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-rw-r--r--src/ipa/raspberrypi/README.md23
-rw-r--r--src/ipa/raspberrypi/cam_helper.cpp119
-rw-r--r--src/ipa/raspberrypi/cam_helper.hpp102
-rw-r--r--src/ipa/raspberrypi/cam_helper_imx219.cpp180
-rw-r--r--src/ipa/raspberrypi/cam_helper_imx477.cpp162
-rw-r--r--src/ipa/raspberrypi/cam_helper_ov5647.cpp89
-rw-r--r--src/ipa/raspberrypi/controller/agc_algorithm.hpp28
-rw-r--r--src/ipa/raspberrypi/controller/agc_status.h39
-rw-r--r--src/ipa/raspberrypi/controller/algorithm.cpp47
-rw-r--r--src/ipa/raspberrypi/controller/algorithm.hpp62
-rw-r--r--src/ipa/raspberrypi/controller/alsc_status.h27
-rw-r--r--src/ipa/raspberrypi/controller/awb_algorithm.hpp22
-rw-r--r--src/ipa/raspberrypi/controller/awb_status.h26
-rw-r--r--src/ipa/raspberrypi/controller/black_level_status.h23
-rw-r--r--src/ipa/raspberrypi/controller/camera_mode.h40
-rw-r--r--src/ipa/raspberrypi/controller/ccm_algorithm.hpp21
-rw-r--r--src/ipa/raspberrypi/controller/ccm_status.h22
-rw-r--r--src/ipa/raspberrypi/controller/contrast_algorithm.hpp22
-rw-r--r--src/ipa/raspberrypi/controller/contrast_status.h31
-rw-r--r--src/ipa/raspberrypi/controller/controller.cpp109
-rw-r--r--src/ipa/raspberrypi/controller/controller.hpp54
-rw-r--r--src/ipa/raspberrypi/controller/device_status.h30
-rw-r--r--src/ipa/raspberrypi/controller/dpc_status.h21
-rw-r--r--src/ipa/raspberrypi/controller/geq_status.h22
-rw-r--r--src/ipa/raspberrypi/controller/histogram.cpp64
-rw-r--r--src/ipa/raspberrypi/controller/histogram.hpp44
-rw-r--r--src/ipa/raspberrypi/controller/logging.hpp30
-rw-r--r--src/ipa/raspberrypi/controller/lux_status.h29
-rw-r--r--src/ipa/raspberrypi/controller/metadata.hpp77
-rw-r--r--src/ipa/raspberrypi/controller/noise_status.h22
-rw-r--r--src/ipa/raspberrypi/controller/pwl.cpp216
-rw-r--r--src/ipa/raspberrypi/controller/pwl.hpp109
-rw-r--r--src/ipa/raspberrypi/controller/rpi/agc.cpp642
-rw-r--r--src/ipa/raspberrypi/controller/rpi/agc.hpp123
-rw-r--r--src/ipa/raspberrypi/controller/rpi/alsc.cpp705
-rw-r--r--src/ipa/raspberrypi/controller/rpi/alsc.hpp104
-rw-r--r--src/ipa/raspberrypi/controller/rpi/awb.cpp608
-rw-r--r--src/ipa/raspberrypi/controller/rpi/awb.hpp178
-rw-r--r--src/ipa/raspberrypi/controller/rpi/black_level.cpp56
-rw-r--r--src/ipa/raspberrypi/controller/rpi/black_level.hpp30
-rw-r--r--src/ipa/raspberrypi/controller/rpi/ccm.cpp163
-rw-r--r--src/ipa/raspberrypi/controller/rpi/ccm.hpp76
-rw-r--r--src/ipa/raspberrypi/controller/rpi/contrast.cpp176
-rw-r--r--src/ipa/raspberrypi/controller/rpi/contrast.hpp51
-rw-r--r--src/ipa/raspberrypi/controller/rpi/dpc.cpp49
-rw-r--r--src/ipa/raspberrypi/controller/rpi/dpc.hpp32
-rw-r--r--src/ipa/raspberrypi/controller/rpi/geq.cpp75
-rw-r--r--src/ipa/raspberrypi/controller/rpi/geq.hpp34
-rw-r--r--src/ipa/raspberrypi/controller/rpi/lux.cpp104
-rw-r--r--src/ipa/raspberrypi/controller/rpi/lux.hpp42
-rw-r--r--src/ipa/raspberrypi/controller/rpi/noise.cpp71
-rw-r--r--src/ipa/raspberrypi/controller/rpi/noise.hpp32
-rw-r--r--src/ipa/raspberrypi/controller/rpi/sdn.cpp63
-rw-r--r--src/ipa/raspberrypi/controller/rpi/sdn.hpp29
-rw-r--r--src/ipa/raspberrypi/controller/rpi/sharpen.cpp60
-rw-r--r--src/ipa/raspberrypi/controller/rpi/sharpen.hpp32
-rw-r--r--src/ipa/raspberrypi/controller/sdn_status.h23
-rw-r--r--src/ipa/raspberrypi/controller/sharpen_status.h26
-rw-r--r--src/ipa/raspberrypi/data/imx219.json401
-rw-r--r--src/ipa/raspberrypi/data/imx477.json416
-rw-r--r--src/ipa/raspberrypi/data/meson.build9
-rw-r--r--src/ipa/raspberrypi/data/ov5647.json398
-rw-r--r--src/ipa/raspberrypi/data/uncalibrated.json82
-rw-r--r--src/ipa/raspberrypi/md_parser.cpp101
-rw-r--r--src/ipa/raspberrypi/md_parser.hpp123
-rw-r--r--src/ipa/raspberrypi/md_parser_rpi.cpp37
-rw-r--r--src/ipa/raspberrypi/md_parser_rpi.hpp32
-rw-r--r--src/ipa/raspberrypi/meson.build59
-rw-r--r--src/ipa/raspberrypi/raspberrypi.cpp1088
69 files changed, 8242 insertions, 0 deletions
diff --git a/src/ipa/raspberrypi/README.md b/src/ipa/raspberrypi/README.md
new file mode 100644
index 00000000..68bdff12
--- /dev/null
+++ b/src/ipa/raspberrypi/README.md
@@ -0,0 +1,23 @@
+# _libcamera_ for the Raspberry Pi
+
+Raspberry Pi provides a fully featured pipeline handler and control algorithms
+(IPAs, or "Image Processing Algorithms") to work with _libcamera_. Support is
+included for all existing Raspberry Pi camera modules.
+
+_libcamera_ for the Raspberry Pi allows users to:
+
+1. Use their existing Raspberry Pi cameras.
+1. Change the tuning of the image processing for their Raspberry Pi cameras.
+1. Alter or amend the control algorithms (such as AGC/AEC, AWB or any others)
+ that control the sensor and ISP.
+1. Implement their own custom control algorithms.
+1. Supply new tunings and/or algorithms for completely new sensors.
+
+## How to install and run _libcamera_ on the Raspberry Pi
+
+Please follow the instructions [here](https://github.com/raspberrypi/documentation/tree/master/linux/software/libcamera/README.md).
+
+## Documentation
+
+Full documentation for the _Raspberry Pi Camera Algorithm and Tuning Guide_ can
+be found [here](https://github.com/raspberrypi/documentation/tree/master/linux/software/libcamera/rpi_SOFT_libcamera_1p0.pdf).
diff --git a/src/ipa/raspberrypi/cam_helper.cpp b/src/ipa/raspberrypi/cam_helper.cpp
new file mode 100644
index 00000000..7f05d2c6
--- /dev/null
+++ b/src/ipa/raspberrypi/cam_helper.cpp
@@ -0,0 +1,119 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * cam_helper.cpp - helper information for different sensors
+ */
+
+#include <linux/videodev2.h>
+
+#include <assert.h>
+#include <map>
+#include <string.h>
+
+#include "cam_helper.hpp"
+#include "md_parser.hpp"
+
+#include "v4l2_videodevice.h"
+
+using namespace RPi;
+
+static std::map<std::string, CamHelperCreateFunc> cam_helpers;
+
+CamHelper *CamHelper::Create(std::string const &cam_name)
+{
+ /*
+ * CamHelpers get registered by static RegisterCamHelper
+ * initialisers.
+ */
+ for (auto &p : cam_helpers) {
+ if (cam_name.find(p.first) != std::string::npos)
+ return p.second();
+ }
+
+ return nullptr;
+}
+
+CamHelper::CamHelper(MdParser *parser)
+ : parser_(parser), initialized_(false)
+{
+}
+
+CamHelper::~CamHelper()
+{
+ delete parser_;
+}
+
+uint32_t CamHelper::ExposureLines(double exposure_us) const
+{
+ assert(initialized_);
+ return exposure_us * 1000.0 / mode_.line_length;
+}
+
+double CamHelper::Exposure(uint32_t exposure_lines) const
+{
+ assert(initialized_);
+ return exposure_lines * mode_.line_length / 1000.0;
+}
+
+void CamHelper::SetCameraMode(const CameraMode &mode)
+{
+ mode_ = mode;
+ parser_->SetBitsPerPixel(mode.bitdepth);
+ parser_->SetLineLengthBytes(0); /* We use SetBufferSize. */
+ initialized_ = true;
+}
+
+void CamHelper::GetDelays(int &exposure_delay, int &gain_delay) const
+{
+ /*
+ * These values are correct for many sensors. Other sensors will
+ * need to over-ride this method.
+ */
+ exposure_delay = 2;
+ gain_delay = 1;
+}
+
+bool CamHelper::SensorEmbeddedDataPresent() const
+{
+ return false;
+}
+
+unsigned int CamHelper::HideFramesStartup() const
+{
+ /*
+ * By default, hide 6 frames completely at start-up while AGC etc. sort
+ * themselves out (converge).
+ */
+ return 6;
+}
+
+unsigned int CamHelper::HideFramesModeSwitch() const
+{
+ /* After a mode switch, many sensors return valid frames immediately. */
+ return 0;
+}
+
+unsigned int CamHelper::MistrustFramesStartup() const
+{
+ /* Many sensors return a single bad frame on start-up. */
+ return 1;
+}
+
+unsigned int CamHelper::MistrustFramesModeSwitch() const
+{
+ /* Many sensors return valid metadata immediately. */
+ return 0;
+}
+
+CamTransform CamHelper::GetOrientation() const
+{
+ /* Most sensors will be mounted the "right" way up? */
+ return CamTransform_IDENTITY;
+}
+
+RegisterCamHelper::RegisterCamHelper(char const *cam_name,
+ CamHelperCreateFunc create_func)
+{
+ cam_helpers[std::string(cam_name)] = create_func;
+}
diff --git a/src/ipa/raspberrypi/cam_helper.hpp b/src/ipa/raspberrypi/cam_helper.hpp
new file mode 100644
index 00000000..0c8aa29a
--- /dev/null
+++ b/src/ipa/raspberrypi/cam_helper.hpp
@@ -0,0 +1,102 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * cam_helper.hpp - helper class providing camera information
+ */
+#pragma once
+
+#include <string>
+
+#include "camera_mode.h"
+#include "md_parser.hpp"
+
+#include "v4l2_videodevice.h"
+
+namespace RPi {
+
+// The CamHelper class provides a number of facilities that anyone trying
+// trying to drive a camera will need to know, but which are not provided by
+// by the standard driver framework. Specifically, it provides:
+//
+// A "CameraMode" structure to describe extra information about the chosen
+// mode of the driver. For example, how it is cropped from the full sensor
+// area, how it is scaled, whether pixels are averaged compared to the full
+// resolution.
+//
+// The ability to convert between number of lines of exposure and actual
+// exposure time, and to convert between the sensor's gain codes and actual
+// gains.
+//
+// A method to return the number of frames of delay between updating exposure
+// and analogue gain and the changes taking effect. For many sensors these
+// take the values 2 and 1 respectively, but sensors that are different will
+// need to over-ride the default method provided.
+//
+// A method to query if the sensor outputs embedded data that can be parsed.
+//
+// A parser to parse the metadata buffers provided by some sensors (for
+// example, the imx219 does; the ov5647 doesn't). This allows us to know for
+// sure the exposure and gain of the frame we're looking at. CamHelper
+// provides methods for converting analogue gains to and from the sensor's
+// native gain codes.
+//
+// Finally, a set of methods that determine how to handle the vagaries of
+// different camera modules on start-up or when switching modes. Some
+// modules may produce one or more frames that are not yet correctly exposed,
+// or where the metadata may be suspect. We have the following methods:
+// HideFramesStartup(): Tell the pipeline handler not to return this many
+// frames at start-up. This can also be used to hide initial frames
+// while the AGC and other algorithms are sorting themselves out.
+// HideFramesModeSwitch(): Tell the pipeline handler not to return this
+// many frames after a mode switch (other than start-up). Some sensors
+// may produce innvalid frames after a mode switch; others may not.
+// MistrustFramesStartup(): At start-up a sensor may return frames for
+// which we should not run any control algorithms (for example, metadata
+// may be invalid).
+// MistrustFramesModeSwitch(): The number of frames, after a mode switch
+// (other than start-up), for which control algorithms should not run
+// (for example, metadata may be unreliable).
+
+// Bitfield to represent the default orientation of the camera.
+typedef int CamTransform;
+static constexpr CamTransform CamTransform_IDENTITY = 0;
+static constexpr CamTransform CamTransform_HFLIP = 1;
+static constexpr CamTransform CamTransform_VFLIP = 2;
+
+class CamHelper
+{
+public:
+ static CamHelper *Create(std::string const &cam_name);
+ CamHelper(MdParser *parser);
+ virtual ~CamHelper();
+ void SetCameraMode(const CameraMode &mode);
+ MdParser &Parser() const { return *parser_; }
+ uint32_t ExposureLines(double exposure_us) const;
+ double Exposure(uint32_t exposure_lines) const; // in us
+ virtual uint32_t GainCode(double gain) const = 0;
+ virtual double Gain(uint32_t gain_code) const = 0;
+ virtual void GetDelays(int &exposure_delay, int &gain_delay) const;
+ virtual bool SensorEmbeddedDataPresent() const;
+ virtual unsigned int HideFramesStartup() const;
+ virtual unsigned int HideFramesModeSwitch() const;
+ virtual unsigned int MistrustFramesStartup() const;
+ virtual unsigned int MistrustFramesModeSwitch() const;
+ virtual CamTransform GetOrientation() const;
+protected:
+ MdParser *parser_;
+ CameraMode mode_;
+ bool initialized_;
+};
+
+// This is for registering camera helpers with the system, so that the
+// CamHelper::Create function picks them up automatically.
