FAILED_GEO_FREE, "blend_images execute failed");
         //printf ("DMA handles, output_buf:%d\n", output_buf->get_fd ());

         if (need_save_output) {
             char out_name[1024];
             snprintf (out_name, 1023, "%s.%02d", file_out_name, i);

             ret = file_out.open (out_name, "wb");
             CHECK_STATEMENT (ret, FAILED_GEO_FREE, "open output file(%s) failed", out_name);
             ret = file_out.write_buf (output_buf);
             CHECK_STATEMENT (ret, FAILED_GEO_FREE, "write buffer to (%s) failed", out_name);
             printf ("write output buffer to: %s done\n", out_name);
         } else {
             // check info
             ensure_gpu_buffer_done (output_buf);
         }

         FPS_CALCULATION (image_blend, XCAM_OBJ_DUR_FRAME_NUM);
         ++i;
     } while (i < loop);

     delete [] geo_map0;
     delete [] geo_map1;

     return ret;
 }

 //return count
 int read_map_data (const char* file, GeoPos *map, int width, int height)
 {
     char *ptr = NULL;
     FILE *p_f = fopen (file, "rb");
     CHECK_EXP (p_f, "open geo-map file(%s) failed", file);

 #define FAILED_READ_MAP { if (p_f) fclose(p_f); if (ptr) xcam_free (ptr); return -1; }

     CHECK_DECLARE (ERROR, fseek(p_f, 0L, SEEK_END) == 0, FAILED_READ_MAP, "seek to file(%s) end failed", file);
     size_t size = ftell (p_f);
     XCAM_ASSERT ((int)size != -1);
     fseek (p_f, 0L, SEEK_SET);

     ptr = (char*)xcam_malloc (size + 1);
     XCAM_ASSERT (ptr);
     CHECK_DECLARE (ERROR, fread (ptr, 1, size, p_f) == size, FAILED_READ_MAP, "read map file(%s)failed", file);
     ptr[size] = 0;
     fclose (p_f);
     p_f = NULL;

     char *str_num = NULL;
     char tokens[] = "\t ,\r\n";
     str_num = strtok (ptr, tokens);
     int count = 0;
     int x = 0, y = 0;
     while (str_num != NULL) {
         float num = strtof (str_num, NULL);
         //printf ("%.3f\n", num);

         x = count % width;
         y = count / (width * 2); // x,y
         if (y >= height)
             break;

         if (count % (width * 2) >= width)
             map[y * width + x].y = num;
         else
             map[y * width + x].x = num;

         ++count;
         str_num = strtok (NULL, tokens);
     }
     xcam_free (ptr);
     ptr = NULL;
     CHECK_EXP (y < height, "map data(%s) count larger than expected(%dx%dx2)", file, width, height);
     CHECK_EXP (count >= width * height * 2, "map data(%s) count less than expected(%dx%dx2)", file, width, height);

     printf ("read map(%s) x/y data count:%d\n", file, count);
     return count;
 }
	/*
	* test-image-blend.cpp - test cl image
	*
	* Copyright (c) 2016 Intel Corporation
	*
	* 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.
	*
	* Author: Wind Yuan <feng.yuan@intel.com>
	*/

	#include "test_common.h"
	#include "test_inline.h"
	#include <unistd.h>
	#include <getopt.h>
	#include <ocl/cl_device.h>
	#include <ocl/cl_context.h>
	#include <ocl/cl_blender.h>
	#include <image_file_handle.h>
	#include <ocl/cl_geo_map_handler.h>
	#if HAVE_LIBDRM
	#include <drm_display.h>
	#endif
	#include <dma_video_buffer.h>

	using namespace XCam;

	#define ENABLE_DMA_TEST 0

	static uint32_t input_format = V4L2_PIX_FMT_NV12;
	//static uint32_t output_format = V4L2_PIX_FMT_NV12;
	static uint32_t input_width0 = 1280, input_width1 = 1280;
	static uint32_t input_height = 960;
	static uint32_t output_width = 1920;
	static uint32_t output_height;
	static bool need_save_output = true;
	static bool enable_geo = false;
	static bool enable_seam = false;

	static int loop = 0;
	static uint32_t map_width = 51, map_height = 43;
	static const char *map0 = "fisheye0.csv";
	static const char *map1 = "fisheye1.csv";
	static char file_in0_name[XCAM_MAX_STR_SIZE], file_in1_name[XCAM_MAX_STR_SIZE], file_out_name[XCAM_MAX_STR_SIZE];

