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/* SPDX-License-Identifier: LGPL-2.1-or-later */
/*
* Copyright (C) 2021-2022, Ideas On Board
*
* RkISP1 IPA Context
*/
#include "ipa_context.h"
/**
* \file ipa_context.h
* \brief Context and state information shared between the algorithms
*/
namespace libcamera::ipa::rkisp1 {
/**
* \struct IPAHwSettings
* \brief RkISP1 version-specific hardware parameters
*/
/**
* \var IPAHwSettings::numAeCells
* \brief Number of cells in the AE exposure means grid
*
* \var IPAHwSettings::numHistogramBins
* \brief Number of bins in the histogram
*
* \var IPAHwSettings::numHistogramWeights
* \brief Number of weights in the histogram grid
*
* \var IPAHwSettings::numGammaOutSamples
* \brief Number of samples in the gamma out table
*/
/**
* \struct IPASessionConfiguration
* \brief Session configuration for the IPA module
*
* The session configuration contains all IPA configuration parameters that
* remain constant during the capture session, from IPA module start to stop.
* It is typically set during the configure() operation of the IPA module, but
* may also be updated in the start() operation.
*/
/**
* \var IPASessionConfiguration::agc
* \brief AGC parameters configuration of the IPA
*
* \var IPASessionConfiguration::agc.measureWindow
* \brief AGC measure window
*/
/**
* \var IPASessionConfiguration::awb
* \brief AWB parameters configuration of the IPA
*
* \var IPASessionConfiguration::awb.measureWindow
* \brief AWB measure window
*
* \var IPASessionConfiguration::awb.enabled
* \brief Indicates if the AWB hardware is enabled and applies colour gains
*
* The AWB module of the ISP applies colour gains and computes statistics. It is
* enabled when the AWB algorithm is loaded, regardless of whether the algorithm
* operates in manual or automatic mode.
*/
/**
* \var IPASessionConfiguration::lsc
* \brief Lens Shading Correction configuration of the IPA
*
* \var IPASessionConfiguration::lsc.enabled
* \brief Indicates if the LSC hardware is enabled
*/
/**
* \var IPASessionConfiguration::sensor
* \brief Sensor-specific configuration of the IPA
*
* \var IPASessionConfiguration::sensor.minExposureTime
* \brief Minimum exposure time supported with the sensor
*
* \var IPASessionConfiguration::sensor.maxExposureTime
* \brief Maximum exposure time supported with the sensor
*
* \var IPASessionConfiguration::sensor.minAnalogueGain
* \brief Minimum analogue gain supported with the sensor
*
* \var IPASessionConfiguration::sensor.maxAnalogueGain
* \brief Maximum analogue gain supported with the sensor
*
* \var IPASessionConfiguration::sensor.defVBlank
* \brief The default vblank value of the sensor
*
* \var IPASessionConfiguration::sensor.lineDuration
* \brief Line duration in microseconds
*
* \var IPASessionConfiguration::sensor.size
* \brief Sensor output resolution
*/
/**
* \var IPASessionConfiguration::raw
* \brief Indicates if the camera is configured to capture raw frames
*/
/**
* \var IPASessionConfiguration::paramFormat
* \brief The fourcc of the parameters buffers format
*/
/**
* \struct IPAActiveState
* \brief Active state for algorithms
*
* The active state contains all algorithm-specific data that needs to be
* maintained by algorithms across frames. Unlike the session configuration,
* the active state is mutable and constantly updated by algorithms. The active
* state is accessible through the IPAContext structure.
*
* The active state stores two distinct categories of information:
*
* - The consolidated value of all algorithm controls. Requests passed to
* the queueRequest() function store values for controls that the
* application wants to modify for that particular frame, and the
* queueRequest() function updates the active state with those values.
* The active state thus contains a consolidated view of the value of all
* controls handled by the algorithm.
*
* - The value of parameters computed by the algorithm when running in auto
* mode. Algorithms running in auto mode compute new parameters every
* time statistics buffers are received (either synchronously, or
* possibly in a background thread). The latest computed value of those
* parameters is stored in the active state in the process() function.
*
* Each of the members in the active state belongs to a specific algorithm. A
* member may be read by any algorithm, but shall only be written by its owner.
*/
/**
* \var IPAActiveState::agc
* \brief State for the Automatic Gain Control algorithm
*
* The \a automatic variables track the latest values computed by algorithm
* based on the latest processed statistics. All other variables track the
* consolidated controls requested in queued requests.