+
+typedef CamHelper *(*CamHelperCreateFunc)();
+struct RegisterCamHelper
+{
+ RegisterCamHelper(char const *cam_name,
+ CamHelperCreateFunc create_func);
+};
+
+} // namespace RPi
diff --git a/src/ipa/raspberrypi/cam_helper_imx219.cpp b/src/ipa/raspberrypi/cam_helper_imx219.cpp
new file mode 100644
index 00000000..35c6597c
--- /dev/null
+++ b/src/ipa/raspberrypi/cam_helper_imx219.cpp
@@ -0,0 +1,180 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * cam_helper_imx219.cpp - camera helper for imx219 sensor
+ */
+
+#include <assert.h>
+#include <stddef.h>
+#include <stdio.h>
+#include <stdlib.h>
+
+/*
+ * We have observed the imx219 embedded data stream randomly return junk
+ * reister values. Do not rely on embedded data until this has been resolved.
+ */
+#define ENABLE_EMBEDDED_DATA 0
+
+#include "cam_helper.hpp"
+#if ENABLE_EMBEDDED_DATA
+#include "md_parser.hpp"
+#else
+#include "md_parser_rpi.hpp"
+#endif
+
+using namespace RPi;
+
+/* Metadata parser implementation specific to Sony IMX219 sensors. */
+
+class MdParserImx219 : public MdParserSmia
+{
+public:
+ MdParserImx219();
+ Status Parse(void *data) override;
+ Status GetExposureLines(unsigned int &lines) override;
+ Status GetGainCode(unsigned int &gain_code) override;
+private:
+ /* Offset of the register's value in the metadata block. */
+ int reg_offsets_[3];
+ /* Value of the register, once read from the metadata block. */
+ int reg_values_[3];
+};
+
+class CamHelperImx219 : public CamHelper
+{
+public:
+ CamHelperImx219();
+ uint32_t GainCode(double gain) const override;
+ double Gain(uint32_t gain_code) const override;
+ unsigned int MistrustFramesModeSwitch() const override;
+ bool SensorEmbeddedDataPresent() const override;
+ CamTransform GetOrientation() const override;
+};
+
+CamHelperImx219::CamHelperImx219()
+#if ENABLE_EMBEDDED_DATA
+ : CamHelper(new MdParserImx219())
+#else
+ : CamHelper(new MdParserRPi())
+#endif
+{
+}
+
+uint32_t CamHelperImx219::GainCode(double gain) const
+{
+ return (uint32_t)(256 - 256 / gain);
+}
+
+double CamHelperImx219::Gain(uint32_t gain_code) const
+{
+ return 256.0 / (256 - gain_code);
+}
+
+unsigned int CamHelperImx219::MistrustFramesModeSwitch() const
+{
+ /*
+ * For reasons unknown, we do occasionally get a bogus metadata frame
+ * at a mode switch (though not at start-up). Possibly warrants some
+ * investigation, though not a big deal.
+ */
+ return 1;
+}
+
+bool CamHelperImx219::SensorEmbeddedDataPresent() const
+{
+ return ENABLE_EMBEDDED_DATA;
+}
+
+CamTransform CamHelperImx219::GetOrientation() const
+{
+ /* Camera is "upside down" on this board. */
+ return CamTransform_HFLIP | CamTransform_VFLIP;
+}
+
+static CamHelper *Create()
+{
+ return new CamHelperImx219();
+}
+
+static RegisterCamHelper reg("imx219", &Create);
+
+/*
+ * We care about one gain register and a pair of exposure registers. Their I2C
+ * addresses from the Sony IMX219 datasheet:
+ */
+#define GAIN_REG 0x157
+#define EXPHI_REG 0x15A
+#define EXPLO_REG 0x15B
+
+/*
+ * Index of each into the reg_offsets and reg_values arrays. Must be in
+ * register address order.
+ */
+#define GAIN_INDEX 0
+#define EXPHI_INDEX 1
+#define EXPLO_INDEX 2
+
+MdParserImx219::MdParserImx219()
+{
+ reg_offsets_[0] = reg_offsets_[1] = reg_offsets_[2] = -1;
+}
+
+MdParser::Status MdParserImx219::Parse(void *data)
+{
+ bool try_again = false;
+
+ if (reset_) {
+ /*
+ * Search again through the metadata for the gain and exposure
+ * registers.
+ */
+ assert(bits_per_pixel_);
+ assert(num_lines_ || buffer_size_bytes_);
+ /* Need to be ordered */
+ uint32_t regs[3] = { GAIN_REG, EXPHI_REG, EXPLO_REG };
+ reg_offsets_[0] = reg_offsets_[1] = reg_offsets_[2] = -1;
+ int ret = static_cast<int>(findRegs(static_cast<uint8_t *>(data),
+ regs, reg_offsets_, 3));
+ /*
+ * > 0 means "worked partially but parse again next time",
+ * < 0 means "hard error".
+ */
+ if (ret > 0)
+ try_again = true;
+ else if (ret < 0)
+ return ERROR;
+ }
+
+ for (int i = 0; i < 3; i++) {
+ if (reg_offsets_[i] == -1)
+ continue;
+
+ reg_values_[i] = static_cast<uint8_t *>(data)[reg_offsets_[i]];
+ }
+
+ /* Re-parse next time if we were unhappy in some way. */
+ reset_ = try_again;
+
+ return OK;
+}
+
+MdParser::Status MdParserImx219::GetExposureLines(unsigned int &lines)
+{
+ if (reg_offsets_[EXPHI_INDEX] == -1 || reg_offsets_[EXPLO_INDEX] == -1)
+ return NOTFOUND;
+
+ lines = reg_values_[EXPHI_INDEX] * 256 + reg_values_[EXPLO_INDEX];
+
+ return OK;
+}
+
+MdParser::Status MdParserImx219::GetGainCode(unsigned int &gain_code)
+{
+ if (reg_offsets_[GAIN_INDEX] == -1)
+ return NOTFOUND;
+
+ gain_code = reg_values_[GAIN_INDEX];
+
+ return OK;
+}
diff --git a/src/ipa/raspberrypi/cam_helper_imx477.cpp b/src/ipa/raspberrypi/cam_helper_imx477.cpp
new file mode 100644
index 00000000..69544456
--- /dev/null
+++ b/src/ipa/raspberrypi/cam_helper_imx477.cpp
@@ -0,0 +1,162 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2020, Raspberry Pi (Trading) Limited
+ *
+ * cam_helper_imx477.cpp - camera helper for imx477 sensor
+ */
+
+#include <assert.h>
+#include <stddef.h>
+#include <stdio.h>
+#include <stdlib.h>
+
+#include "cam_helper.hpp"
+#include "md_parser.hpp"
+
+using namespace RPi;
+
+/* Metadata parser implementation specific to Sony IMX477 sensors. */
+
+class MdParserImx477 : public MdParserSmia
+{
+public:
+ MdParserImx477();
+ Status Parse(void *data) override;
+ Status GetExposureLines(unsigned int &lines) override;
+ Status GetGainCode(unsigned int &gain_code) override;
+private:
+ /* Offset of the register's value in the metadata block. */
+ int reg_offsets_[4];
+ /* Value of the register, once read from the metadata block. */
+ int reg_values_[4];
+};
+
+class CamHelperImx477 : public CamHelper
+{
+public:
+ CamHelperImx477();
+ uint32_t GainCode(double gain) const override;
+ double Gain(uint32_t gain_code) const override;
+ bool SensorEmbeddedDataPresent() const override;
+ CamTransform GetOrientation() const override;
+};
+
+CamHelperImx477::CamHelperImx477()
+ : CamHelper(new MdParserImx477())
+{
+}
+
+uint32_t CamHelperImx477::GainCode(double gain) const
+{
+ return static_cast<uint32_t>(1024 - 1024 / gain);
+}
+
+double CamHelperImx477::Gain(uint32_t gain_code) const
+{
+ return 1024.0 / (1024 - gain_code);
+}
+
+bool CamHelperImx477::SensorEmbeddedDataPresent() const
+{
+ return true;
+}
+
+CamTransform CamHelperImx477::GetOrientation() const
+{
+ /* Camera is "upside down" on this board. */
+ return CamTransform_HFLIP | CamTransform_VFLIP;
+}
+
+static CamHelper *Create()
+{
+ return new CamHelperImx477();
+}
+
+static RegisterCamHelper reg("imx477", &Create);
+
+/*
+ * We care about two gain registers and a pair of exposure registers. Their
+ * I2C addresses from the Sony IMX477 datasheet:
+ */
+#define EXPHI_REG 0x0202
+#define EXPLO_REG 0x0203
+#define GAINHI_REG 0x0204
+#define GAINLO_REG 0x0205
+
+/*
+ * Index of each into the reg_offsets and reg_values arrays. Must be in register
+ * address order.
+ */
+#define EXPHI_INDEX 0
+#define EXPLO_INDEX 1
+#define GAINHI_INDEX 2
+#define GAINLO_INDEX 3
+
+MdParserImx477::MdParserImx477()
+{
+ reg_offsets_[0] = reg_offsets_[1] = reg_offsets_[2] = reg_offsets_[3] = -1;
+}
+
+MdParser::Status MdParserImx477::Parse(void *data)
+{
+ bool try_again = false;
+
+ if (reset_) {
+ /*
+ * Search again through the metadata for the gain and exposure
+ * registers.
+ */
+ assert(bits_per_pixel_);
+ assert(num_lines_ || buffer_size_bytes_);
+ /* Need to be ordered */
+ uint32_t regs[4] = {
+ EXPHI_REG,
+ EXPLO_REG,
+ GAINHI_REG,
+ GAINLO_REG
+ };
+ reg_offsets_[0] = reg_offsets_[1] = reg_offsets_[2] = reg_offsets_[3] = -1;
+ int ret = static_cast<int>(findRegs(static_cast<uint8_t *>(data),
+ regs, reg_offsets_, 4));
+ /*
+ * > 0 means "worked partially but parse again next time",
+ * < 0 means "hard error".
+ */
+ if (ret > 0)
+ try_again = true;
+ else if (ret < 0)
+ return ERROR;
+ }
+
+ for (int i = 0; i < 4; i++) {
+ if (reg_offsets_[i] == -1)
+ continue;
+
+ reg_values_[i] = static_cast<uint8_t *>(data)[reg_offsets_[i]];
+ }
+
+ /* Re-parse next time if we were unhappy in some way. */
+ reset_ = try_again;
+
+ return OK;
+}
+
+MdParser::Status MdParserImx477::GetExposureLines(unsigned int &lines)
+{
+ if (reg_offsets_[EXPHI_INDEX] == -1 || reg_offsets_[EXPLO_INDEX] == -1)
+ return NOTFOUND;
+
+ lines = reg_values_[EXPHI_INDEX] * 256 + reg_values_[EXPLO_INDEX];
+
+ return OK;
+}
+
+MdParser::Status MdParserImx477::GetGainCode(unsigned int &gain_code)
+{
+ if (reg_offsets_[GAINHI_INDEX] == -1 || reg_offsets_[GAINLO_INDEX] == -1)
+ return NOTFOUND;
+
+ gain_code = reg_values_[GAINHI_INDEX] * 256 + reg_values_[GAINLO_INDEX];
+
+ return OK;
+}
diff --git a/src/ipa/raspberrypi/cam_helper_ov5647.cpp b/src/ipa/raspberrypi/cam_helper_ov5647.cpp
new file mode 100644
index 00000000..3dbcb164
--- /dev/null
+++ b/src/ipa/raspberrypi/cam_helper_ov5647.cpp
@@ -0,0 +1,89 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * cam_helper_ov5647.cpp - camera information for ov5647 sensor
+ */
+
+#include <assert.h>
+
+#include "cam_helper.hpp"
+#include "md_parser_rpi.hpp"
+
+using namespace RPi;
+
+class CamHelperOv5647 : public CamHelper
+{
+public:
+ CamHelperOv5647();
+ uint32_t GainCode(double gain) const override;
+ double Gain(uint32_t gain_code) const override;
+ void GetDelays(int &exposure_delay, int &gain_delay) const override;
+ unsigned int HideFramesModeSwitch() const override;
+ unsigned int MistrustFramesStartup() const override;
+ unsigned int MistrustFramesModeSwitch() const override;
+};
+
+/*
+ * OV5647 doesn't output metadata, so we have to use the "unicam parser" which
+ * works by counting frames.
+ */
+
+CamHelperOv5647::CamHelperOv5647()
+ : CamHelper(new MdParserRPi())
+{
+}
+
+uint32_t CamHelperOv5647::GainCode(double gain) const
+{
+ return static_cast<uint32_t>(gain * 16.0);
+}
+
+double CamHelperOv5647::Gain(uint32_t gain_code) const
+{
+ return static_cast<double>(gain_code) / 16.0;
+}
+
+void CamHelperOv5647::GetDelays(int &exposure_delay, int &gain_delay) const
+{
+ /*
+ * We run this sensor in a mode where the gain delay is bumped up to
+ * 2. It seems to be the only way to make the delays "predictable".
+ */
+ exposure_delay = 2;
+ gain_delay = 2;
+}
+
+unsigned int CamHelperOv5647::HideFramesModeSwitch() const
+{
+ /*
+ * After a mode switch, we get a couple of under-exposed frames which
+ * we don't want shown.