	static int read_map_data (const char* file, GeoPos *map, int width, int height);

	static void
	usage(const char* arg0)
	{
	printf ("Usage:\n"
	"%s --input0 file --input1 file --output file"
	" [--input-w0 width] [--input-w1 width] [--input-h height] [--output-w width] \n"
	"\t--input0, first image(NV12)\n"
	"\t--input1, second image(NV12)\n"
	"\t--output, output image(NV12) PREFIX\n"
	"\t--input-w0, optional, input width; default:1280\n"
	"\t--input-w1, optional, input width; default:1280\n"
	"\t--input-h, optional, input height; default:960\n"
	"\t--output-w, optional, output width; default:1920, output height is same as input height.\n"
	"\t--loop, optional, how many loops need to run for performance test, default 0; \n"
	"\t--save, optional, save file or not, default true; select from [true/false]\n"
	"\t--enable-geo, optional, enable geo map image frist. default: no\n"
	"\t--enable-seam, optional, enable seam finder in blending area. default: no\n"
	"\t--help, usage\n",
	arg0);
	}

	static int
	geo_correct_image (
	SmartPtr<CLGeoMapHandler> geo_map_handler, SmartPtr<VideoBuffer> &in_out,
	GeoPos *geo_map0, uint32_t map_width, uint32_t map_height,
	char *file_name, bool need_save_output)
	{
	XCamReturn ret = XCAM_RETURN_NO_ERROR;
	SmartPtr<VideoBuffer> geo_out;
	geo_map_handler->set_map_data (geo_map0, map_width, map_height);
	ret = geo_map_handler->execute (in_out, geo_out);
	CHECK (ret, "geo map handler execute inpu0 failed");
	XCAM_ASSERT (geo_out.ptr ());
	in_out = geo_out;

	if (need_save_output) {
	char gdc_dump_name[1024];
	snprintf (gdc_dump_name, 1024, "gdc-%s", file_name);
	ImageFileHandle file_out;
	file_out.open (gdc_dump_name, "wb");
	file_out.write_buf (geo_out);
	file_out.close ();
	printf ("write gdc output buffer to: %s done\n", gdc_dump_name);
	}
	return 0;
	}

	#if (ENABLE_DMA_TEST) && (HAVE_LIBDRM)
	static SmartPtr<VideoBuffer>
	dma_buf_to_xcam_buf (
	SmartPtr<DrmDisplay> display, int dma_fd,
	uint32_t width, uint32_t height, uint32_t size,
	uint32_t aligned_width = 0, uint32_t aligned_height = 0)
	{
	/*
	*
	* XCAM_ASSERT (native_handle_t.numFds == 1);
	* XCAM_ASSERT (native_handle_t.data[0] > 0);
	* dma_fd = native_handle_t.data[0] ;
	*/;
	VideoBufferInfo info;
	SmartPtr<VideoBuffer> dma_buf;
	SmartPtr<VideoBuffer> output;

	XCAM_ASSERT (dma_fd > 0);

	if (aligned_width == 0)
	aligned_width = XCAM_ALIGN_UP(width, 16);
	if (aligned_height == 0)
	aligned_height = XCAM_ALIGN_UP(height, 16);

	info.init (V4L2_PIX_FMT_NV12, width, height, aligned_width, aligned_height, size);
	dma_buf = new DmaVideoBuffer (info, dma_fd);
	output = display->convert_to_drm_bo_buf (display, dma_buf);
	if (!output.ptr ()) {
	XCAM_LOG_ERROR ("dma_buf(%d) convert to xcam_buf failed", dma_fd);
	}

	return output;
	}

	static SmartPtr<VideoBuffer>
	create_dma_buffer (SmartPtr<DrmDisplay> &display, const VideoBufferInfo &info)
	{
	SmartPtr<BufferPool> buf_pool = new DrmBoBufferPool (display);
	buf_pool->set_video_info (info);
	buf_pool->reserve (1);
	return buf_pool->get_buffer (buf_pool);
	}
	#endif

