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LeafOS / LeafOS-Devices / android_hardware_samsung_slsi-linaro_exynos / 9a82de5d5c0e85ad5bdd5893bc036f4faf9e2588 / . / libvision / common / ExynosVisionLut.cpp
blob: 1fd7df699fb9cfe9dcdfa849e8724038427f757e [file] [log] [blame]
/*
* Copyright (C) 2015, Samsung Electronics Co. LTD
*
* 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.
*/
#define LOG_TAG "ExynosVisionLut"
#include <cutils/log.h>
#include <VX/vx.h>
#include "ExynosVisionLut.h"
namespace android {
vx_status
ExynosVisionLut::checkValidCreateLut(vx_enum data_type, vx_size count)
{
vx_status status = VX_SUCCESS;
if (data_type == VX_TYPE_UINT8) {
if (count != 256) {
VXLOGE("invalid parameter to LUT");
status = VX_ERROR_INVALID_PARAMETERS;
}
} else if (data_type == VX_TYPE_INT16) {
} else {
VXLOGE("invalid data type, 0x%x", data_type);
status = VX_ERROR_INVALID_TYPE;
}
return status;
}
ExynosVisionLut::ExynosVisionLut(ExynosVisionContext *context, ExynosVisionReference *scope)
: ExynosVisionDataReference(context, VX_TYPE_LUT, scope, vx_true_e, vx_false_e)
{
m_res_mngr = NULL;
m_cur_res = NULL;
m_data_type = 0;
m_count = 0;
#ifdef USE_OPENCL_KERNEL
m_cl_memory.allocated = vx_false_e;
#endif
}
ExynosVisionLut::~ExynosVisionLut()
{
}
void
ExynosVisionLut::operator=(const ExynosVisionLut& src_lut)
{
m_data_type = src_lut.m_data_type;
m_count = src_lut.m_count;
}
vx_status
ExynosVisionLut::init(vx_enum data_type, vx_size count)
{
vx_status status = VX_SUCCESS;
m_data_type = data_type;
m_count = count;
return status;
}
vx_status
ExynosVisionLut::destroy(void)
{
vx_status status = VX_SUCCESS;
m_cur_res = NULL;
m_data_type = 0;
m_count = 0;
status = freeMemory_T<lut_resource_t>(&m_res_mngr, &m_res_list);
if (status != VX_SUCCESS)
VXLOGE("free memory fails at %s, err:%d", getName(), status);
return status;
}
vx_status
ExynosVisionLut::queryLut(vx_enum attribute, void *ptr, vx_size size)
{
vx_status status = VX_SUCCESS;
if (m_is_allocated != vx_true_e) {
status = ((ExynosVisionDataReference*)this)->allocateMemory();
if (status != VX_SUCCESS) {
VXLOGE("allocating memory fails");
return VX_FAILURE;
}
}
switch (attribute) {
case VX_LUT_ATTRIBUTE_TYPE:
status = m_cur_res->queryArray(VX_ARRAY_ATTRIBUTE_ITEMTYPE, ptr, size);
break;
case VX_LUT_ATTRIBUTE_COUNT:
status = m_cur_res->queryArray(VX_ARRAY_ATTRIBUTE_NUMITEMS, ptr, size);
break;
case VX_LUT_ATTRIBUTE_SIZE:
vx_size item_size;
vx_size num_items;
status = m_cur_res->queryArray(VX_ARRAY_ATTRIBUTE_ITEMSIZE, &item_size, sizeof(item_size));
status |= m_cur_res->queryArray(VX_ARRAY_ATTRIBUTE_NUMITEMS, &num_items, sizeof(num_items));
if ((VX_CHECK_PARAM(ptr, size, vx_size, 0x3) && (status == VX_SUCCESS)))
*(vx_size *)ptr = num_items * item_size;
else
status = VX_ERROR_INVALID_PARAMETERS;
break;
default:
status = m_cur_res->queryArray(attribute, ptr, size);
break;
}
return status;
}
vx_status
ExynosVisionLut::accessLut(void **ptr, vx_enum usage)
{
vx_status status;
vx_size num_items;
vx_size stride = 0;
if (m_is_allocated != vx_true_e) {
status = ((ExynosVisionDataReference*)this)->allocateMemory();
if (status != VX_SUCCESS) {
VXLOGE("memory is not allocated yet");
goto EXIT;
}
}
status = m_cur_res->queryArray(VX_ARRAY_ATTRIBUTE_NUMITEMS, &num_items, sizeof(num_items));
if (status != VX_SUCCESS) {
VXLOGE("querying number of items fails at %s", getName());
goto EXIT;
}
status = m_cur_res->accessArrayRange(0, num_items, &stride, ptr, usage);
if (status != VX_SUCCESS) {
VXLOGE("accessing array fails at %s", getName());
goto EXIT;
}
EXIT:
return status;
}
vx_status
ExynosVisionLut::accessLutHandle(vx_int32 *fd, vx_enum usage)
{
vx_status status = VX_FAILURE;
/* bad parameters */
if ((usage < VX_READ_ONLY) || (VX_READ_AND_WRITE < usage) ||
(fd == NULL)) {
VXLOGE("invalid param of %s, fd:%p, usage:0x%x", getName(), fd, usage);
return VX_ERROR_INVALID_PARAMETERS;
}
/* determine if virtual before checking for memory */
if (m_is_virtual == vx_true_e) {
if (m_kernel_count == 0) {
/* User tried to access a "virtual" array. */