+ */
+ return 2;
+}
+
+unsigned int CamHelperOv5647::MistrustFramesStartup() const
+{
+ /*
+ * First couple of frames are under-exposed and are no good for control
+ * algos.
+ */
+ return 2;
+}
+
+unsigned int CamHelperOv5647::MistrustFramesModeSwitch() const
+{
+ /*
+ * First couple of frames are under-exposed even after a simple
+ * mode switch, and are no good for control algos.
+ */
+ return 2;
+}
+
+static CamHelper *Create()
+{
+ return new CamHelperOv5647();
+}
+
+static RegisterCamHelper reg("ov5647", &Create);
diff --git a/src/ipa/raspberrypi/controller/agc_algorithm.hpp b/src/ipa/raspberrypi/controller/agc_algorithm.hpp
new file mode 100644
index 00000000..f29bb3ac
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/agc_algorithm.hpp
@@ -0,0 +1,28 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * agc_algorithm.hpp - AGC/AEC control algorithm interface
+ */
+#pragma once
+
+#include "algorithm.hpp"
+
+namespace RPi {
+
+class AgcAlgorithm : public Algorithm
+{
+public:
+ AgcAlgorithm(Controller *controller) : Algorithm(controller) {}
+ // An AGC algorithm must provide the following:
+ virtual void SetEv(double ev) = 0;
+ virtual void SetFlickerPeriod(double flicker_period) = 0;
+ virtual void SetFixedShutter(double fixed_shutter) = 0; // microseconds
+ virtual void SetFixedAnalogueGain(double fixed_analogue_gain) = 0;
+ virtual void SetMeteringMode(std::string const &metering_mode_name) = 0;
+ virtual void SetExposureMode(std::string const &exposure_mode_name) = 0;
+ virtual void
+ SetConstraintMode(std::string const &contraint_mode_name) = 0;
+};
+
+} // namespace RPi
diff --git a/src/ipa/raspberrypi/controller/agc_status.h b/src/ipa/raspberrypi/controller/agc_status.h
new file mode 100644
index 00000000..10381c90
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/agc_status.h
@@ -0,0 +1,39 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * agc_status.h - AGC/AEC control algorithm status
+ */
+#pragma once
+
+// The AGC algorithm should post the following structure into the image's
+// "agc.status" metadata.
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+// Note: total_exposure_value will be reported as zero until the algorithm has
+// seen statistics and calculated meaningful values. The contents should be
+// ignored until then.
+
+struct AgcStatus {
+ double total_exposure_value; // value for all exposure and gain for this image
+ double target_exposure_value; // (unfiltered) target total exposure AGC is aiming for
+ double shutter_time;
+ double analogue_gain;
+ char exposure_mode[32];
+ char constraint_mode[32];
+ char metering_mode[32];
+ double ev;
+ double flicker_period;
+ int floating_region_enable;
+ double fixed_shutter;
+ double fixed_analogue_gain;
+ double digital_gain;
+ int locked;
+};
+
+#ifdef __cplusplus
+}
+#endif
diff --git a/src/ipa/raspberrypi/controller/algorithm.cpp b/src/ipa/raspberrypi/controller/algorithm.cpp
new file mode 100644
index 00000000..9bd3df86
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/algorithm.cpp
@@ -0,0 +1,47 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * algorithm.cpp - ISP control algorithms
+ */
+
+#include "algorithm.hpp"
+
+using namespace RPi;
+
+void Algorithm::Read(boost::property_tree::ptree const &params)
+{
+ (void)params;
+}
+
+void Algorithm::Initialise() {}
+
+void Algorithm::SwitchMode(CameraMode const &camera_mode)
+{
+ (void)camera_mode;
+}
+
+void Algorithm::Prepare(Metadata *image_metadata)
+{
+ (void)image_metadata;
+}
+
+void Algorithm::Process(StatisticsPtr &stats, Metadata *image_metadata)
+{
+ (void)stats;
+ (void)image_metadata;
+}
+
+// For registering algorithms with the system:
+
+static std::map<std::string, AlgoCreateFunc> algorithms;
+std::map<std::string, AlgoCreateFunc> const &RPi::GetAlgorithms()
+{
+ return algorithms;
+}
+
+RegisterAlgorithm::RegisterAlgorithm(char const *name,
+ AlgoCreateFunc create_func)
+{
+ algorithms[std::string(name)] = create_func;
+}
diff --git a/src/ipa/raspberrypi/controller/algorithm.hpp b/src/ipa/raspberrypi/controller/algorithm.hpp
new file mode 100644
index 00000000..b82c1841
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/algorithm.hpp
@@ -0,0 +1,62 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * algorithm.hpp - ISP control algorithm interface
+ */
+#pragma once
+
+// All algorithms should be derived from this class and made available to the
+// Controller.
+
+#include <string>
+#include <memory>
+#include <map>
+#include <atomic>
+
+#include "logging.hpp"
+#include "controller.hpp"
+
+#include <boost/property_tree/ptree.hpp>
+
+namespace RPi {
+
+// This defines the basic interface for all control algorithms.
+
+class Algorithm
+{
+public:
+ Algorithm(Controller *controller)
+ : controller_(controller), paused_(false)
+ {
+ }
+ virtual ~Algorithm() {}
+ virtual char const *Name() const = 0;
+ virtual bool IsPaused() const { return paused_; }
+ virtual void Pause() { paused_ = true; }
+ virtual void Resume() { paused_ = false; }
+ virtual void Read(boost::property_tree::ptree const &params);
+ virtual void Initialise();
+ virtual void SwitchMode(CameraMode const &camera_mode);
+ virtual void Prepare(Metadata *image_metadata);
+ virtual void Process(StatisticsPtr &stats, Metadata *image_metadata);
+ Metadata &GetGlobalMetadata() const
+ {
+ return controller_->GetGlobalMetadata();
+ }
+
+private:
+ Controller *controller_;
+ std::atomic<bool> paused_;
+};
+
+// This code is for automatic registration of Front End algorithms with the
+// system.
+
+typedef Algorithm *(*AlgoCreateFunc)(Controller *controller);
+struct RegisterAlgorithm {
+ RegisterAlgorithm(char const *name, AlgoCreateFunc create_func);
+};
+std::map<std::string, AlgoCreateFunc> const &GetAlgorithms();
+
+} // namespace RPi
diff --git a/src/ipa/raspberrypi/controller/alsc_status.h b/src/ipa/raspberrypi/controller/alsc_status.h
new file mode 100644
index 00000000..d3f57971
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/alsc_status.h
@@ -0,0 +1,27 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * alsc_status.h - ALSC (auto lens shading correction) control algorithm status
+ */
+#pragma once
+
+// The ALSC algorithm should post the following structure into the image's
+// "alsc.status" metadata.
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#define ALSC_CELLS_X 16
+#define ALSC_CELLS_Y 12
+
+struct AlscStatus {
+ double r[ALSC_CELLS_Y][ALSC_CELLS_X];
+ double g[ALSC_CELLS_Y][ALSC_CELLS_X];
+ double b[ALSC_CELLS_Y][ALSC_CELLS_X];
+};
+
+#ifdef __cplusplus
+}
+#endif
diff --git a/src/ipa/raspberrypi/controller/awb_algorithm.hpp b/src/ipa/raspberrypi/controller/awb_algorithm.hpp
new file mode 100644
index 00000000..22508ddd
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/awb_algorithm.hpp
@@ -0,0 +1,22 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * awb_algorithm.hpp - AWB control algorithm interface
+ */
+#pragma once
+
+#include "algorithm.hpp"
+
+namespace RPi {
+
+class AwbAlgorithm : public Algorithm
+{
+public:
+ AwbAlgorithm(Controller *controller) : Algorithm(controller) {}
+ // An AWB algorithm must provide the following:
+ virtual void SetMode(std::string const &mode_name) = 0;
+ virtual void SetManualGains(double manual_r, double manual_b) = 0;
+};
+
+} // namespace RPi
diff --git a/src/ipa/raspberrypi/controller/awb_status.h b/src/ipa/raspberrypi/controller/awb_status.h
new file mode 100644
index 00000000..46d7c842
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/awb_status.h
@@ -0,0 +1,26 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * awb_status.h - AWB control algorithm status
+ */
+#pragma once
+
+// The AWB algorithm places its results into both the image and global metadata,
+// under the tag "awb.status".
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+struct AwbStatus {
+ char mode[32];
+ double temperature_K;
+ double gain_r;
+ double gain_g;
+ double gain_b;
+};
+
+#ifdef __cplusplus
+}
+#endif
diff --git a/src/ipa/raspberrypi/controller/black_level_status.h b/src/ipa/raspberrypi/controller/black_level_status.h
new file mode 100644
index 00000000..d085f64b
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/black_level_status.h
@@ -0,0 +1,23 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * black_level_status.h - black level control algorithm status
+ */
+#pragma once
+
+// The "black level" algorithm stores the black levels to use.
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+struct BlackLevelStatus {
+ uint16_t black_level_r; // out of 16 bits
+ uint16_t black_level_g;
+ uint16_t black_level_b;
+};
+
+#ifdef __cplusplus
+}
+#endif
diff --git a/src/ipa/raspberrypi/controller/camera_mode.h b/src/ipa/raspberrypi/controller/camera_mode.h
new file mode 100644
index 00000000..875bab31
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/camera_mode.h
@@ -0,0 +1,40 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019-2020, Raspberry Pi (Trading) Limited
+ *
+ * camera_mode.h - description of a particular operating mode of a sensor
+ */
+#pragma once
+
+// Description of a "camera mode", holding enough information for control
+// algorithms to adapt their behaviour to the different modes of the camera,
+// including binning, scaling, cropping etc.
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#define CAMERA_MODE_NAME_LEN 32
+
+struct CameraMode {
+ // bit depth of the raw camera output
+ uint32_t bitdepth;
+ // size in pixels of frames in this mode
+ uint16_t width, height;
+ // size of full resolution uncropped frame ("sensor frame")
+ uint16_t sensor_width, sensor_height;
+ // binning factor (1 = no binning, 2 = 2-pixel binning etc.)
+ uint8_t bin_x, bin_y;
+ // location of top left pixel in the sensor frame
+ uint16_t crop_x, crop_y;
+ // scaling factor (so if uncropped, width*scale_x is sensor_width)
+ double scale_x, scale_y;
+ // scaling of the noise compared to the native sensor mode
+ double noise_factor;
+ // line time in nanoseconds
+ double line_length;
+};
+
+#ifdef __cplusplus
+}
+#endif
diff --git a/src/ipa/raspberrypi/controller/ccm_algorithm.hpp b/src/ipa/raspberrypi/controller/ccm_algorithm.hpp
new file mode 100644
index 00000000..21806cb0
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/ccm_algorithm.hpp
@@ -0,0 +1,21 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * ccm_algorithm.hpp - CCM (colour correction matrix) control algorithm interface
+ */
+#pragma once
+
+#include "algorithm.hpp"
+
+namespace RPi {
+
+class CcmAlgorithm : public Algorithm
+{
+public:
+ CcmAlgorithm(Controller *controller) : Algorithm(controller) {}
+ // A CCM algorithm must provide the following:
+ virtual void SetSaturation(double saturation) = 0;
+};
+
+} // namespace RPi
diff --git a/src/ipa/raspberrypi/controller/ccm_status.h b/src/ipa/raspberrypi/controller/ccm_status.h
new file mode 100644
index 00000000..7e41dd1f
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/ccm_status.h
@@ -0,0 +1,22 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * ccm_status.h - CCM (colour correction matrix) control algorithm status
+ */
+#pragma once
+
+// The "ccm" algorithm generates an appropriate colour matrix.
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+struct CcmStatus {
+ double matrix[9];
+ double saturation;
+};
+
+#ifdef __cplusplus
+}
+#endif
diff --git a/src/ipa/raspberrypi/controller/contrast_algorithm.hpp b/src/ipa/raspberrypi/controller/contrast_algorithm.hpp
new file mode 100644
index 00000000..9780322b
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/contrast_algorithm.hpp
@@ -0,0 +1,22 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * contrast_algorithm.hpp - contrast (gamma) control algorithm interface
+ */
+#pragma once
+
+#include "algorithm.hpp"
+
+namespace RPi {
+
+class ContrastAlgorithm : public Algorithm
+{
+public:
+ ContrastAlgorithm(Controller *controller) : Algorithm(controller) {}
+ // A contrast algorithm must provide the following:
+ virtual void SetBrightness(double brightness) = 0;
+ virtual void SetContrast(double contrast) = 0;
+};
+
+} // namespace RPi
diff --git a/src/ipa/raspberrypi/controller/contrast_status.h b/src/ipa/raspberrypi/controller/contrast_status.h
new file mode 100644
index 00000000..d7edd4e9
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/contrast_status.h
@@ -0,0 +1,31 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * contrast_status.h - contrast (gamma) control algorithm status
+ */
+#pragma once
+
+// The "contrast" algorithm creates a gamma curve, optionally doing a little bit
+// of contrast stretching based on the AGC histogram.
