/* SPDX-License-Identifier: LGPL-2.1-or-later */ /* * Copyright (C) 2021-2022, Ideas On Board * * gsl.cpp - RkISP1 Gamma Sensor Linearization control */ #include "gsl.h" #include #include #include "libcamera/internal/yaml_parser.h" #include "linux/rkisp1-config.h" /** * \file gsl.h */ namespace libcamera { namespace ipa::rkisp1::algorithms { /** * \class GammaSensorLinearization * \brief RkISP1 Gamma Sensor Linearization control * * This algorithm linearizes the sensor output to compensate the sensor * non-linearities by applying piecewise linear functions to the red, green and * blue channels. * * The curves are specified in the tuning data and defined using 17 points. * * - The X coordinates are expressed using 16 intervals, with the first point * at X coordinate 0. Each interval is expressed as a 2-bit value DX (from * GAMMA_DX_1 to GAMMA_DX_16), stored in the RKISP1_CIF_ISP_GAMMA_DX_LO and * RKISP1_CIF_ISP_GAMMA_DX_HI registers. The real interval is equal to * \f$2^{dx+4}\f$. X coordinates are shared between the red, green and blue * curves. * * - The Y coordinates are specified as 17 values separately for the * red, green and blue channels, with a 12-bit resolution. Each value must be * in the [-2048, 2047] range compared to the previous value. */ LOG_DEFINE_CATEGORY(RkISP1Gsl) static constexpr unsigned int kDegammaXIntervals = 16; GammaSensorLinearization::GammaSensorLinearization() { } /** * \copydoc libcamera::ipa::Algorithm::init */ int GammaSensorLinearization::init([[maybe_unused]] IPAContext &context, const YamlObject &tuningData) { std::vector xIntervals = tuningData["x-intervals"].getList().value_or(std::vector{}); if (xIntervals.size() != kDegammaXIntervals) { LOG(RkISP1Gsl, Error) << "Invalid 'x' coordinates: expected " << kDegammaXIntervals << " elements, got " << xIntervals.size(); return -EINVAL; } /* Compute gammaDx_ intervals from xIntervals values */ gammaDx_[0] = 0; gammaDx_[1] = 0; for (unsigned int i = 0; i < kDegammaXIntervals; ++i) gammaDx_[i / 8] |= (xIntervals[i] & 0x07) << ((i % 8) * 4); const YamlObject &yObject = tuningData["y"]; if (!yObject.isDictionary()) { LOG(RkISP1Gsl, Error) << "Issue while parsing 'y' in tuning file: " << "entry must be a dictionary"; return -EINVAL; } curveYr_ = yObject["red"].getList().value_or(std::vector{}); if (curveYr_.size() != RKISP1_CIF_ISP_DEGAMMA_CURVE_SIZE) { LOG(RkISP1Gsl, Error) << "Invalid 'y:red' coordinates: expected " << RKISP1_CIF_ISP_DEGAMMA_CURVE_SIZE << " elements, got " << curveYr_.size(); return -EINVAL; } curveYg_ = yObject["green"].getList().value_or(std::vector{}); if (curveYg_.size() != RKISP1_CIF_ISP_DEGAMMA_CURVE_SIZE) { LOG(RkISP1Gsl, Error) << "Invalid 'y:green' coordinates: expected " << RKISP1_CIF_ISP_DEGAMMA_CURVE_SIZE << " elements, got " << curveYg_.size(); return -EINVAL; } curveYb_ = yObject["blue"].getList().value_or(std::vector{}); if (curveYb_.size() != RKISP1_CIF_ISP_DEGAMMA_CURVE_SIZE) { LOG(RkISP1Gsl, Error) << "Invalid 'y:blue' coordinates: expected " << RKISP1_CIF_ISP_DEGAMMA_CURVE_SIZE << " elements, got " << curveYb_.size(); return -EINVAL; } return 0; } /** * \copydoc libcamera::ipa::Algorithm::prepare */ void GammaSensorLinearization::prepare([[maybe_unused]] IPAContext &context, const uint32_t frame, [[maybe_unused]] IPAFrameContext &frameContext, rkisp1_params_cfg *params) { if (frame > 0) return; params->others.sdg_config.xa_pnts.gamma_dx0 = gammaDx_[0]; params->others.sdg_config.xa_pnts.gamma_dx1 = gammaDx_[1]; std::copy(curveYr_.begin(), curveYr_.end(), params->others.sdg_config.curve_r.gamma_y); std::copy(curveYg_.begin(), curveYg_.end(), params->others.sdg_config.curve_g.gamma_y); std::copy(curveYb_.begin(), curveYb_.end(), params->others.sdg_config.curve_b.gamma_y); params->module_en_update |= RKISP1_CIF_ISP_MODULE_SDG; params->module_ens |= RKISP1_CIF_ISP_MODULE_SDG; params->module_cfg_update |= RKISP1_CIF_ISP_MODULE_SDG; } REGISTER_IPA_ALGORITHM(GammaSensorLinearization, "GammaSensorLinearization") } /* namespace ipa::rkisp1::algorithms */ } /* namespace libcamera */