VXLOGE("Can not access a virtual array");
return VX_ERROR_OPTIMIZED_AWAY;
}
/* framework trying to access a virtual image, this is ok. */
}
if (m_is_allocated != vx_true_e) {
status = ((ExynosVisionDataReference*)this)->allocateMemory();
if (status != VX_SUCCESS) {
VXLOGE("memory is not allocated yet");
goto EXIT;
}
}
status = m_cur_res->accessArrayHandle(fd, usage);
if (status != VX_SUCCESS) {
VXLOGE("accessing array fails at %s", getName());
}
EXIT:
return status;
}
vx_status
ExynosVisionLut::commitLut(const void *ptr)
{
vx_status status;
vx_size num_items;
if (m_is_allocated != vx_true_e) {
status = ((ExynosVisionDataReference*)this)->allocateMemory();
if (status != VX_SUCCESS) {
VXLOGE("memory is not allocated yet");
goto EXIT;
}
}
status = m_cur_res->queryArray(VX_ARRAY_ATTRIBUTE_NUMITEMS, &num_items, sizeof(num_items));
if (status != VX_SUCCESS) {
VXLOGE("querying number of items fails at %s", getName());
goto EXIT;
}
status = m_cur_res->commitArrayRange(0, num_items, ptr);
if (status != VX_SUCCESS) {
VXLOGE("commiting array fails at %s", getName());
goto EXIT;
}
EXIT:
return status;
}
vx_status
ExynosVisionLut::commitLutHandle(const vx_int32 fd)
{
vx_status status;
if (m_is_allocated != vx_true_e) {
status = ((ExynosVisionDataReference*)this)->allocateMemory();
if (status != VX_SUCCESS) {
VXLOGE("memory is not allocated yet");
goto EXIT;
}
}
status = m_cur_res->commitArrayHandle(fd);
if (status != VX_SUCCESS) {
VXLOGE("commiting array fails at %s", getName());
}
EXIT:
return status;
}
vx_status
ExynosVisionLut::allocateMemory(vx_enum res_type, struct resource_param *param)
{
return allocateMemory_T(res_type, param, vx_false_e, &m_res_mngr, &m_res_list, &m_cur_res);
}
vx_status
ExynosVisionLut::allocateResource(lut_resource_t **ret_resource)
{
if (ret_resource == NULL) {
VXLOGE("pointer is null at %s", getName());
return VX_ERROR_INVALID_PARAMETERS;
}
vx_status status = VX_SUCCESS;
ExynosVisionArray *array = new ExynosVisionArray(getContext(), this, vx_false_e);
status = array->getCreationStatus();
if (status != VX_SUCCESS) {
VXLOGE("array object creation fails, err:%d", status);
delete array;
goto EXIT;
}
status = array->init(m_data_type, m_count);
if (status != VX_SUCCESS) {
VXLOGE("array object init fails, err:%d", status);
delete array;
goto EXIT;
}
status = array->addEmptyArrayItems(m_count);
if (status != VX_SUCCESS) {
VXLOGE("array object adding item fails, err:%d", status);
delete array;
goto EXIT;
}
*ret_resource = array;
array->incrementReference(VX_REF_INTERNAL, this);
EXIT:
return status;
}
vx_status
ExynosVisionLut::freeResource(lut_resource_t *array)
{
vx_status status = VX_SUCCESS;
status = ExynosVisionReference::releaseReferenceInt((ExynosVisionReference**)&array, VX_REF_INTERNAL, this);
if (status != VX_SUCCESS)
VXLOGE("release %s fails at %s", array->getName(), this->getName());
return status;
}
ExynosVisionDataReference*
ExynosVisionLut::getInputShareRef(vx_uint32 frame_cnt, vx_bool *ret_data_valid)
{
return getInputShareRef_T<lut_resource_t>(m_res_mngr, frame_cnt, ret_data_valid);
}
vx_status
ExynosVisionLut::putInputShareRef(vx_uint32 frame_cnt)
{
return putInputShareRef_T<lut_resource_t>(m_res_mngr, frame_cnt);
}
ExynosVisionDataReference*
ExynosVisionLut::getOutputShareRef(vx_uint32 frame_cnt)
{
return getOutputShareRef_T<lut_resource_t>(m_res_mngr, frame_cnt);
}
vx_status
ExynosVisionLut::putOutputShareRef(vx_uint32 frame_cnt, vx_uint32 demand_num, vx_bool data_valid)
{
return putOutputShareRef_T<lut_resource_t>(m_res_mngr, frame_cnt, demand_num, data_valid);
}
#ifdef USE_OPENCL_KERNEL
vx_status
ExynosVisionLut::getClMemoryInfo(cl_context clContext, vxcl_mem_t **memory)
{
vx_status status = VX_SUCCESS;
if (m_is_allocated != vx_true_e) {
status = ((ExynosVisionDataReference*)this)->allocateMemory();
if (status != VX_SUCCESS) {
VXLOGE("allocating memory fails at %s, err:%d", getName(), status);
goto EXIT;
}
}
status = m_cur_res->getClMemoryInfo(clContext, memory);
EXIT:
return status;
}
#endif
}; /* namespace android */