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#define CONTRAST_NUM_POINTS 33
+
+struct ContrastPoint {
+ uint16_t x;
+ uint16_t y;
+};
+
+struct ContrastStatus {
+ struct ContrastPoint points[CONTRAST_NUM_POINTS];
+ double brightness;
+ double contrast;
+};
+
+#ifdef __cplusplus
+}
+#endif
diff --git a/src/ipa/raspberrypi/controller/controller.cpp b/src/ipa/raspberrypi/controller/controller.cpp
new file mode 100644
index 00000000..20dd4c78
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/controller.cpp
@@ -0,0 +1,109 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * controller.cpp - ISP controller
+ */
+
+#include "algorithm.hpp"
+#include "controller.hpp"
+
+#include <boost/property_tree/json_parser.hpp>
+#include <boost/property_tree/ptree.hpp>
+
+using namespace RPi;
+
+Controller::Controller()
+ : switch_mode_called_(false) {}
+
+Controller::Controller(char const *json_filename)
+ : switch_mode_called_(false)
+{
+ Read(json_filename);
+ Initialise();
+}
+
+Controller::~Controller() {}
+
+void Controller::Read(char const *filename)
+{
+ RPI_LOG("Controller starting");
+ boost::property_tree::ptree root;
+ boost::property_tree::read_json(filename, root);
+ for (auto const &key_and_value : root) {
+ Algorithm *algo = CreateAlgorithm(key_and_value.first.c_str());
+ if (algo) {
+ algo->Read(key_and_value.second);
+ algorithms_.push_back(AlgorithmPtr(algo));
+ } else
+ RPI_LOG("WARNING: No algorithm found for \""
+ << key_and_value.first << "\"");
+ }
+ RPI_LOG("Controller finished");
+}
+
+Algorithm *Controller::CreateAlgorithm(char const *name)
+{
+ auto it = GetAlgorithms().find(std::string(name));
+ return it != GetAlgorithms().end() ? (*it->second)(this) : nullptr;
+}
+
+void Controller::Initialise()
+{
+ RPI_LOG("Controller starting");
+ for (auto &algo : algorithms_)
+ algo->Initialise();
+ RPI_LOG("Controller finished");
+}
+
+void Controller::SwitchMode(CameraMode const &camera_mode)
+{
+ RPI_LOG("Controller starting");
+ for (auto &algo : algorithms_)
+ algo->SwitchMode(camera_mode);
+ switch_mode_called_ = true;
+ RPI_LOG("Controller finished");
+}
+
+void Controller::Prepare(Metadata *image_metadata)
+{
+ RPI_LOG("Controller::Prepare starting");
+ assert(switch_mode_called_);
+ for (auto &algo : algorithms_)
+ if (!algo->IsPaused())
+ algo->Prepare(image_metadata);
+ RPI_LOG("Controller::Prepare finished");
+}
+
+void Controller::Process(StatisticsPtr stats, Metadata *image_metadata)
+{
+ RPI_LOG("Controller::Process starting");
+ assert(switch_mode_called_);
+ for (auto &algo : algorithms_)
+ if (!algo->IsPaused())
+ algo->Process(stats, image_metadata);
+ RPI_LOG("Controller::Process finished");
+}
+
+Metadata &Controller::GetGlobalMetadata()
+{
+ return global_metadata_;
+}
+
+Algorithm *Controller::GetAlgorithm(std::string const &name) const
+{
+ // The passed name must be the entire algorithm name, or must match the
+ // last part of it with a period (.) just before.
+ size_t name_len = name.length();
+ for (auto &algo : algorithms_) {
+ char const *algo_name = algo->Name();
+ size_t algo_name_len = strlen(algo_name);
+ if (algo_name_len >= name_len &&
+ strcasecmp(name.c_str(),
+ algo_name + algo_name_len - name_len) == 0 &&
+ (name_len == algo_name_len ||
+ algo_name[algo_name_len - name_len - 1] == '.'))
+ return algo.get();
+ }
+ return nullptr;
+}
diff --git a/src/ipa/raspberrypi/controller/controller.hpp b/src/ipa/raspberrypi/controller/controller.hpp
new file mode 100644
index 00000000..d6853866
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/controller.hpp
@@ -0,0 +1,54 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * controller.hpp - ISP controller interface
+ */
+#pragma once
+
+// The Controller is simply a container for a collecting together a number of
+// "control algorithms" (such as AWB etc.) and for running them all in a
+// convenient manner.
+
+#include <vector>
+#include <string>
+
+#include <linux/bcm2835-isp.h>
+
+#include "camera_mode.h"
+#include "device_status.h"
+#include "metadata.hpp"
+
+namespace RPi {
+
+class Algorithm;
+typedef std::unique_ptr<Algorithm> AlgorithmPtr;
+typedef std::shared_ptr<bcm2835_isp_stats> StatisticsPtr;
+
+// The Controller holds a pointer to some global_metadata, which is how
+// different controllers and control algorithms within them can exchange
+// information. The Prepare method returns a pointer to metadata for this
+// specific image, and which should be passed on to the Process method.
+
+class Controller
+{
+public:
+ Controller();
+ Controller(char const *json_filename);
+ ~Controller();
+ Algorithm *CreateAlgorithm(char const *name);
+ void Read(char const *filename);
+ void Initialise();
+ void SwitchMode(CameraMode const &camera_mode);
+ void Prepare(Metadata *image_metadata);
+ void Process(StatisticsPtr stats, Metadata *image_metadata);
+ Metadata &GetGlobalMetadata();
+ Algorithm *GetAlgorithm(std::string const &name) const;
+
+protected:
+ Metadata global_metadata_;
+ std::vector<AlgorithmPtr> algorithms_;
+ bool switch_mode_called_;
+};
+
+} // namespace RPi
diff --git a/src/ipa/raspberrypi/controller/device_status.h b/src/ipa/raspberrypi/controller/device_status.h
new file mode 100644
index 00000000..aa08608b
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/device_status.h
@@ -0,0 +1,30 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * device_status.h - device (image sensor) status
+ */
+#pragma once
+
+// Definition of "device metadata" which stores things like shutter time and
+// analogue gain that downstream control algorithms will want to know.
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+struct DeviceStatus {
+ // time shutter is open, in microseconds
+ double shutter_speed;
+ double analogue_gain;
+ // 1.0/distance-in-metres, or 0 if unknown
+ double lens_position;
+ // 1/f so that brightness quadruples when this doubles, or 0 if unknown
+ double aperture;
+ // proportional to brightness with 0 = no flash, 1 = maximum flash
+ double flash_intensity;
+};
+
+#ifdef __cplusplus
+}
+#endif
diff --git a/src/ipa/raspberrypi/controller/dpc_status.h b/src/ipa/raspberrypi/controller/dpc_status.h
new file mode 100644
index 00000000..a3ec2762
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/dpc_status.h
@@ -0,0 +1,21 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * dpc_status.h - DPC (defective pixel correction) control algorithm status
+ */
+#pragma once
+
+// The "DPC" algorithm sets defective pixel correction strength.
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+struct DpcStatus {
+ int strength; // 0 = "off", 1 = "normal", 2 = "strong"
+};
+
+#ifdef __cplusplus
+}
+#endif
diff --git a/src/ipa/raspberrypi/controller/geq_status.h b/src/ipa/raspberrypi/controller/geq_status.h
new file mode 100644
index 00000000..07fd5f03
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/geq_status.h
@@ -0,0 +1,22 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * geq_status.h - GEQ (green equalisation) control algorithm status
+ */
+#pragma once
+
+// The "GEQ" algorithm calculates the green equalisation thresholds
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+struct GeqStatus {
+ uint16_t offset;
+ double slope;
+};
+
+#ifdef __cplusplus
+}
+#endif
diff --git a/src/ipa/raspberrypi/controller/histogram.cpp b/src/ipa/raspberrypi/controller/histogram.cpp
new file mode 100644
index 00000000..103d3f60
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/histogram.cpp
@@ -0,0 +1,64 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * histogram.cpp - histogram calculations
+ */
+#include <math.h>
+#include <stdio.h>
+
+#include "histogram.hpp"
+
+using namespace RPi;
+
+uint64_t Histogram::CumulativeFreq(double bin) const
+{
+ if (bin <= 0)
+ return 0;
+ else if (bin >= Bins())
+ return Total();
+ int b = (int)bin;
+ return cumulative_[b] +
+ (bin - b) * (cumulative_[b + 1] - cumulative_[b]);
+}
+
+double Histogram::Quantile(double q, int first, int last) const
+{
+ if (first == -1)
+ first = 0;
+ if (last == -1)
+ last = cumulative_.size() - 2;
+ assert(first <= last);
+ uint64_t items = q * Total();
+ while (first < last) // binary search to find the right bin
+ {
+ int middle = (first + last) / 2;
+ if (cumulative_[middle + 1] > items)
+ last = middle; // between first and middle
+ else
+ first = middle + 1; // after middle
+ }
+ assert(items >= cumulative_[first] && items <= cumulative_[last + 1]);
+ double frac = cumulative_[first + 1] == cumulative_[first] ? 0
+ : (double)(items - cumulative_[first]) /
+ (cumulative_[first + 1] - cumulative_[first]);
+ return first + frac;
+}
+
+double Histogram::InterQuantileMean(double q_lo, double q_hi) const
+{
+ assert(q_hi > q_lo);
+ double p_lo = Quantile(q_lo);
+ double p_hi = Quantile(q_hi, (int)p_lo);
+ double sum_bin_freq = 0, cumul_freq = 0;
+ for (double p_next = floor(p_lo) + 1.0; p_next <= ceil(p_hi);
+ p_lo = p_next, p_next += 1.0) {
+ int bin = floor(p_lo);
+ double freq = (cumulative_[bin + 1] - cumulative_[bin]) *
+ (std::min(p_next, p_hi) - p_lo);
+ sum_bin_freq += bin * freq;
+ cumul_freq += freq;
+ }
+ // add 0.5 to give an average for bin mid-points
+ return sum_bin_freq / cumul_freq + 0.5;
+}
diff --git a/src/ipa/raspberrypi/controller/histogram.hpp b/src/ipa/raspberrypi/controller/histogram.hpp
new file mode 100644
index 00000000..06fc3aa7
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/histogram.hpp
@@ -0,0 +1,44 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * histogram.hpp - histogram calculation interface
+ */
+#pragma once
+
+#include <stdint.h>
+#include <vector>
+#include <cassert>
+
+// A simple histogram class, for use in particular to find "quantiles" and
+// averages between "quantiles".
+
+namespace RPi {
+
+class Histogram
+{
+public:
+ template<typename T> Histogram(T *histogram, int num)
+ {
+ assert(num);
+ cumulative_.reserve(num + 1);
+ cumulative_.push_back(0);
+ for (int i = 0; i < num; i++)
+ cumulative_.push_back(cumulative_.back() +
+ histogram[i]);
+ }
+ uint32_t Bins() const { return cumulative_.size() - 1; }
+ uint64_t Total() const { return cumulative_[cumulative_.size() - 1]; }
+ // Cumulative frequency up to a (fractional) point in a bin.
+ uint64_t CumulativeFreq(double bin) const;
+ // Return the (fractional) bin of the point q (0 <= q <= 1) through the
+ // histogram. Optionally provide limits to help.
+ double Quantile(double q, int first = -1, int last = -1) const;
+ // Return the average histogram bin value between the two quantiles.
+ double InterQuantileMean(double q_lo, double q_hi) const;
+
+private:
+ std::vector<uint64_t> cumulative_;
+};
+
+} // namespace RPi
diff --git a/src/ipa/raspberrypi/controller/logging.hpp b/src/ipa/raspberrypi/controller/logging.hpp
new file mode 100644
index 00000000..f0d306b6
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/logging.hpp
@@ -0,0 +1,30 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019-2020, Raspberry Pi (Trading) Limited
+ *
+ * logging.hpp - logging macros
+ */
+#pragma once
+
+#include <iostream>
+
+#ifndef RPI_LOGGING_ENABLE
+#define RPI_LOGGING_ENABLE 0
+#endif
+
+#ifndef RPI_WARNING_ENABLE
+#define RPI_WARNING_ENABLE 1
+#endif
+
+#define RPI_LOG(stuff) \
+ do { \
+ if (RPI_LOGGING_ENABLE) \
+ std::cout << __FUNCTION__ << ": " << stuff << "\n"; \
+ } while (0)
+
+#define RPI_WARN(stuff) \
+ do { \
+ if (RPI_WARNING_ENABLE) \
+ std::cout << __FUNCTION__ << " ***WARNING*** " \
+ << stuff << "\n"; \
+ } while (0)
diff --git a/src/ipa/raspberrypi/controller/lux_status.h b/src/ipa/raspberrypi/controller/lux_status.h
new file mode 100644
index 00000000..8ccfd933
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/lux_status.h
@@ -0,0 +1,29 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * lux_status.h - Lux control algorithm status
+ */
+#pragma once
+
+// The "lux" algorithm looks at the (AGC) histogram statistics of the frame and
+// estimates the current lux level of the scene. It does this by a simple ratio
+// calculation comparing to a reference image that was taken in known conditions
+// with known statistics and a properly measured lux level. There is a slight
+// problem with aperture, in that it may be variable without the system knowing
+// or being aware of it. In this case an external application may set a
+// "current_aperture" value if it wishes, which would be used in place of the
+// (presumably meaningless) value in the image metadata.
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+struct LuxStatus {
+ double lux;
+ double aperture;
+};
+
+#ifdef __cplusplus
+}
+#endif
diff --git a/src/ipa/raspberrypi/controller/metadata.hpp b/src/ipa/raspberrypi/controller/metadata.hpp
new file mode 100644
index 00000000..1d7624a0
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/metadata.hpp
@@ -0,0 +1,77 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * metadata.hpp - general metadata class
+ */
+#pragma once
+
+// A simple class for carrying arbitrary metadata, for example about an image.
+
+#include <string>
+#include <mutex>
+#include <map>
+#include <memory>
+
+#include <boost/any.hpp>
+
+namespace RPi {
+
+class Metadata
+{
+public:
+ template<typename T> void Set(std::string const &tag, T const &value)
+ {
+ std::lock_guard<std::mutex> lock(mutex_);
+ data_[tag] = value;
+ }
+ template<typename T> int Get(std::string const &tag, T &value) const
+ {
+ std::lock_guard<std::mutex> lock(mutex_);
+ auto it = data_.find(tag);
+ if (it == data_.end())
+ return -1;
+ value = boost::any_cast<T>(it->second);
+ return 0;
+ }
+ void Clear()
+ {
+ std::lock_guard<std::mutex> lock(mutex_);
+ data_.clear();
+ }
+ Metadata &operator=(Metadata const &other)
+ {
+ std::lock_guard<std::mutex> lock(mutex_);
+ std::lock_guard<std::mutex> other_lock(other.mutex_);
+ data_ = other.data_;
+ return *this;
+ }
+ template<typename T> T *GetLocked(std::string const &tag)
+ {
+ // This allows in-place access to the Metadata contents,
+ // for which you should be holding the lock.
