/*
* isp_config_translator.cpp - isp config translator
*
* Copyright (c) 2014-2015 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 "isp_config_translator.h"
#include <math.h>
namespace XCam {
static uint32_t
_get_max_bits (double value)
{
uint32_t max_int = 0;
uint32_t interger_bits = 0;
max_int = (uint32_t)value;
while (max_int) {
++interger_bits;
max_int = (max_int >> 1);
}
return interger_bits;
}
IspConfigTranslator::IspConfigTranslator (SmartPtr<SensorDescriptor> &sensor)
: _sensor (sensor)
{
XCAM_ASSERT (_sensor.ptr());
}
IspConfigTranslator::~IspConfigTranslator ()
{
}
XCamReturn
IspConfigTranslator::translate_white_balance (
const XCam3aResultWhiteBalance &from,
struct atomisp_wb_config &to)
{
uint32_t interger_bits = 0;
double multiplier = 0.0;
double max_gain = XCAM_MAX (from.b_gain, from.r_gain);
max_gain = XCAM_MAX (max_gain, from.gr_gain);
max_gain = XCAM_MAX (max_gain, from.gb_gain);
interger_bits = _get_max_bits (max_gain);
multiplier = (double)(1 << (16 - interger_bits));
to.integer_bits = interger_bits;
to.gr = (uint32_t)(from.gr_gain * multiplier + 0.5);
to.r = (uint32_t)(from.r_gain * multiplier + 0.5);
to.b = (uint32_t)(from.b_gain * multiplier + 0.5);
to.gb = (uint32_t)(from.gb_gain * multiplier + 0.5);
return XCAM_RETURN_NO_ERROR;
}
XCamReturn
IspConfigTranslator::translate_black_level (
const XCam3aResultBlackLevel &from, struct atomisp_ob_config &to)
{
double multiplier = (double)(1 << 16);
to.mode = atomisp_ob_mode_fixed;
to.level_gr = (uint32_t)(from.gr_level * multiplier + 0.5);
to.level_r = (uint32_t)(from.r_level * multiplier + 0.5);
to.level_b = (uint32_t)(from.b_level * multiplier + 0.5);
to.level_gb = (uint32_t)(from.gb_level * multiplier + 0.5);
return XCAM_RETURN_NO_ERROR;
}
XCamReturn
IspConfigTranslator::translate_color_matrix (
const XCam3aResultColorMatrix &from, struct atomisp_cc_config &to)
{
double max_value = 0.0;
uint32_t interger_bits = 0;
double multiplier = 0.0;
bool have_minus = false;
uint32_t i = 0;
for (i = 0; i < XCAM_COLOR_MATRIX_SIZE; ++i) {
if (fabs(from.matrix [i]) > max_value)
max_value = fabs(from.matrix [i]);
if (from.matrix [i] < 0)
have_minus = true;
}
interger_bits = _get_max_bits (max_value);
if (have_minus)
++interger_bits;
XCAM_ASSERT (interger_bits < 13);
to.fraction_bits = 13 - interger_bits;
multiplier = (double)(1 << (13 - interger_bits));
for (i = 0; i < XCAM_COLOR_MATRIX_SIZE; ++i) {
to.matrix[i] = (int32_t)(from.matrix [i] * multiplier);
}
return XCAM_RETURN_NO_ERROR;
}
XCamReturn
IspConfigTranslator::translate_exposure (
const XCam3aResultExposure &from,
struct atomisp_exposure &to)
{
uint32_t coarse_time = 0, fine_time = 0;
int32_t analog_code = 0, digital_code = 0;
if (!_sensor->is_ready ()) {
XCAM_LOG_WARNING ("translate exposure failed since sensor not ready");
return XCAM_RETURN_ERROR_SENSOR;
}
if (!_sensor->exposure_time_to_integration (from.exposure_time, coarse_time, fine_time)) {
XCAM_LOG_WARNING ("translate exposure time failed");
return XCAM_RETURN_ERROR_SENSOR;
}
to.integration_time[0] = coarse_time;
to.integration_time[1] = fine_time;
if (!_sensor->exposure_gain_to_code (from.analog_gain, from.digital_gain, analog_code, digital_code)) {
XCAM_LOG_WARNING ("translate exposure gain failed");
return XCAM_RETURN_ERROR_SENSOR;
}
to.gain[0] = analog_code;
to.gain[1] = digital_code;
return XCAM_RETURN_NO_ERROR;
}
};