capi/context_priv.cpp - platform/external/libxcam - Git at Google

 /*
  * context_priv.cpp - capi private context
  *
  *  Copyright (c) 2017 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 "context_priv.h"
 #include <ocl/cl_device.h>
 #include <ocl/cl_image_handler.h>
 #include <ocl/cl_tonemapping_handler.h>
 #include <ocl/cl_gauss_handler.h>
 #include <ocl/cl_wavelet_denoise_handler.h>
 #include <ocl/cl_newwavelet_denoise_handler.h>
 #include <ocl/cl_defog_dcp_handler.h>
 #include <ocl/cl_3d_denoise_handler.h>
 #include <ocl/cl_image_warp_handler.h>
 #include <ocl/cl_fisheye_handler.h>
 #include <ocl/cl_image_360_stitch.h>
 #include <ocl/cl_utils.h>

 using namespace XCam;

 #define DEFAULT_INPUT_BUFFER_POOL_COUNT  20
 static const char *HandleNames[] = {
     "None",
     "3DNR",
     "WaveletNR",
     "Fisheye",
     "Defog",
     "DVS",
     "Stitch",
 };

 bool
 handle_name_equal (const char *name, HandleType type)
 {
     return !strncmp (name, HandleNames[type], strlen(HandleNames[type]));
 }

 ContextBase::ContextBase (HandleType type)
     : _type (type)
     , _usage (NULL)
     , _image_width (0)
     , _image_height (0)
     , _alloc_out_buf (false)
 {
     if (!_inbuf_pool.ptr()) {
         _inbuf_pool = new CLVideoBufferPool ();
         XCAM_ASSERT (_inbuf_pool.ptr ());
     }
 }

 ContextBase::~ContextBase ()
 {
     xcam_free (_usage);
 }

 const char*
 ContextBase::get_type_name () const
 {
     XCAM_ASSERT ((int)_type < sizeof(HandleNames) / sizeof (HandleNames[0]));
     return HandleNames [_type];
 }

 static const char*
 find_value (const ContextParams &param_list, const char *name)
 {
     ContextParams::const_iterator i = param_list.find (name);
     if (i != param_list.end ())
         return (i->second);
     return NULL;
 }

 XCamReturn
 ContextBase::set_parameters (ContextParams &param_list)
 {
     VideoBufferInfo buf_info;
     uint32_t image_format = V4L2_PIX_FMT_NV12;
     _image_width = 1920;
     _image_height = 1080;

     const char *width = find_value (param_list, "width");
     if (width) {
         _image_width = atoi(width);
     }
     const char *height = find_value (param_list, "height");
     if (height) {
         _image_height = atoi(height);
     }
     if (_image_width == 0 || _image_height == 0) {
         XCAM_LOG_ERROR ("illegal image size width:%d height:%d", _image_width, _image_height);
         return XCAM_RETURN_ERROR_PARAM;
     }

     buf_info.init (image_format, _image_width, _image_height);
     _inbuf_pool->set_video_info (buf_info);
     if (!_inbuf_pool->reserve (DEFAULT_INPUT_BUFFER_POOL_COUNT)) {
         XCAM_LOG_ERROR ("init buffer pool failed");
         return XCAM_RETURN_ERROR_MEM;
     }

     const char *flag = find_value (param_list, "alloc-out-buf");
     if (flag && !strncasecmp (flag, "true", strlen("true"))) {
         _alloc_out_buf = true;
     } else {
         _alloc_out_buf = false;
     }
     return XCAM_RETURN_NO_ERROR;
 }

 XCamReturn
 ContextBase::init_handler ()
 {
     SmartPtr<CLContext> cl_context = CLDevice::instance()->get_context ();
     XCAM_FAIL_RETURN (
         ERROR, cl_context.ptr (), XCAM_RETURN_ERROR_UNKNOWN,
         "ContextBase::init_handler(%s) failed since cl-context is NULL",
         get_type_name ());