+ auto it = data_.find(tag);
+ if (it == data_.end())
+ return nullptr;
+ return boost::any_cast<T>(&it->second);
+ }
+ template<typename T>
+ void SetLocked(std::string const &tag, T const &value)
+ {
+ // Use this only if you're holding the lock yourself.
+ data_[tag] = value;
+ }
+ // Note: use of (lowercase) lock and unlock means you can create scoped
+ // locks with the standard lock classes.
+ // e.g. std::lock_guard<PisP::Metadata> lock(metadata)
+ void lock() { mutex_.lock(); }
+ void unlock() { mutex_.unlock(); }
+
+private:
+ mutable std::mutex mutex_;
+ std::map<std::string, boost::any> data_;
+};
+
+typedef std::shared_ptr<Metadata> MetadataPtr;
+
+} // namespace RPi
diff --git a/src/ipa/raspberrypi/controller/noise_status.h b/src/ipa/raspberrypi/controller/noise_status.h
new file mode 100644
index 00000000..8439a402
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/noise_status.h
@@ -0,0 +1,22 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * noise_status.h - Noise control algorithm status
+ */
+#pragma once
+
+// The "noise" algorithm stores an estimate of the noise profile for this image.
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+struct NoiseStatus {
+ double noise_constant;
+ double noise_slope;
+};
+
+#ifdef __cplusplus
+}
+#endif
diff --git a/src/ipa/raspberrypi/controller/pwl.cpp b/src/ipa/raspberrypi/controller/pwl.cpp
new file mode 100644
index 00000000..7e11d8f3
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/pwl.cpp
@@ -0,0 +1,216 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * pwl.cpp - piecewise linear functions
+ */
+
+#include <cassert>
+#include <stdexcept>
+
+#include "pwl.hpp"
+
+using namespace RPi;
+
+void Pwl::Read(boost::property_tree::ptree const &params)
+{
+ for (auto it = params.begin(); it != params.end(); it++) {
+ double x = it->second.get_value<double>();
+ assert(it == params.begin() || x > points_.back().x);
+ it++;
+ double y = it->second.get_value<double>();
+ points_.push_back(Point(x, y));
+ }
+ assert(points_.size() >= 2);
+}
+
+void Pwl::Append(double x, double y, const double eps)
+{
+ if (points_.empty() || points_.back().x + eps < x)
+ points_.push_back(Point(x, y));
+}
+
+void Pwl::Prepend(double x, double y, const double eps)
+{
+ if (points_.empty() || points_.front().x - eps > x)
+ points_.insert(points_.begin(), Point(x, y));
+}
+
+Pwl::Interval Pwl::Domain() const
+{
+ return Interval(points_[0].x, points_[points_.size() - 1].x);
+}
+
+Pwl::Interval Pwl::Range() const
+{
+ double lo = points_[0].y, hi = lo;
+ for (auto &p : points_)
+ lo = std::min(lo, p.y), hi = std::max(hi, p.y);
+ return Interval(lo, hi);
+}
+
+bool Pwl::Empty() const
+{
+ return points_.empty();
+}
+
+double Pwl::Eval(double x, int *span_ptr, bool update_span) const
+{
+ int span = findSpan(x, span_ptr && *span_ptr != -1
+ ? *span_ptr
+ : points_.size() / 2 - 1);
+ if (span_ptr && update_span)
+ *span_ptr = span;
+ return points_[span].y +
+ (x - points_[span].x) * (points_[span + 1].y - points_[span].y) /
+ (points_[span + 1].x - points_[span].x);
+}
+
+int Pwl::findSpan(double x, int span) const
+{
+ // Pwls are generally small, so linear search may well be faster than
+ // binary, though could review this if large PWls start turning up.
+ int last_span = points_.size() - 2;
+ // some algorithms may call us with span pointing directly at the last
+ // control point
+ span = std::max(0, std::min(last_span, span));
+ while (span < last_span && x >= points_[span + 1].x)
+ span++;
+ while (span && x < points_[span].x)
+ span--;
+ return span;
+}
+
+Pwl::PerpType Pwl::Invert(Point const &xy, Point &perp, int &span,
+ const double eps) const
+{
+ assert(span >= -1);
+ bool prev_off_end = false;
+ for (span = span + 1; span < (int)points_.size() - 1; span++) {
+ Point span_vec = points_[span + 1] - points_[span];
+ double t = ((xy - points_[span]) % span_vec) / span_vec.Len2();
+ if (t < -eps) // off the start of this span
+ {
+ if (span == 0) {
+ perp = points_[span];
+ return PerpType::Start;
+ } else if (prev_off_end) {
+ perp = points_[span];
+ return PerpType::Vertex;
+ }
+ } else if (t > 1 + eps) // off the end of this span
+ {
+ if (span == (int)points_.size() - 2) {
+ perp = points_[span + 1];
+ return PerpType::End;
+ }
+ prev_off_end = true;
+ } else // a true perpendicular
+ {
+ perp = points_[span] + span_vec * t;
+ return PerpType::Perpendicular;
+ }
+ }
+ return PerpType::None;
+}
+
+Pwl Pwl::Compose(Pwl const &other, const double eps) const
+{
+ double this_x = points_[0].x, this_y = points_[0].y;
+ int this_span = 0, other_span = other.findSpan(this_y, 0);
+ Pwl result({ { this_x, other.Eval(this_y, &other_span, false) } });
+ while (this_span != (int)points_.size() - 1) {
+ double dx = points_[this_span + 1].x - points_[this_span].x,
+ dy = points_[this_span + 1].y - points_[this_span].y;
+ if (abs(dy) > eps &&
+ other_span + 1 < (int)other.points_.size() &&
+ points_[this_span + 1].y >=
+ other.points_[other_span + 1].x + eps) {
+ // next control point in result will be where this
+ // function's y reaches the next span in other
+ this_x = points_[this_span].x +
+ (other.points_[other_span + 1].x -
+ points_[this_span].y) * dx / dy;
+ this_y = other.points_[++other_span].x;
+ } else if (abs(dy) > eps && other_span > 0 &&
+ points_[this_span + 1].y <=
+ other.points_[other_span - 1].x - eps) {
+ // next control point in result will be where this
+ // function's y reaches the previous span in other
+ this_x = points_[this_span].x +
+ (other.points_[other_span + 1].x -
+ points_[this_span].y) * dx / dy;
+ this_y = other.points_[--other_span].x;
+ } else {
+ // we stay in the same span in other
+ this_span++;
+ this_x = points_[this_span].x,
+ this_y = points_[this_span].y;
+ }
+ result.Append(this_x, other.Eval(this_y, &other_span, false),
+ eps);
+ }
+ return result;
+}
+
+void Pwl::Map(std::function<void(double x, double y)> f) const
+{
+ for (auto &pt : points_)
+ f(pt.x, pt.y);
+}
+
+void Pwl::Map2(Pwl const &pwl0, Pwl const &pwl1,
+ std::function<void(double x, double y0, double y1)> f)
+{
+ int span0 = 0, span1 = 0;
+ double x = std::min(pwl0.points_[0].x, pwl1.points_[0].x);
+ f(x, pwl0.Eval(x, &span0, false), pwl1.Eval(x, &span1, false));
+ while (span0 < (int)pwl0.points_.size() - 1 ||
+ span1 < (int)pwl1.points_.size() - 1) {
+ if (span0 == (int)pwl0.points_.size() - 1)
+ x = pwl1.points_[++span1].x;
+ else if (span1 == (int)pwl1.points_.size() - 1)
+ x = pwl0.points_[++span0].x;
+ else if (pwl0.points_[span0 + 1].x > pwl1.points_[span1 + 1].x)
+ x = pwl1.points_[++span1].x;
+ else
+ x = pwl0.points_[++span0].x;
+ f(x, pwl0.Eval(x, &span0, false), pwl1.Eval(x, &span1, false));
+ }
+}
+
+Pwl Pwl::Combine(Pwl const &pwl0, Pwl const &pwl1,
+ std::function<double(double x, double y0, double y1)> f,
+ const double eps)
+{
+ Pwl result;
+ Map2(pwl0, pwl1, [&](double x, double y0, double y1) {
+ result.Append(x, f(x, y0, y1), eps);
+ });
+ return result;
+}
+
+void Pwl::MatchDomain(Interval const &domain, bool clip, const double eps)
+{
+ int span = 0;
+ Prepend(domain.start, Eval(clip ? points_[0].x : domain.start, &span),
+ eps);
+ span = points_.size() - 2;
+ Append(domain.end, Eval(clip ? points_.back().x : domain.end, &span),
+ eps);
+}
+
+Pwl &Pwl::operator*=(double d)
+{
+ for (auto &pt : points_)
+ pt.y *= d;
+ return *this;
+}
+
+void Pwl::Debug(FILE *fp) const
+{
+ fprintf(fp, "Pwl {\n");
+ for (auto &p : points_)
+ fprintf(fp, "\t(%g, %g)\n", p.x, p.y);
+ fprintf(fp, "}\n");
+}
diff --git a/src/ipa/raspberrypi/controller/pwl.hpp b/src/ipa/raspberrypi/controller/pwl.hpp
new file mode 100644
index 00000000..bd7c7668
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/pwl.hpp
@@ -0,0 +1,109 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * pwl.hpp - piecewise linear functions interface
+ */
+#pragma once
+
+#include <math.h>
+#include <vector>
+
+#include <boost/property_tree/ptree.hpp>
+
+namespace RPi {
+
+class Pwl
+{
+public:
+ struct Interval {
+ Interval(double _start, double _end) : start(_start), end(_end)
+ {
+ }
+ double start, end;
+ bool Contains(double value)
+ {
+ return value >= start && value <= end;
+ }
+ double Clip(double value)
+ {
+ return value < start ? start
+ : (value > end ? end : value);
+ }
+ double Len() const { return end - start; }
+ };
+ struct Point {
+ Point() : x(0), y(0) {}
+ Point(double _x, double _y) : x(_x), y(_y) {}
+ double x, y;
+ Point operator-(Point const &p) const
+ {
+ return Point(x - p.x, y - p.y);
+ }
+ Point operator+(Point const &p) const
+ {
+ return Point(x + p.x, y + p.y);
+ }
+ double operator%(Point const &p) const
+ {
+ return x * p.x + y * p.y;
+ }
+ Point operator*(double f) const { return Point(x * f, y * f); }
+ Point operator/(double f) const { return Point(x / f, y / f); }
+ double Len2() const { return x * x + y * y; }
+ double Len() const { return sqrt(Len2()); }
+ };
+ Pwl() {}
+ Pwl(std::vector<Point> const &points) : points_(points) {}
+ void Read(boost::property_tree::ptree const &params);
+ void Append(double x, double y, const double eps = 1e-6);
+ void Prepend(double x, double y, const double eps = 1e-6);
+ Interval Domain() const;
+ Interval Range() const;
+ bool Empty() const;
+ // Evaluate Pwl, optionally supplying an initial guess for the
+ // "span". The "span" may be optionally be updated. If you want to know
+ // the "span" value but don't have an initial guess you can set it to
+ // -1.
+ double Eval(double x, int *span_ptr = nullptr,
+ bool update_span = true) const;
+ // Find perpendicular closest to xy, starting from span+1 so you can
+ // call it repeatedly to check for multiple closest points (set span to
+ // -1 on the first call). Also returns "pseudo" perpendiculars; see
+ // PerpType enum.
+ enum class PerpType {
+ None, // no perpendicular found
+ Start, // start of Pwl is closest point
+ End, // end of Pwl is closest point
+ Vertex, // vertex of Pwl is closest point
+ Perpendicular // true perpendicular found
+ };
+ PerpType Invert(Point const &xy, Point &perp, int &span,
+ const double eps = 1e-6) const;
+ // Compose two Pwls together, doing "this" first and "other" after.
+ Pwl Compose(Pwl const &other, const double eps = 1e-6) const;
+ // Apply function to (x,y) values at every control point.
+ void Map(std::function<void(double x, double y)> f) const;
+ // Apply function to (x, y0, y1) values wherever either Pwl has a
+ // control point.
+ static void Map2(Pwl const &pwl0, Pwl const &pwl1,
+ std::function<void(double x, double y0, double y1)> f);
+ // Combine two Pwls, meaning we create a new Pwl where the y values are
+ // given by running f wherever either has a knot.
+ static Pwl
+ Combine(Pwl const &pwl0, Pwl const &pwl1,
+ std::function<double(double x, double y0, double y1)> f,
+ const double eps = 1e-6);
+ // Make "this" match (at least) the given domain. Any extension my be
+ // clipped or linear.