	static XCamReturn
	blend_images (
	SmartPtr<VideoBuffer> input0, SmartPtr<VideoBuffer> input1,
	SmartPtr<VideoBuffer> &output_buf,
	SmartPtr<CLBlender> blender)
	{
	blender->set_output_size (output_width, output_height);
	input0->attach_buffer (input1);
	return blender->execute (input0, output_buf);
	}

	int main (int argc, char *argv[])
	{
	GeoPos geo_map0 = NULL, geo_map1 = NULL;
	XCamReturn ret = XCAM_RETURN_NO_ERROR;
	SmartPtr<CLImageHandler> image_handler;
	SmartPtr<CLGeoMapHandler> geo_map_handler;
	SmartPtr<CLBlender> blender;
	VideoBufferInfo input_buf_info0, input_buf_info1, output_buf_info;
	SmartPtr<CLContext> context;
	SmartPtr<BufferPool> buf_pool0, buf_pool1;
	ImageFileHandle file_in0, file_in1, file_out;
	SmartPtr<VideoBuffer> input0, input1;
	SmartPtr<VideoBuffer> output_buf;
	SmartPtr<VideoBuffer> read_buf;

	#define FAILED_GEO_FREE { delete [] geo_map0; delete [] geo_map1; return -1; }

	const struct option long_opts[] = {
	{"input0", required_argument, NULL, 'i'},
	{"input1", required_argument, NULL, 'I'},
	{"output", required_argument, NULL, 'o'},
	{"input-w0", required_argument, NULL, 'w'},
	{"input-w1", required_argument, NULL, 'W'},
	{"input-h", required_argument, NULL, 'H'},
	{"output-w", required_argument, NULL, 'x'},
	{"loop", required_argument, NULL, 'l'},
	{"save", required_argument, NULL, 's'},
	{"enable-geo", no_argument, NULL, 'g'},
	{"enable-seam", no_argument, NULL, 'm'},
	{"help", no_argument, NULL, 'h'},
	{0, 0, 0, 0},
	};

	int opt = -1;
	while ((opt = getopt_long(argc, argv, "", long_opts, NULL)) != -1) {
	switch (opt) {
	case 'i':
	strncpy (file_in0_name, optarg, XCAM_MAX_STR_SIZE);
	break;
	case 'I':
	strncpy (file_in1_name, optarg, XCAM_MAX_STR_SIZE);
	break;
	case 'o':
	strncpy (file_out_name, optarg, XCAM_MAX_STR_SIZE);
	break;
	case 'w':
	input_width0 = atoi(optarg);
	break;
	case 'W':
	input_width1 = atoi(optarg);
	break;
	case 'H':
	input_height = atoi(optarg);
	break;
	case 'x':
	output_width = atoi(optarg);
	break;
	case 'l':
	loop = atoi(optarg);
	break;
	case 's':
	need_save_output = (strcasecmp (optarg, "false") == 0 ? false : true);
	break;
	case 'g':
	enable_geo = true;
	break;
	case 'm':
	enable_seam = true;
	break;
	case 'h':
	usage (argv[0]);
	return -1;
	default:
	printf ("getopt_long return unknown value:%c\n", opt);
	usage (argv[0]);
	return -1;

	}
	}

	if (optind < argc \|\| argc < 2) {
	printf("unknown option %s\n", argv[optind]);
	usage (argv[0]);
	return -1;
	}

	printf ("Description-----------\n");
	printf ("input0 file:%s\n", file_in0_name);
	printf ("input1 file:%s\n", file_in1_name);
	printf ("output file PREFIX:%s\n", file_out_name);
	printf ("input0 width:%d\n", input_width0);
	printf ("input1 width:%d\n", input_width1);
	printf ("input/output height:%d\n", input_height);
	printf ("output width:%d\n", output_width);
	printf ("loop count:%d\n", loop);
	printf ("need save file:%s\n", need_save_output ? "true" : "false");
	printf ("enable seam mask:%s\n", (enable_seam ? "true" : "false"));
	printf ("----------------------\n");