     SmartPtr<CLImageHandler> handler = create_handler (cl_context);
     XCAM_FAIL_RETURN (
         ERROR, handler.ptr (), XCAM_RETURN_ERROR_UNKNOWN,
         "ContextBase::init_handler(%s) create handler failed", get_type_name ());

     handler->disable_buf_pool (!_alloc_out_buf);
     set_handler (handler);
     return XCAM_RETURN_NO_ERROR;
 }

 XCamReturn
 ContextBase::uinit_handler ()
 {
     if (!_handler.ptr ())
         return XCAM_RETURN_NO_ERROR;

     _handler->emit_stop ();
     _handler.release ();
     return XCAM_RETURN_NO_ERROR;
 }

 XCamReturn
 ContextBase::execute (SmartPtr<VideoBuffer> &buf_in, SmartPtr<VideoBuffer> &buf_out)
 {
     if (!_alloc_out_buf) {
         XCAM_FAIL_RETURN (
             ERROR, buf_out.ptr (), XCAM_RETURN_ERROR_MEM,
             "context (%s) execute failed, buf_out need set.", get_type_name ());
     } else {
         XCAM_FAIL_RETURN (
             ERROR, !buf_out.ptr (), XCAM_RETURN_ERROR_MEM,
             "context (%s) execute failed, buf_out need NULL.", get_type_name ());
     }

     return _handler->execute (buf_in, buf_out);
 }

 SmartPtr<CLImageHandler>
 NR3DContext::create_handler (SmartPtr<CLContext> &context)
 {
     return create_cl_3d_denoise_image_handler (
                context, CL_IMAGE_CHANNEL_Y | CL_IMAGE_CHANNEL_UV, 3);
 }

 SmartPtr<CLImageHandler>
 NRWaveletContext::create_handler (SmartPtr<CLContext> &context)
 {
     return create_cl_newwavelet_denoise_image_handler (
                context, CL_IMAGE_CHANNEL_UV | CL_IMAGE_CHANNEL_Y, false);
 }

 SmartPtr<CLImageHandler>
 FisheyeContext::create_handler (SmartPtr<CLContext> &context)
 {
     return create_fisheye_handler (context);
 }

 SmartPtr<CLImageHandler>
 DefogContext::create_handler (SmartPtr<CLContext> &context)
 {
     return create_cl_defog_dcp_image_handler (context);;
 }

 SmartPtr<CLImageHandler>
 DVSContext::create_handler (SmartPtr<CLContext> &context)
 {
     return create_cl_image_warp_handler (context);
 }

 SmartPtr<CLImageHandler>
 StitchContext::create_handler (SmartPtr<CLContext> &context)
 {
     uint32_t sttch_width = _image_width;
     uint32_t sttch_height = XCAM_ALIGN_UP (sttch_width / 2, 16);
     if (sttch_width != sttch_height * 2) {
         XCAM_LOG_ERROR ("incorrect stitch size width:%d height:%d", sttch_width, sttch_height);
         return NULL;
     }

     SurroundMode surround_mode = SphereView;
     StitchResMode res_mode = StitchRes1080P;
     if (_res_mode == StitchRes4K)
         res_mode = StitchRes4K;

     SmartPtr<CLImage360Stitch> image_360 =
         create_image_360_stitch (context, _need_seam, _scale_mode,
                                  _fisheye_map, _need_lsc, surround_mode, res_mode).dynamic_cast_ptr<CLImage360Stitch> ();
     XCAM_FAIL_RETURN (ERROR, image_360.ptr (), NULL, "create image stitch handler failed");
     image_360->set_output_size (sttch_width, sttch_height);
     XCAM_LOG_INFO ("stitch output size width:%d height:%d", sttch_width, sttch_height);