+ void MatchDomain(Interval const &domain, bool clip = true,
+ const double eps = 1e-6);
+ Pwl &operator*=(double d);
+ void Debug(FILE *fp = stdout) const;
+
+private:
+ int findSpan(double x, int span) const;
+ std::vector<Point> points_;
+};
+
+} // namespace RPi
diff --git a/src/ipa/raspberrypi/controller/rpi/agc.cpp b/src/ipa/raspberrypi/controller/rpi/agc.cpp
new file mode 100644
index 00000000..a4742872
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/rpi/agc.cpp
@@ -0,0 +1,642 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * agc.cpp - AGC/AEC control algorithm
+ */
+
+#include <map>
+
+#include "linux/bcm2835-isp.h"
+
+#include "../awb_status.h"
+#include "../device_status.h"
+#include "../histogram.hpp"
+#include "../logging.hpp"
+#include "../lux_status.h"
+#include "../metadata.hpp"
+
+#include "agc.hpp"
+
+using namespace RPi;
+
+#define NAME "rpi.agc"
+
+#define PIPELINE_BITS 13 // seems to be a 13-bit pipeline
+
+void AgcMeteringMode::Read(boost::property_tree::ptree const &params)
+{
+ int num = 0;
+ for (auto &p : params.get_child("weights")) {
+ if (num == AGC_STATS_SIZE)
+ throw std::runtime_error("AgcConfig: too many weights");
+ weights[num++] = p.second.get_value<double>();
+ }
+ if (num != AGC_STATS_SIZE)
+ throw std::runtime_error("AgcConfig: insufficient weights");
+}
+
+static std::string
+read_metering_modes(std::map<std::string, AgcMeteringMode> &metering_modes,
+ boost::property_tree::ptree const &params)
+{
+ std::string first;
+ for (auto &p : params) {
+ AgcMeteringMode metering_mode;
+ metering_mode.Read(p.second);
+ metering_modes[p.first] = std::move(metering_mode);
+ if (first.empty())
+ first = p.first;
+ }
+ return first;
+}
+
+static int read_double_list(std::vector<double> &list,
+ boost::property_tree::ptree const &params)
+{
+ for (auto &p : params)
+ list.push_back(p.second.get_value<double>());
+ return list.size();
+}
+
+void AgcExposureMode::Read(boost::property_tree::ptree const &params)
+{
+ int num_shutters =
+ read_double_list(shutter, params.get_child("shutter"));
+ int num_ags = read_double_list(gain, params.get_child("gain"));
+ if (num_shutters < 2 || num_ags < 2)
+ throw std::runtime_error(
+ "AgcConfig: must have at least two entries in exposure profile");
+ if (num_shutters != num_ags)
+ throw std::runtime_error(
+ "AgcConfig: expect same number of exposure and gain entries in exposure profile");
+}
+
+static std::string
+read_exposure_modes(std::map<std::string, AgcExposureMode> &exposure_modes,
+ boost::property_tree::ptree const &params)
+{
+ std::string first;
+ for (auto &p : params) {
+ AgcExposureMode exposure_mode;
+ exposure_mode.Read(p.second);
+ exposure_modes[p.first] = std::move(exposure_mode);
+ if (first.empty())
+ first = p.first;
+ }
+ return first;
+}
+
+void AgcConstraint::Read(boost::property_tree::ptree const &params)
+{
+ std::string bound_string = params.get<std::string>("bound", "");
+ transform(bound_string.begin(), bound_string.end(),
+ bound_string.begin(), ::toupper);
+ if (bound_string != "UPPER" && bound_string != "LOWER")
+ throw std::runtime_error(
+ "AGC constraint type should be UPPER or LOWER");
+ bound = bound_string == "UPPER" ? Bound::UPPER : Bound::LOWER;
+ q_lo = params.get<double>("q_lo");
+ q_hi = params.get<double>("q_hi");
+ Y_target.Read(params.get_child("y_target"));
+}
+
+static AgcConstraintMode
+read_constraint_mode(boost::property_tree::ptree const &params)
+{
+ AgcConstraintMode mode;
+ for (auto &p : params) {
+ AgcConstraint constraint;
+ constraint.Read(p.second);
+ mode.push_back(std::move(constraint));
+ }
+ return mode;
+}
+
+static std::string read_constraint_modes(
+ std::map<std::string, AgcConstraintMode> &constraint_modes,
+ boost::property_tree::ptree const &params)
+{
+ std::string first;
+ for (auto &p : params) {
+ constraint_modes[p.first] = read_constraint_mode(p.second);
+ if (first.empty())
+ first = p.first;
+ }
+ return first;
+}
+
+void AgcConfig::Read(boost::property_tree::ptree const &params)
+{
+ RPI_LOG("AgcConfig");
+ default_metering_mode = read_metering_modes(
+ metering_modes, params.get_child("metering_modes"));
+ default_exposure_mode = read_exposure_modes(
+ exposure_modes, params.get_child("exposure_modes"));
+ default_constraint_mode = read_constraint_modes(
+ constraint_modes, params.get_child("constraint_modes"));
+ Y_target.Read(params.get_child("y_target"));
+ speed = params.get<double>("speed", 0.2);
+ startup_frames = params.get<uint16_t>("startup_frames", 10);
+ fast_reduce_threshold =
+ params.get<double>("fast_reduce_threshold", 0.4);
+ base_ev = params.get<double>("base_ev", 1.0);
+}
+
+Agc::Agc(Controller *controller)
+ : AgcAlgorithm(controller), metering_mode_(nullptr),
+ exposure_mode_(nullptr), constraint_mode_(nullptr),
+ frame_count_(0), lock_count_(0)
+{
+ ev_ = status_.ev = 1.0;
+ flicker_period_ = status_.flicker_period = 0.0;
+ fixed_shutter_ = status_.fixed_shutter = 0;
+ fixed_analogue_gain_ = status_.fixed_analogue_gain = 0.0;
+ // set to zero initially, so we can tell it's not been calculated
+ status_.total_exposure_value = 0.0;
+ status_.target_exposure_value = 0.0;
+ status_.locked = false;
+ output_status_ = status_;
+}
+
+char const *Agc::Name() const
+{
+ return NAME;
+}
+
+void Agc::Read(boost::property_tree::ptree const &params)
+{
+ RPI_LOG("Agc");
+ config_.Read(params);
+ // Set the config's defaults (which are the first ones it read) as our
+ // current modes, until someone changes them. (they're all known to
+ // exist at this point)
+ metering_mode_name_ = config_.default_metering_mode;
+ metering_mode_ = &config_.metering_modes[metering_mode_name_];
+ exposure_mode_name_ = config_.default_exposure_mode;
+ exposure_mode_ = &config_.exposure_modes[exposure_mode_name_];
+ constraint_mode_name_ = config_.default_constraint_mode;
+ constraint_mode_ = &config_.constraint_modes[constraint_mode_name_];
+}
+
+void Agc::SetEv(double ev)
+{
+ std::unique_lock<std::mutex> lock(settings_mutex_);
+ ev_ = ev;
+}
+
+void Agc::SetFlickerPeriod(double flicker_period)
+{
+ std::unique_lock<std::mutex> lock(settings_mutex_);
+ flicker_period_ = flicker_period;
+}
+
+void Agc::SetFixedShutter(double fixed_shutter)
+{
+ std::unique_lock<std::mutex> lock(settings_mutex_);
+ fixed_shutter_ = fixed_shutter;
+}
+
+void Agc::SetFixedAnalogueGain(double fixed_analogue_gain)
+{
+ std::unique_lock<std::mutex> lock(settings_mutex_);
+ fixed_analogue_gain_ = fixed_analogue_gain;
+}
+
+void Agc::SetMeteringMode(std::string const &metering_mode_name)
+{
+ std::unique_lock<std::mutex> lock(settings_mutex_);
+ metering_mode_name_ = metering_mode_name;
+}
+
+void Agc::SetExposureMode(std::string const &exposure_mode_name)
+{
+ std::unique_lock<std::mutex> lock(settings_mutex_);
+ exposure_mode_name_ = exposure_mode_name;
+}
+
+void Agc::SetConstraintMode(std::string const &constraint_mode_name)
+{
+ std::unique_lock<std::mutex> lock(settings_mutex_);
+ constraint_mode_name_ = constraint_mode_name;
+}
+
+void Agc::Prepare(Metadata *image_metadata)
+{
+ AgcStatus status;
+ {
+ std::unique_lock<std::mutex> lock(output_mutex_);
+ status = output_status_;
+ }
+ int lock_count = lock_count_;
+ lock_count_ = 0;
+ status.digital_gain = 1.0;
+ if (status_.total_exposure_value) {
+ // Process has run, so we have meaningful values.
+ DeviceStatus device_status;
+ if (image_metadata->Get("device.status", device_status) == 0) {
+ double actual_exposure = device_status.shutter_speed *
+ device_status.analogue_gain;
+ if (actual_exposure) {
+ status.digital_gain =
+ status_.total_exposure_value /
+ actual_exposure;
+ RPI_LOG("Want total exposure " << status_.total_exposure_value);
+ // Never ask for a gain < 1.0, and also impose
+ // some upper limit. Make it customisable?
+ status.digital_gain = std::max(
+ 1.0,
+ std::min(status.digital_gain, 4.0));
+ RPI_LOG("Actual exposure " << actual_exposure);
+ RPI_LOG("Use digital_gain " << status.digital_gain);
+ RPI_LOG("Effective exposure " << actual_exposure * status.digital_gain);
+ // Decide whether AEC/AGC has converged.
+ // Insist AGC is steady for MAX_LOCK_COUNT
+ // frames before we say we are "locked".
+ // (The hard-coded constants may need to
+ // become customisable.)
+ if (status.target_exposure_value) {
+#define MAX_LOCK_COUNT 3
+ double err = 0.10 * status.target_exposure_value + 200;
+ if (actual_exposure <
+ status.target_exposure_value + err
+ && actual_exposure >
+ status.target_exposure_value - err)
+ lock_count_ =
+ std::min(lock_count + 1,
+ MAX_LOCK_COUNT);
+ else if (actual_exposure <
+ status.target_exposure_value
+ + 1.5 * err &&
+ actual_exposure >
+ status.target_exposure_value
+ - 1.5 * err)
+ lock_count_ = lock_count;
+ RPI_LOG("Lock count: " << lock_count_);
+ }
+ }
+ } else
+ RPI_LOG(Name() << ": no device metadata");
+ status.locked = lock_count_ >= MAX_LOCK_COUNT;
+ //printf("%s\n", status.locked ? "+++++++++" : "-");
+ image_metadata->Set("agc.status", status);
+ }
+}
+
+void Agc::Process(StatisticsPtr &stats, Metadata *image_metadata)
+{
+ frame_count_++;
+ // First a little bit of housekeeping, fetching up-to-date settings and
+ // configuration, that kind of thing.
+ housekeepConfig();
+ // Get the current exposure values for the frame that's just arrived.
+ fetchCurrentExposure(image_metadata);
+ // Compute the total gain we require relative to the current exposure.
+ double gain, target_Y;
+ computeGain(stats.get(), image_metadata, gain, target_Y);
+ // Now compute the target (final) exposure which we think we want.
+ computeTargetExposure(gain);
+ // Some of the exposure has to be applied as digital gain, so work out
+ // what that is. This function also tells us whether it's decided to
+ // "desaturate" the image more quickly.
+ bool desaturate = applyDigitalGain(image_metadata, gain, target_Y);
+ // The results have to be filtered so as not to change too rapidly.
+ filterExposure(desaturate);
+ // The last thing is to divvy up the exposure value into a shutter time
+ // and analogue_gain, according to the current exposure mode.
+ divvyupExposure();
+ // Finally advertise what we've done.
+ writeAndFinish(image_metadata, desaturate);
+}
+
+static void copy_string(std::string const &s, char *d, size_t size)
+{
+ size_t length = s.copy(d, size - 1);
+ d[length] = '\0';
+}
+
+void Agc::housekeepConfig()
+{
+ // First fetch all the up-to-date settings, so no one else has to do it.
+ std::string new_exposure_mode_name, new_constraint_mode_name,
+ new_metering_mode_name;
+ {
+ std::unique_lock<std::mutex> lock(settings_mutex_);
+ new_metering_mode_name = metering_mode_name_;
+ new_exposure_mode_name = exposure_mode_name_;
+ new_constraint_mode_name = constraint_mode_name_;
+ status_.ev = ev_;
+ status_.fixed_shutter = fixed_shutter_;
+ status_.fixed_analogue_gain = fixed_analogue_gain_;
+ status_.flicker_period = flicker_period_;
+ }
+ RPI_LOG("ev " << status_.ev << " fixed_shutter "
+ << status_.fixed_shutter << " fixed_analogue_gain "
+ << status_.fixed_analogue_gain);
+ // Make sure the "mode" pointers point to the up-to-date things, if
+ // they've changed.
+ if (strcmp(new_metering_mode_name.c_str(), status_.metering_mode)) {
+ auto it = config_.metering_modes.find(new_metering_mode_name);
+ if (it == config_.metering_modes.end())
+ throw std::runtime_error("Agc: no metering mode " +
+ new_metering_mode_name);
+ metering_mode_ = &it->second;
+ copy_string(new_metering_mode_name, status_.metering_mode,
+ sizeof(status_.metering_mode));
+ }
+ if (strcmp(new_exposure_mode_name.c_str(), status_.exposure_mode)) {
+ auto it = config_.exposure_modes.find(new_exposure_mode_name);
+ if (it == config_.exposure_modes.end())
+ throw std::runtime_error("Agc: no exposure profile " +
+ new_exposure_mode_name);
+ exposure_mode_ = &it->second;
+ copy_string(new_exposure_mode_name, status_.exposure_mode,
+ sizeof(status_.exposure_mode));
+ }
+ if (strcmp(new_constraint_mode_name.c_str(), status_.constraint_mode)) {
+ auto it =
+ config_.constraint_modes.find(new_constraint_mode_name);
+ if (it == config_.constraint_modes.end())
+ throw std::runtime_error("Agc: no constraint list " +
+ new_constraint_mode_name);
+ constraint_mode_ = &it->second;
+ copy_string(new_constraint_mode_name, status_.constraint_mode,
+ sizeof(status_.constraint_mode));
+ }
+ RPI_LOG("exposure_mode "
+ << new_exposure_mode_name << " constraint_mode "
+ << new_constraint_mode_name << " metering_mode "
+ << new_metering_mode_name);
+}
+
+void Agc::fetchCurrentExposure(Metadata *image_metadata)
+{
+ std::unique_lock<Metadata> lock(*image_metadata);
+ DeviceStatus *device_status =
+ image_metadata->GetLocked<DeviceStatus>("device.status");
+ if (!device_status)
+ throw std::runtime_error("Agc: no device metadata");
+ current_.shutter = device_status->shutter_speed;
+ current_.analogue_gain = device_status->analogue_gain;
+ AgcStatus *agc_status =
+ image_metadata->GetLocked<AgcStatus>("agc.status");
+ current_.total_exposure = agc_status ? agc_status->total_exposure_value : 0;
+ current_.total_exposure_no_dg = current_.shutter * current_.analogue_gain;
+}
+
+static double compute_initial_Y(bcm2835_isp_stats *stats, Metadata *image_metadata,
+ double weights[])
+{
+ bcm2835_isp_stats_region *regions = stats->agc_stats;
+ struct AwbStatus awb;
+ awb.gain_r = awb.gain_g = awb.gain_b = 1.0; // in case no metadata
+ if (image_metadata->Get("awb.status", awb) != 0)
+ RPI_WARN("Agc: no AWB status found");
+ double Y_sum = 0, weight_sum = 0;
+ for (int i = 0; i < AGC_STATS_SIZE; i++) {
+ if (regions[i].counted == 0)
+ continue;
+ weight_sum += weights[i];
+ double Y = regions[i].r_sum * awb.gain_r * .299 +
+ regions[i].g_sum * awb.gain_g * .587 +
+ regions[i].b_sum * awb.gain_b * .114;
+ Y /= regions[i].counted;
+ Y_sum += Y * weights[i];
+ }
+ return Y_sum / weight_sum / (1 << PIPELINE_BITS);
+}
+
+// We handle extra gain through EV by adjusting our Y targets. However, you
+// simply can't monitor histograms once they get very close to (or beyond!)