	output_height = input_height;
	input_buf_info0.init (input_format, input_width0, input_height);
	input_buf_info1.init (input_format, input_width1, input_height);
	output_buf_info.init (input_format, output_width, output_height);
	#if (ENABLE_DMA_TEST) && (HAVE_LIBDRM)
	SmartPtr<DrmDisplay> display = DrmDisplay::instance ();
	buf_pool0 = new DrmBoBufferPool (display);
	buf_pool1 = new DrmBoBufferPool (display);
	#else
	buf_pool0 = new CLVideoBufferPool ();
	buf_pool1 = new CLVideoBufferPool ();
	#endif
	XCAM_ASSERT (buf_pool0.ptr () && buf_pool1.ptr ());
	buf_pool0->set_video_info (input_buf_info0);
	buf_pool1->set_video_info (input_buf_info1);
	if (!buf_pool0->reserve (2)) {
	XCAM_LOG_ERROR ("init buffer pool failed");
	return -1;
	}
	if (!buf_pool1->reserve (2)) {
	XCAM_LOG_ERROR ("init buffer pool failed");
	return -1;
	}

	context = CLDevice::instance ()->get_context ();
	blender = create_pyramid_blender (context, 2, true, enable_seam).dynamic_cast_ptr<CLBlender> ();
	XCAM_ASSERT (blender.ptr ());

	#if (ENABLE_DMA_TEST) && (HAVE_LIBDRM)
	int dma_fd0 = 30, dma_fd1 = 31, dma_fd_out = 32;
	input_buf_info0.init (
	input_format, input_width0, input_height, XCAM_ALIGN_UP (input_width0, 16), XCAM_ALIGN_UP(input_height, 16));
	input_buf_info1.init (
	input_format, input_width1, input_height, XCAM_ALIGN_UP (input_width1, 16), XCAM_ALIGN_UP(input_height, 16));
	output_buf_info.init (
	input_format, output_width, output_height, XCAM_ALIGN_UP (output_width, 16), XCAM_ALIGN_UP(output_height, 16));
	uint32_t in_size = input_buf_info0.aligned_width * input_buf_info0.aligned_height * 3 / 2;
	uint32_t out_size = output_buf_info.aligned_width * output_buf_info.aligned_height * 3 / 2;
	/* create dma fd, for buffer_handle_t just skip this segment, directly goto dma_buf_to_xcam_buf */
	SmartPtr<VideoBuffer> dma_buf0, dma_buf1, dma_buf_out;
	dma_buf0 = create_dma_buffer (display, input_buf_info0); //unit test
	dma_buf1 = create_dma_buffer (display, input_buf_info1); //unit test
	dma_buf_out = create_dma_buffer (display, output_buf_info); //unit test
	dma_fd0 = dma_buf0->get_fd (); //unit test
	dma_fd1 = dma_buf1->get_fd (); //unit test
	dma_fd_out = dma_buf_out->get_fd (); //unit test
	/*
	buffer_handle_t just go to here,
	dma_fd0 = native_handle_t.data[0];
	dma_fd1 = native_handle_t.data[0];
	dma_fd_out = native_handle_t.data[0];
	*/
	printf ("DMA handles, buf0:%d, buf1:%d, buf_out:%d\n", dma_fd0, dma_fd1, dma_fd_out);
	input0 = dma_buf_to_xcam_buf (
	display, dma_fd0, input_width0, input_height, in_size,
	input_buf_info0.aligned_width, input_buf_info0.aligned_height);
	input1 = dma_buf_to_xcam_buf (
	display, dma_fd1, input_width0, input_height, in_size,
	input_buf_info1.aligned_width, input_buf_info1.aligned_height);
	output_buf = dma_buf_to_xcam_buf (
	display, dma_fd_out, output_width, output_height, out_size,
	output_buf_info.aligned_width, output_buf_info.aligned_height);
	blender->disable_buf_pool (true);
	#else
	input0 = buf_pool0->get_buffer (buf_pool0);
	input1 = buf_pool1->get_buffer (buf_pool1);
	XCAM_ASSERT (input0.ptr () && input1.ptr ());
	#endif
	//
	ret = file_in0.open (file_in0_name, "rb");
	CHECK_STATEMENT (ret, FAILED_GEO_FREE, "open input file(%s) failed", file_in0_name);
	read_buf = input0;
	ret = file_in0.read_buf (read_buf);
	CHECK_STATEMENT (ret, FAILED_GEO_FREE, "read buffer0 from (%s) failed", file_in0_name);

	ret = file_in1.open (file_in1_name, "rb");
	CHECK_STATEMENT (ret, FAILED_GEO_FREE, "open input file(%s) failed", file_in1_name);
	read_buf = input1;
	ret = file_in1.read_buf (read_buf);
	CHECK_STATEMENT (ret, FAILED_GEO_FREE, "read buffer1 from (%s) failed", file_in1_name);