*
* \struct IPAActiveState::agc.manual
* \brief Manual exposure time and analog gain (set through requests)
*
* \var IPAActiveState::agc.manual.exposure
* \brief Manual exposure time expressed as a number of lines as set by the
* ExposureTime control
*
* \var IPAActiveState::agc.manual.gain
* \brief Manual analogue gain as set by the AnalogueGain control
*
* \struct IPAActiveState::agc.automatic
* \brief Automatic exposure time and analog gain (computed by the algorithm)
*
* \var IPAActiveState::agc.automatic.exposure
* \brief Automatic exposure time expressed as a number of lines
*
* \var IPAActiveState::agc.automatic.gain
* \brief Automatic analogue gain multiplier
*
* \var IPAActiveState::agc.autoEnabled
* \brief Manual/automatic AGC state as set by the AeEnable control
*
* \var IPAActiveState::agc.constraintMode
* \brief Constraint mode as set by the AeConstraintMode control
*
* \var IPAActiveState::agc.exposureMode
* \brief Exposure mode as set by the AeExposureMode control
*
* \var IPAActiveState::agc.meteringMode
* \brief Metering mode as set by the AeMeteringMode control
*
* \var IPAActiveState::agc.maxFrameDuration
* \brief Maximum frame duration as set by the FrameDurationLimits control
*/
/**
* \var IPAActiveState::awb
* \brief State for the Automatic White Balance algorithm
*
* \struct IPAActiveState::awb.gains
* \brief White balance gains
*
* \struct IPAActiveState::awb.gains.manual
* \brief Manual white balance gains (set through requests)
*
* \var IPAActiveState::awb.gains.manual.red
* \brief Manual white balance gain for R channel
*
* \var IPAActiveState::awb.gains.manual.green
* \brief Manual white balance gain for G channel
*
* \var IPAActiveState::awb.gains.manual.blue
* \brief Manual white balance gain for B channel
*
* \struct IPAActiveState::awb.gains.automatic
* \brief Automatic white balance gains (computed by the algorithm)
*
* \var IPAActiveState::awb.gains.automatic.red
* \brief Automatic white balance gain for R channel
*
* \var IPAActiveState::awb.gains.automatic.green
* \brief Automatic white balance gain for G channel
*
* \var IPAActiveState::awb.gains.automatic.blue
* \brief Automatic white balance gain for B channel
*
* \var IPAActiveState::awb.temperatureK
* \brief Estimated color temperature
*
* \var IPAActiveState::awb.autoEnabled
* \brief Whether the Auto White Balance algorithm is enabled
*/
/**
* \var IPAActiveState::cproc
* \brief State for the Color Processing algorithm
*
* \struct IPAActiveState::cproc.brightness
* \brief Brightness level
*
* \var IPAActiveState::cproc.contrast
* \brief Contrast level
*
* \var IPAActiveState::cproc.saturation
* \brief Saturation level
*/
/**
* \var IPAActiveState::dpf
* \brief State for the Denoise Pre-Filter algorithm
*
* \var IPAActiveState::dpf.denoise
* \brief Indicates if denoise is activated
*/
/**
* \var IPAActiveState::filter
* \brief State for the Filter algorithm
*
* \struct IPAActiveState::filter.denoise
* \brief Denoising level
*
* \var IPAActiveState::filter.sharpness
* \brief Sharpness level
*/
/**
* \var IPAActiveState::goc
* \brief State for the goc algorithm
*
* \var IPAActiveState::goc.gamma
* \brief Gamma value applied as 1.0/gamma
*/
/**
* \struct IPAFrameContext
* \brief Per-frame context for algorithms
*
* The frame context stores two distinct categories of information:
*
* - The value of the controls to be applied to the frame. These values are
* typically set in the queueRequest() function, from the consolidated
* control values stored in the active state. The frame context thus stores
* values for all controls related to the algorithm, not limited to the
* controls specified in the corresponding request, but consolidated from all
* requests that have been queued so far.
*
* For controls that can be set manually or computed by an algorithm
* (depending on the algorithm operation mode), such as for instance the
* colour gains for the AWB algorithm, the control value will be stored in
* the frame context in the queueRequest() function only when operating in
* manual mode. When operating in auto mode, the values are computed by the
* algorithm in process(), stored in the active state, and copied to the
* frame context in prepare(), just before being stored in the ISP parameters
* buffer.
*
* The queueRequest() function can also store ancillary data in the frame
* context, such as flags to indicate if (and what) control values have
* changed compared to the previous request.