+// saturation, so we clamp the Y targets to this value. It does mean that EV
+// increases don't necessarily do quite what you might expect in certain
+// (contrived) cases.
+
+#define EV_GAIN_Y_TARGET_LIMIT 0.9
+
+static double constraint_compute_gain(AgcConstraint &c, Histogram &h,
+ double lux, double ev_gain,
+ double &target_Y)
+{
+ target_Y = c.Y_target.Eval(c.Y_target.Domain().Clip(lux));
+ target_Y = std::min(EV_GAIN_Y_TARGET_LIMIT, target_Y * ev_gain);
+ double iqm = h.InterQuantileMean(c.q_lo, c.q_hi);
+ return (target_Y * NUM_HISTOGRAM_BINS) / iqm;
+}
+
+void Agc::computeGain(bcm2835_isp_stats *statistics, Metadata *image_metadata,
+ double &gain, double &target_Y)
+{
+ struct LuxStatus lux = {};
+ lux.lux = 400; // default lux level to 400 in case no metadata found
+ if (image_metadata->Get("lux.status", lux) != 0)
+ RPI_WARN("Agc: no lux level found");
+ Histogram h(statistics->hist[0].g_hist, NUM_HISTOGRAM_BINS);
+ double ev_gain = status_.ev * config_.base_ev;
+ // The initial gain and target_Y come from some of the regions. After
+ // that we consider the histogram constraints.
+ target_Y =
+ config_.Y_target.Eval(config_.Y_target.Domain().Clip(lux.lux));
+ target_Y = std::min(EV_GAIN_Y_TARGET_LIMIT, target_Y * ev_gain);
+ double initial_Y = compute_initial_Y(statistics, image_metadata,
+ metering_mode_->weights);
+ gain = std::min(10.0, target_Y / (initial_Y + .001));
+ RPI_LOG("Initially Y " << initial_Y << " target " << target_Y
+ << " gives gain " << gain);
+ for (auto &c : *constraint_mode_) {
+ double new_target_Y;
+ double new_gain =
+ constraint_compute_gain(c, h, lux.lux, ev_gain,
+ new_target_Y);
+ RPI_LOG("Constraint has target_Y "
+ << new_target_Y << " giving gain " << new_gain);
+ if (c.bound == AgcConstraint::Bound::LOWER &&
+ new_gain > gain) {
+ RPI_LOG("Lower bound constraint adopted");
+ gain = new_gain, target_Y = new_target_Y;
+ } else if (c.bound == AgcConstraint::Bound::UPPER &&
+ new_gain < gain) {
+ RPI_LOG("Upper bound constraint adopted");
+ gain = new_gain, target_Y = new_target_Y;
+ }
+ }
+ RPI_LOG("Final gain " << gain << " (target_Y " << target_Y << " ev "
+ << status_.ev << " base_ev " << config_.base_ev
+ << ")");
+}
+
+void Agc::computeTargetExposure(double gain)
+{
+ // The statistics reflect the image without digital gain, so the final
+ // total exposure we're aiming for is:
+ target_.total_exposure = current_.total_exposure_no_dg * gain;
+ // The final target exposure is also limited to what the exposure
+ // mode allows.
+ double max_total_exposure =
+ (status_.fixed_shutter != 0.0
+ ? status_.fixed_shutter
+ : exposure_mode_->shutter.back()) *
+ (status_.fixed_analogue_gain != 0.0
+ ? status_.fixed_analogue_gain
+ : exposure_mode_->gain.back());
+ target_.total_exposure = std::min(target_.total_exposure,
+ max_total_exposure);
+ RPI_LOG("Target total_exposure " << target_.total_exposure);
+}
+
+bool Agc::applyDigitalGain(Metadata *image_metadata, double gain,
+ double target_Y)
+{
+ double dg = 1.0;
+ // I think this pipeline subtracts black level and rescales before we
+ // get the stats, so no need to worry about it.
+ struct AwbStatus awb;
+ if (image_metadata->Get("awb.status", awb) == 0) {
+ double min_gain = std::min(awb.gain_r,
+ std::min(awb.gain_g, awb.gain_b));
+ dg *= std::max(1.0, 1.0 / min_gain);
+ } else
+ RPI_WARN("Agc: no AWB status found");
+ RPI_LOG("after AWB, target dg " << dg << " gain " << gain
+ << " target_Y " << target_Y);
+ // Finally, if we're trying to reduce exposure but the target_Y is
+ // "close" to 1.0, then the gain computed for that constraint will be
+ // only slightly less than one, because the measured Y can never be
+ // larger than 1.0. When this happens, demand a large digital gain so
+ // that the exposure can be reduced, de-saturating the image much more
+ // quickly (and we then approach the correct value more quickly from
+ // below).
+ bool desaturate = target_Y > config_.fast_reduce_threshold &&
+ gain < sqrt(target_Y);
+ if (desaturate)
+ dg /= config_.fast_reduce_threshold;
+ RPI_LOG("Digital gain " << dg << " desaturate? " << desaturate);
+ target_.total_exposure_no_dg = target_.total_exposure / dg;
+ RPI_LOG("Target total_exposure_no_dg " << target_.total_exposure_no_dg);
+ return desaturate;
+}
+
+void Agc::filterExposure(bool desaturate)
+{
+ double speed = frame_count_ <= config_.startup_frames ? 1.0 : config_.speed;
+ if (filtered_.total_exposure == 0.0) {
+ filtered_.total_exposure = target_.total_exposure;
+ filtered_.total_exposure_no_dg = target_.total_exposure_no_dg;
+ } else {
+ // If close to the result go faster, to save making so many
+ // micro-adjustments on the way. (Make this customisable?)
+ if (filtered_.total_exposure < 1.2 * target_.total_exposure &&
+ filtered_.total_exposure > 0.8 * target_.total_exposure)
+ speed = sqrt(speed);
+ filtered_.total_exposure = speed * target_.total_exposure +
+ filtered_.total_exposure * (1.0 - speed);
+ // When desaturing, take a big jump down in exposure_no_dg,
+ // which we'll hide with digital gain.
+ if (desaturate)
+ filtered_.total_exposure_no_dg =
+ target_.total_exposure_no_dg;
+ else
+ filtered_.total_exposure_no_dg =
+ speed * target_.total_exposure_no_dg +
+ filtered_.total_exposure_no_dg * (1.0 - speed);
+ }
+ // We can't let the no_dg exposure deviate too far below the
+ // total exposure, as there might not be enough digital gain available
+ // in the ISP to hide it (which will cause nasty oscillation).
+ if (filtered_.total_exposure_no_dg <
+ filtered_.total_exposure * config_.fast_reduce_threshold)
+ filtered_.total_exposure_no_dg = filtered_.total_exposure *
+ config_.fast_reduce_threshold;
+ RPI_LOG("After filtering, total_exposure " << filtered_.total_exposure <<
+ " no dg " << filtered_.total_exposure_no_dg);
+}
+
+void Agc::divvyupExposure()
+{
+ // Sending the fixed shutter/gain cases through the same code may seem
+ // unnecessary, but it will make more sense when extend this to cover
+ // variable aperture.
+ double exposure_value = filtered_.total_exposure_no_dg;
+ double shutter_time, analogue_gain;
+ shutter_time = status_.fixed_shutter != 0.0
+ ? status_.fixed_shutter
+ : exposure_mode_->shutter[0];
+ analogue_gain = status_.fixed_analogue_gain != 0.0
+ ? status_.fixed_analogue_gain
+ : exposure_mode_->gain[0];
+ if (shutter_time * analogue_gain < exposure_value) {
+ for (unsigned int stage = 1;
+ stage < exposure_mode_->gain.size(); stage++) {
+ if (status_.fixed_shutter == 0.0) {
+ if (exposure_mode_->shutter[stage] *
+ analogue_gain >=
+ exposure_value) {
+ shutter_time =
+ exposure_value / analogue_gain;
+ break;
+ }
+ shutter_time = exposure_mode_->shutter[stage];
+ }
+ if (status_.fixed_analogue_gain == 0.0) {
+ if (exposure_mode_->gain[stage] *
+ shutter_time >=
+ exposure_value) {
+ analogue_gain =
+ exposure_value / shutter_time;
+ break;
+ }
+ analogue_gain = exposure_mode_->gain[stage];
+ }
+ }
+ }
+ RPI_LOG("Divided up shutter and gain are " << shutter_time << " and "
+ << analogue_gain);
+ // Finally adjust shutter time for flicker avoidance (require both
+ // shutter and gain not to be fixed).
+ if (status_.fixed_shutter == 0.0 &&
+ status_.fixed_analogue_gain == 0.0 &&
+ status_.flicker_period != 0.0) {
+ int flicker_periods = shutter_time / status_.flicker_period;
+ if (flicker_periods > 0) {
+ double new_shutter_time = flicker_periods * status_.flicker_period;
+ analogue_gain *= shutter_time / new_shutter_time;
+ // We should still not allow the ag to go over the
+ // largest value in the exposure mode. Note that this
+ // may force more of the total exposure into the digital
+ // gain as a side-effect.
+ analogue_gain = std::min(analogue_gain,
+ exposure_mode_->gain.back());
+ shutter_time = new_shutter_time;
+ }
+ RPI_LOG("After flicker avoidance, shutter "
+ << shutter_time << " gain " << analogue_gain);
+ }
+ filtered_.shutter = shutter_time;
+ filtered_.analogue_gain = analogue_gain;
+}
+
+void Agc::writeAndFinish(Metadata *image_metadata, bool desaturate)
+{
+ status_.total_exposure_value = filtered_.total_exposure;
+ status_.target_exposure_value = desaturate ? 0 : target_.total_exposure_no_dg;
+ status_.shutter_time = filtered_.shutter;
+ status_.analogue_gain = filtered_.analogue_gain;
+ {
+ std::unique_lock<std::mutex> lock(output_mutex_);
+ output_status_ = status_;
+ }
+ // Write to metadata as well, in case anyone wants to update the camera
+ // immediately.
+ image_metadata->Set("agc.status", status_);
+ RPI_LOG("Output written, total exposure requested is "
+ << filtered_.total_exposure);
+ RPI_LOG("Camera exposure update: shutter time " << filtered_.shutter <<
+ " analogue gain " << filtered_.analogue_gain);
+}
+
+// Register algorithm with the system.
+static Algorithm *Create(Controller *controller)
+{
+ return (Algorithm *)new Agc(controller);
+}
+static RegisterAlgorithm reg(NAME, &Create);
diff --git a/src/ipa/raspberrypi/controller/rpi/agc.hpp b/src/ipa/raspberrypi/controller/rpi/agc.hpp
new file mode 100644
index 00000000..dbcefba6
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/rpi/agc.hpp
@@ -0,0 +1,123 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * agc.hpp - AGC/AEC control algorithm
+ */
+#pragma once
+
+#include <vector>
+#include <mutex>
+
+#include "../agc_algorithm.hpp"
+#include "../agc_status.h"
+#include "../pwl.hpp"
+
+// This is our implementation of AGC.
+
+// This is the number actually set up by the firmware, not the maximum possible
+// number (which is 16).
+
+#define AGC_STATS_SIZE 15
+
+namespace RPi {
+
+struct AgcMeteringMode {
+ double weights[AGC_STATS_SIZE];
+ void Read(boost::property_tree::ptree const &params);
+};
+
+struct AgcExposureMode {
+ std::vector<double> shutter;
+ std::vector<double> gain;
+ void Read(boost::property_tree::ptree const &params);
+};
+
+struct AgcConstraint {
+ enum class Bound { LOWER = 0, UPPER = 1 };
+ Bound bound;
+ double q_lo;
+ double q_hi;
+ Pwl Y_target;
+ void Read(boost::property_tree::ptree const &params);
+};
+
+typedef std::vector<AgcConstraint> AgcConstraintMode;
+
+struct AgcConfig {
+ void Read(boost::property_tree::ptree const &params);
+ std::map<std::string, AgcMeteringMode> metering_modes;
+ std::map<std::string, AgcExposureMode> exposure_modes;
+ std::map<std::string, AgcConstraintMode> constraint_modes;
+ Pwl Y_target;
+ double speed;
+ uint16_t startup_frames;
+ double max_change;
+ double min_change;
+ double fast_reduce_threshold;
+ double speed_up_threshold;
+ std::string default_metering_mode;
+ std::string default_exposure_mode;
+ std::string default_constraint_mode;
+ double base_ev;
+};
+
+class Agc : public AgcAlgorithm
+{
+public:
+ Agc(Controller *controller);
+ char const *Name() const override;
+ void Read(boost::property_tree::ptree const &params) override;
+ void SetEv(double ev) override;
+ void SetFlickerPeriod(double flicker_period) override;
+ void SetFixedShutter(double fixed_shutter) override; // microseconds
+ void SetFixedAnalogueGain(double fixed_analogue_gain) override;
+ void SetMeteringMode(std::string const &metering_mode_name) override;
+ void SetExposureMode(std::string const &exposure_mode_name) override;
+ void SetConstraintMode(std::string const &contraint_mode_name) override;
+ void Prepare(Metadata *image_metadata) override;
+ void Process(StatisticsPtr &stats, Metadata *image_metadata) override;
+
+private:
+ AgcConfig config_;
+ void housekeepConfig();
+ void fetchCurrentExposure(Metadata *image_metadata);
+ void computeGain(bcm2835_isp_stats *statistics, Metadata *image_metadata,
+ double &gain, double &target_Y);
+ void computeTargetExposure(double gain);
+ bool applyDigitalGain(Metadata *image_metadata, double gain,
+ double target_Y);
+ void filterExposure(bool desaturate);
+ void divvyupExposure();
+ void writeAndFinish(Metadata *image_metadata, bool desaturate);
+ AgcMeteringMode *metering_mode_;
+ AgcExposureMode *exposure_mode_;
+ AgcConstraintMode *constraint_mode_;
+ uint64_t frame_count_;
+ struct ExposureValues {
+ ExposureValues() : shutter(0), analogue_gain(0),
+ total_exposure(0), total_exposure_no_dg(0) {}
+ double shutter;
+ double analogue_gain;
+ double total_exposure;
+ double total_exposure_no_dg; // without digital gain
+ };
+ ExposureValues current_; // values for the current frame
+ ExposureValues target_; // calculate the values we want here
+ ExposureValues filtered_; // these values are filtered towards target
+ AgcStatus status_; // to "latch" settings so they can't change
+ AgcStatus output_status_; // the status we will write out
+ std::mutex output_mutex_;
+ int lock_count_;
+ // Below here the "settings" that applications can change.