 #if HAVE_OPENCV
     image_360->set_feature_match_ocl (_fm_ocl);
 #endif

     return image_360;
 }
	/*
	* context_priv.cpp - capi private context
	*
	* Copyright (c) 2017 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 "context_priv.h"
	#include <ocl/cl_device.h>
	#include <ocl/cl_image_handler.h>
	#include <ocl/cl_tonemapping_handler.h>
	#include <ocl/cl_gauss_handler.h>
	#include <ocl/cl_wavelet_denoise_handler.h>
	#include <ocl/cl_newwavelet_denoise_handler.h>
	#include <ocl/cl_defog_dcp_handler.h>
	#include <ocl/cl_3d_denoise_handler.h>
	#include <ocl/cl_image_warp_handler.h>
	#include <ocl/cl_fisheye_handler.h>
	#include <ocl/cl_image_360_stitch.h>
	#include <ocl/cl_utils.h>

	using namespace XCam;

	#define DEFAULT_INPUT_BUFFER_POOL_COUNT 20
	static const char *HandleNames[] = {
	"None",
	"3DNR",
	"WaveletNR",
	"Fisheye",
	"Defog",
	"DVS",
	"Stitch",
	};

	bool
	handle_name_equal (const char *name, HandleType type)
	{
	return !strncmp (name, HandleNames[type], strlen(HandleNames[type]));
	}

	ContextBase::ContextBase (HandleType type)
	: _type (type)
	, _usage (NULL)
	, _image_width (0)
	, _image_height (0)
	, _alloc_out_buf (false)
	{
	if (!_inbuf_pool.ptr()) {
	_inbuf_pool = new CLVideoBufferPool ();
	XCAM_ASSERT (_inbuf_pool.ptr ());
	}
	}

	ContextBase::~ContextBase ()
	{
	xcam_free (_usage);
	}

	const char*
	ContextBase::get_type_name () const
	{
	XCAM_ASSERT ((int)_type < sizeof(HandleNames) / sizeof (HandleNames[0]));
	return HandleNames [_type];
	}

	static const char*
	find_value (const ContextParams &param_list, const char *name)
	{
	ContextParams::const_iterator i = param_list.find (name);
	if (i != param_list.end ())
	return (i->second);
	return NULL;
	}

	XCamReturn
	ContextBase::set_parameters (ContextParams &param_list)
	{
	VideoBufferInfo buf_info;
	uint32_t image_format = V4L2_PIX_FMT_NV12;
	_image_width = 1920;
	_image_height = 1080;

	const char *width = find_value (param_list, "width");
	if (width) {
	_image_width = atoi(width);
	}
	const char *height = find_value (param_list, "height");
	if (height) {
	_image_height = atoi(height);
	}
	if (_image_width == 0 \|\| _image_height == 0) {
	XCAM_LOG_ERROR ("illegal image size width:%d height:%d", _image_width, _image_height);
	return XCAM_RETURN_ERROR_PARAM;
	}

	buf_info.init (image_format, _image_width, _image_height);
	_inbuf_pool->set_video_info (buf_info);
	if (!_inbuf_pool->reserve (DEFAULT_INPUT_BUFFER_POOL_COUNT)) {
	XCAM_LOG_ERROR ("init buffer pool failed");
	return XCAM_RETURN_ERROR_MEM;
	}

	const char *flag = find_value (param_list, "alloc-out-buf");
	if (flag && !strncasecmp (flag, "true", strlen("true"))) {
	_alloc_out_buf = true;
	} else {
	_alloc_out_buf = false;
	}
	return XCAM_RETURN_NO_ERROR;
	}

	XCamReturn
	ContextBase::init_handler ()
	{
	SmartPtr<CLContext> cl_context = CLDevice::instance()->get_context ();
	XCAM_FAIL_RETURN (
	ERROR, cl_context.ptr (), XCAM_RETURN_ERROR_UNKNOWN,
	"ContextBase::init_handler(%s) failed since cl-context is NULL",
	get_type_name ());