*
* - Status information computed by the algorithm for a frame. For instance,
* the colour temperature estimated by the AWB algorithm from ISP statistics
* calculated on a frame is stored in the frame context for that frame in
* the process() function.
*/
/**
* \var IPAFrameContext::agc
* \brief Automatic Gain Control parameters for this frame
*
* The exposure and gain are provided by the AGC algorithm, and are to be
* applied to the sensor in order to take effect for this frame.
*
* \var IPAFrameContext::agc.exposure
* \brief Exposure time expressed as a number of lines computed by the algorithm
*
* \var IPAFrameContext::agc.gain
* \brief Analogue gain multiplier computed by the algorithm
*
* The gain should be adapted to the sensor specific gain code before applying.
*
* \var IPAFrameContext::agc.autoEnabled
* \brief Manual/automatic AGC state as set by the AeEnable control
*
* \var IPAFrameContext::agc.constraintMode
* \brief Constraint mode as set by the AeConstraintMode control
*
* \var IPAFrameContext::agc.exposureMode
* \brief Exposure mode as set by the AeExposureMode control
*
* \var IPAFrameContext::agc.meteringMode
* \brief Metering mode as set by the AeMeteringMode control
*
* \var IPAFrameContext::agc.maxFrameDuration
* \brief Maximum frame duration as set by the FrameDurationLimits control
*
* \var IPAFrameContext::agc.updateMetering
* \brief Indicate if new ISP AGC metering parameters need to be applied
*/
/**
* \var IPAFrameContext::awb
* \brief Automatic White Balance parameters for this frame
*
* \struct IPAFrameContext::awb.gains
* \brief White balance gains
*
* \var IPAFrameContext::awb.gains.red
* \brief White balance gain for R channel
*
* \var IPAFrameContext::awb.gains.green
* \brief White balance gain for G channel
*
* \var IPAFrameContext::awb.gains.blue
* \brief White balance gain for B channel
*
* \var IPAFrameContext::awb.temperatureK
* \brief Estimated color temperature
*
* \var IPAFrameContext::awb.autoEnabled
* \brief Whether the Auto White Balance algorithm is enabled
*/
/**
* \var IPAFrameContext::cproc
* \brief Color Processing parameters for this frame
*
* \struct IPAFrameContext::cproc.brightness
* \brief Brightness level
*
* \var IPAFrameContext::cproc.contrast
* \brief Contrast level
*
* \var IPAFrameContext::cproc.saturation
* \brief Saturation level
*
* \var IPAFrameContext::cproc.update
* \brief Indicates if the color processing parameters have been updated
* compared to the previous frame
*/
/**
* \var IPAFrameContext::dpf
* \brief Denoise Pre-Filter parameters for this frame
*
* \var IPAFrameContext::dpf.denoise
* \brief Indicates if denoise is activated
*
* \var IPAFrameContext::dpf.update
* \brief Indicates if the denoise pre-filter parameters have been updated
* compared to the previous frame
*/
/**
* \var IPAFrameContext::filter
* \brief Filter parameters for this frame
*
* \struct IPAFrameContext::filter.denoise
* \brief Denoising level
*
* \var IPAFrameContext::filter.sharpness
* \brief Sharpness level
*
* \var IPAFrameContext::filter.updateParams
* \brief Indicates if the filter parameters have been updated compared to the
* previous frame
*/
/**
* \var IPAFrameContext::goc
* \brief Gamma out correction parameters for this frame
*
* \var IPAFrameContext::goc.gamma
* \brief Gamma value applied as 1.0/gamma
*
* \var IPAFrameContext::goc.update
* \brief Indicates if the goc parameters have been updated compared to the
* previous frame
*/
/**
* \var IPAFrameContext::sensor
* \brief Sensor configuration that used been used for this frame
*
* \var IPAFrameContext::sensor.exposure
* \brief Exposure time expressed as a number of lines
*
* \var IPAFrameContext::sensor.gain
* \brief Analogue gain multiplier
*/
/**
* \struct IPAContext
* \brief Global IPA context data shared between all algorithms
*
* \var IPAContext::hw
* \brief RkISP1 version-specific hardware parameters
*
* \var IPAContext::sensorInfo
* \brief The IPA session sensorInfo, immutable during the session
*
* \var IPAContext::configuration
* \brief The IPA session configuration, immutable during the session
*
* \var IPAContext::activeState
* \brief The IPA active state, storing the latest state for all algorithms
*
* \var IPAContext::frameContexts
* \brief Ring buffer of per-frame contexts
*/
} /* namespace libcamera::ipa::rkisp1 */
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