	if (enable_geo) {
	geo_map_handler = create_geo_map_handler (context).dynamic_cast_ptr<CLGeoMapHandler> ();
	XCAM_ASSERT (geo_map_handler.ptr ());

	geo_map0 = new GeoPos[map_width * map_height];
	geo_map1 = new GeoPos[map_width * map_height];
	XCAM_ASSERT (geo_map0 && geo_map1);
	if (read_map_data (map0, geo_map0, map_width, map_height) <= 0 \|\|
	read_map_data (map1, geo_map1, map_width, map_height) <= 0) {
	delete [] geo_map0;
	delete [] geo_map1;
	return -1;
	}

	geo_map_handler->set_map_uint (28.0f, 28.0f);
	}

	int i = 0;
	do {
	input0->clear_attached_buffers ();
	input1->clear_attached_buffers ();

	if (enable_geo) {
	geo_correct_image (geo_map_handler, input0, geo_map0, map_width, map_height, file_in0_name, need_save_output);
	geo_correct_image (geo_map_handler, input1, geo_map1, map_width, map_height, file_in1_name, need_save_output);
	}

	ret = blend_images (input0, input1, output_buf, blender);
	CHECK_STATEMENT (ret, FAILED_GEO_FREE, "blend_images execute failed");
	//printf ("DMA handles, output_buf:%d\n", output_buf->get_fd ());

	if (need_save_output) {
	char out_name[1024];
	snprintf (out_name, 1023, "%s.%02d", file_out_name, i);

	ret = file_out.open (out_name, "wb");
	CHECK_STATEMENT (ret, FAILED_GEO_FREE, "open output file(%s) failed", out_name);
	ret = file_out.write_buf (output_buf);
	CHECK_STATEMENT (ret, FAILED_GEO_FREE, "write buffer to (%s) failed", out_name);
	printf ("write output buffer to: %s done\n", out_name);
	} else {
	// check info
	ensure_gpu_buffer_done (output_buf);
	}

	FPS_CALCULATION (image_blend, XCAM_OBJ_DUR_FRAME_NUM);
	++i;
	} while (i < loop);

	delete [] geo_map0;
	delete [] geo_map1;

	return ret;
	}

	//return count
	int read_map_data (const char* file, GeoPos *map, int width, int height)
	{
	char *ptr = NULL;
	FILE *p_f = fopen (file, "rb");
	CHECK_EXP (p_f, "open geo-map file(%s) failed", file);

	#define FAILED_READ_MAP { if (p_f) fclose(p_f); if (ptr) xcam_free (ptr); return -1; }

	CHECK_DECLARE (ERROR, fseek(p_f, 0L, SEEK_END) == 0, FAILED_READ_MAP, "seek to file(%s) end failed", file);
	size_t size = ftell (p_f);
	XCAM_ASSERT ((int)size != -1);
	fseek (p_f, 0L, SEEK_SET);

	ptr = (char*)xcam_malloc (size + 1);
	XCAM_ASSERT (ptr);
	CHECK_DECLARE (ERROR, fread (ptr, 1, size, p_f) == size, FAILED_READ_MAP, "read map file(%s)failed", file);
	ptr[size] = 0;
	fclose (p_f);
	p_f = NULL;

	char *str_num = NULL;
	char tokens[] = "\t ,\r\n";
	str_num = strtok (ptr, tokens);
	int count = 0;
	int x = 0, y = 0;
	while (str_num != NULL) {
	float num = strtof (str_num, NULL);
	//printf ("%.3f\n", num);

	x = count % width;
	y = count / (width * 2); // x,y
	if (y >= height)
	break;

	if (count % (width * 2) >= width)
	map[y * width + x].y = num;
	else
	map[y * width + x].x = num;

	++count;
	str_num = strtok (NULL, tokens);
	}
	xcam_free (ptr);
	ptr = NULL;
	CHECK_EXP (y < height, "map data(%s) count larger than expected(%dx%dx2)", file, width, height);
	CHECK_EXP (count >= width * height * 2, "map data(%s) count less than expected(%dx%dx2)", file, width, height);

	printf ("read map(%s) x/y data count:%d\n", file, count);
	return count;
	}