	SmartPtr<CLImageHandler> handler = create_handler (cl_context);
	XCAM_FAIL_RETURN (
	ERROR, handler.ptr (), XCAM_RETURN_ERROR_UNKNOWN,
	"ContextBase::init_handler(%s) create handler failed", get_type_name ());

	handler->disable_buf_pool (!_alloc_out_buf);
	set_handler (handler);
	return XCAM_RETURN_NO_ERROR;
	}

	XCamReturn
	ContextBase::uinit_handler ()
	{
	if (!_handler.ptr ())
	return XCAM_RETURN_NO_ERROR;

	_handler->emit_stop ();
	_handler.release ();
	return XCAM_RETURN_NO_ERROR;
	}

	XCamReturn
	ContextBase::execute (SmartPtr<VideoBuffer> &buf_in, SmartPtr<VideoBuffer> &buf_out)
	{
	if (!_alloc_out_buf) {
	XCAM_FAIL_RETURN (
	ERROR, buf_out.ptr (), XCAM_RETURN_ERROR_MEM,
	"context (%s) execute failed, buf_out need set.", get_type_name ());
	} else {
	XCAM_FAIL_RETURN (
	ERROR, !buf_out.ptr (), XCAM_RETURN_ERROR_MEM,
	"context (%s) execute failed, buf_out need NULL.", get_type_name ());
	}

	return _handler->execute (buf_in, buf_out);
	}

	SmartPtr<CLImageHandler>
	NR3DContext::create_handler (SmartPtr<CLContext> &context)
	{
	return create_cl_3d_denoise_image_handler (
	context, CL_IMAGE_CHANNEL_Y \| CL_IMAGE_CHANNEL_UV, 3);
	}

	SmartPtr<CLImageHandler>
	NRWaveletContext::create_handler (SmartPtr<CLContext> &context)
	{
	return create_cl_newwavelet_denoise_image_handler (
	context, CL_IMAGE_CHANNEL_UV \| CL_IMAGE_CHANNEL_Y, false);
	}

	SmartPtr<CLImageHandler>
	FisheyeContext::create_handler (SmartPtr<CLContext> &context)
	{
	return create_fisheye_handler (context);
	}

	SmartPtr<CLImageHandler>
	DefogContext::create_handler (SmartPtr<CLContext> &context)
	{
	return create_cl_defog_dcp_image_handler (context);;
	}

	SmartPtr<CLImageHandler>
	DVSContext::create_handler (SmartPtr<CLContext> &context)
	{
	return create_cl_image_warp_handler (context);
	}

	SmartPtr<CLImageHandler>
	StitchContext::create_handler (SmartPtr<CLContext> &context)
	{
	uint32_t sttch_width = _image_width;
	uint32_t sttch_height = XCAM_ALIGN_UP (sttch_width / 2, 16);
	if (sttch_width != sttch_height * 2) {
	XCAM_LOG_ERROR ("incorrect stitch size width:%d height:%d", sttch_width, sttch_height);
	return NULL;
	}

	SurroundMode surround_mode = SphereView;
	StitchResMode res_mode = StitchRes1080P;
	if (_res_mode == StitchRes4K)
	res_mode = StitchRes4K;

	SmartPtr<CLImage360Stitch> image_360 =
	create_image_360_stitch (context, _need_seam, _scale_mode,
	_fisheye_map, _need_lsc, surround_mode, res_mode).dynamic_cast_ptr<CLImage360Stitch> ();
	XCAM_FAIL_RETURN (ERROR, image_360.ptr (), NULL, "create image stitch handler failed");
	image_360->set_output_size (sttch_width, sttch_height);
	XCAM_LOG_INFO ("stitch output size width:%d height:%d", sttch_width, sttch_height);

	#if HAVE_OPENCV
	image_360->set_feature_match_ocl (_fm_ocl);
	#endif

	return image_360;
	}