+ std::mutex settings_mutex_;
+ std::string metering_mode_name_;
+ std::string exposure_mode_name_;
+ std::string constraint_mode_name_;
+ double ev_;
+ double flicker_period_;
+ double fixed_shutter_;
+ double fixed_analogue_gain_;
+};
+
+} // namespace RPi
diff --git a/src/ipa/raspberrypi/controller/rpi/alsc.cpp b/src/ipa/raspberrypi/controller/rpi/alsc.cpp
new file mode 100644
index 00000000..821a0ca3
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/rpi/alsc.cpp
@@ -0,0 +1,705 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * alsc.cpp - ALSC (auto lens shading correction) control algorithm
+ */
+#include <math.h>
+
+#include "../awb_status.h"
+#include "alsc.hpp"
+
+// Raspberry Pi ALSC (Auto Lens Shading Correction) algorithm.
+
+using namespace RPi;
+
+#define NAME "rpi.alsc"
+
+static const int X = ALSC_CELLS_X;
+static const int Y = ALSC_CELLS_Y;
+static const int XY = X * Y;
+static const double INSUFFICIENT_DATA = -1.0;
+
+Alsc::Alsc(Controller *controller)
+ : Algorithm(controller)
+{
+ async_abort_ = async_start_ = async_started_ = async_finished_ = false;
+ async_thread_ = std::thread(std::bind(&Alsc::asyncFunc, this));
+}
+
+Alsc::~Alsc()
+{
+ {
+ std::lock_guard<std::mutex> lock(mutex_);
+ async_abort_ = true;
+ async_signal_.notify_one();
+ }
+ async_thread_.join();
+}
+
+char const *Alsc::Name() const
+{
+ return NAME;
+}
+
+static void generate_lut(double *lut, boost::property_tree::ptree const &params)
+{
+ double cstrength = params.get<double>("corner_strength", 2.0);
+ if (cstrength <= 1.0)
+ throw std::runtime_error("Alsc: corner_strength must be > 1.0");
+ double asymmetry = params.get<double>("asymmetry", 1.0);
+ if (asymmetry < 0)
+ throw std::runtime_error("Alsc: asymmetry must be >= 0");
+ double f1 = cstrength - 1, f2 = 1 + sqrt(cstrength);
+ double R2 = X * Y / 4 * (1 + asymmetry * asymmetry);
+ int num = 0;
+ for (int y = 0; y < Y; y++) {
+ for (int x = 0; x < X; x++) {
+ double dy = y - Y / 2 + 0.5,
+ dx = (x - X / 2 + 0.5) * asymmetry;
+ double r2 = (dx * dx + dy * dy) / R2;
+ lut[num++] =
+ (f1 * r2 + f2) * (f1 * r2 + f2) /
+ (f2 * f2); // this reproduces the cos^4 rule
+ }
+ }
+}
+
+static void read_lut(double *lut, boost::property_tree::ptree const &params)
+{
+ int num = 0;
+ const int max_num = XY;
+ for (auto &p : params) {
+ if (num == max_num)
+ throw std::runtime_error(
+ "Alsc: too many entries in LSC table");
+ lut[num++] = p.second.get_value<double>();
+ }
+ if (num < max_num)
+ throw std::runtime_error("Alsc: too few entries in LSC table");
+}
+
+static void read_calibrations(std::vector<AlscCalibration> &calibrations,
+ boost::property_tree::ptree const &params,
+ std::string const &name)
+{
+ if (params.get_child_optional(name)) {
+ double last_ct = 0;
+ for (auto &p : params.get_child(name)) {
+ double ct = p.second.get<double>("ct");
+ if (ct <= last_ct)
+ throw std::runtime_error(
+ "Alsc: entries in " + name +
+ " must be in increasing ct order");
+ AlscCalibration calibration;
+ calibration.ct = last_ct = ct;
+ boost::property_tree::ptree const &table =
+ p.second.get_child("table");
+ int num = 0;
+ for (auto it = table.begin(); it != table.end(); it++) {
+ if (num == XY)
+ throw std::runtime_error(
+ "Alsc: too many values for ct " +
+ std::to_string(ct) + " in " +
+ name);
+ calibration.table[num++] =
+ it->second.get_value<double>();
+ }
+ if (num != XY)
+ throw std::runtime_error(
+ "Alsc: too few values for ct " +
+ std::to_string(ct) + " in " + name);
+ calibrations.push_back(calibration);
+ RPI_LOG("Read " << name << " calibration for ct "
+ << ct);
+ }
+ }
+}
+
+void Alsc::Read(boost::property_tree::ptree const &params)
+{
+ RPI_LOG("Alsc");
+ config_.frame_period = params.get<uint16_t>("frame_period", 12);
+ config_.startup_frames = params.get<uint16_t>("startup_frames", 10);
+ config_.speed = params.get<double>("speed", 0.05);
+ double sigma = params.get<double>("sigma", 0.01);
+ config_.sigma_Cr = params.get<double>("sigma_Cr", sigma);
+ config_.sigma_Cb = params.get<double>("sigma_Cb", sigma);
+ config_.min_count = params.get<double>("min_count", 10.0);
+ config_.min_G = params.get<uint16_t>("min_G", 50);
+ config_.omega = params.get<double>("omega", 1.3);
+ config_.n_iter = params.get<uint32_t>("n_iter", X + Y);
+ config_.luminance_strength =
+ params.get<double>("luminance_strength", 1.0);
+ for (int i = 0; i < XY; i++)
+ config_.luminance_lut[i] = 1.0;
+ if (params.get_child_optional("corner_strength"))
+ generate_lut(config_.luminance_lut, params);
+ else if (params.get_child_optional("luminance_lut"))
+ read_lut(config_.luminance_lut,
+ params.get_child("luminance_lut"));
+ else
+ RPI_WARN("Alsc: no luminance table - assume unity everywhere");
+ read_calibrations(config_.calibrations_Cr, params, "calibrations_Cr");
+ read_calibrations(config_.calibrations_Cb, params, "calibrations_Cb");
+ config_.default_ct = params.get<double>("default_ct", 4500.0);
+ config_.threshold = params.get<double>("threshold", 1e-3);
+}
+
+static void get_cal_table(double ct,
+ std::vector<AlscCalibration> const &calibrations,
+ double cal_table[XY]);
+static void resample_cal_table(double const cal_table_in[XY],
+ CameraMode const &camera_mode,
+ double cal_table_out[XY]);
+static void compensate_lambdas_for_cal(double const cal_table[XY],
+ double const old_lambdas[XY],
+ double new_lambdas[XY]);
+static void add_luminance_to_tables(double results[3][Y][X],
+ double const lambda_r[XY], double lambda_g,
+ double const lambda_b[XY],
+ double const luminance_lut[XY],
+ double luminance_strength);
+
+void Alsc::Initialise()
+{
+ RPI_LOG("Alsc");
+ frame_count2_ = frame_count_ = frame_phase_ = 0;
+ first_time_ = true;
+ // Initialise the lambdas. Each call to Process then restarts from the
+ // previous results. Also initialise the previous frame tables to the
+ // same harmless values.
+ for (int i = 0; i < XY; i++)
+ lambda_r_[i] = lambda_b_[i] = 1.0;
+}
+
+void Alsc::SwitchMode(CameraMode const &camera_mode)
+{
+ // There's a bit of a question what we should do if the "crop" of the
+ // camera mode has changed. Any calculation currently in flight would
+ // not be useful to the new mode, so arguably we should abort it, and
+ // generate a new table (like the "first_time" code already here). When
+ // the crop doesn't change, we can presumably just leave things
+ // alone. For now, I think we'll just wait and see. When the crop does
+ // change, any effects should be transient, and if they're not transient
+ // enough, we'll revisit the question then.
+ camera_mode_ = camera_mode;
+ if (first_time_) {
+ // On the first time, arrange for something sensible in the
+ // initial tables. Construct the tables for some default colour
+ // temperature. This echoes the code in doAlsc, without the
+ // adaptive algorithm.
+ double cal_table_r[XY], cal_table_b[XY], cal_table_tmp[XY];
+ get_cal_table(4000, config_.calibrations_Cr, cal_table_tmp);
+ resample_cal_table(cal_table_tmp, camera_mode_, cal_table_r);
+ get_cal_table(4000, config_.calibrations_Cb, cal_table_tmp);
+ resample_cal_table(cal_table_tmp, camera_mode_, cal_table_b);
+ compensate_lambdas_for_cal(cal_table_r, lambda_r_,
+ async_lambda_r_);
+ compensate_lambdas_for_cal(cal_table_b, lambda_b_,
+ async_lambda_b_);
+ add_luminance_to_tables(sync_results_, async_lambda_r_, 1.0,
+ async_lambda_b_, config_.luminance_lut,
+ config_.luminance_strength);
+ memcpy(prev_sync_results_, sync_results_,
+ sizeof(prev_sync_results_));
+ first_time_ = false;
+ }
+}
+
+void Alsc::fetchAsyncResults()
+{
+ RPI_LOG("Fetch ALSC results");
+ async_finished_ = false;
+ async_started_ = false;
+ memcpy(sync_results_, async_results_, sizeof(sync_results_));
+}
+
+static double get_ct(Metadata *metadata, double default_ct)
+{
+ AwbStatus awb_status;
+ awb_status.temperature_K = default_ct; // in case nothing found
+ if (metadata->Get("awb.status", awb_status) != 0)
+ RPI_WARN("Alsc: no AWB results found, using "
+ << awb_status.temperature_K);
+ else
+ RPI_LOG("Alsc: AWB results found, using "
+ << awb_status.temperature_K);
+ return awb_status.temperature_K;
+}
+
+static void copy_stats(bcm2835_isp_stats_region regions[XY], StatisticsPtr &stats,
+ AlscStatus const &status)
+{
+ bcm2835_isp_stats_region *input_regions = stats->awb_stats;
+ double *r_table = (double *)status.r;
+ double *g_table = (double *)status.g;
+ double *b_table = (double *)status.b;
+ for (int i = 0; i < XY; i++) {
+ regions[i].r_sum = input_regions[i].r_sum / r_table[i];
+ regions[i].g_sum = input_regions[i].g_sum / g_table[i];
+ regions[i].b_sum = input_regions[i].b_sum / b_table[i];
+ regions[i].counted = input_regions[i].counted;
+ // (don't care about the uncounted value)
+ }
+}
+
+void Alsc::restartAsync(StatisticsPtr &stats, Metadata *image_metadata)
+{
+ RPI_LOG("Starting ALSC thread");
+ // Get the current colour temperature. It's all we need from the
+ // metadata.
+ ct_ = get_ct(image_metadata, config_.default_ct);
+ // We have to copy the statistics here, dividing out our best guess of
+ // the LSC table that the pipeline applied to them.
+ AlscStatus alsc_status;
+ if (image_metadata->Get("alsc.status", alsc_status) != 0) {
+ RPI_WARN("No ALSC status found for applied gains!");
+ for (int y = 0; y < Y; y++)
+ for (int x = 0; x < X; x++) {
+ alsc_status.r[y][x] = 1.0;
+ alsc_status.g[y][x] = 1.0;
+ alsc_status.b[y][x] = 1.0;
+ }
+ }
+ copy_stats(statistics_, stats, alsc_status);
+ frame_phase_ = 0;
+ // copy the camera mode so it won't change during the calculations
+ async_camera_mode_ = camera_mode_;
+ async_start_ = true;
+ async_started_ = true;
+ async_signal_.notify_one();
+}
+
+void Alsc::Prepare(Metadata *image_metadata)
+{
+ // Count frames since we started, and since we last poked the async
+ // thread.
+ if (frame_count_ < (int)config_.startup_frames)
+ frame_count_++;
+ double speed = frame_count_ < (int)config_.startup_frames
+ ? 1.0
+ : config_.speed;
+ RPI_LOG("Alsc: frame_count " << frame_count_ << " speed " << speed);
+ {
+ std::unique_lock<std::mutex> lock(mutex_);
+ if (async_started_ && async_finished_) {
+ RPI_LOG("ALSC thread finished");
+ fetchAsyncResults();
+ }
+ }
+ // Apply IIR filter to results and program into the pipeline.
+ double *ptr = (double *)sync_results_,
+ *pptr = (double *)prev_sync_results_;
+ for (unsigned int i = 0;
+ i < sizeof(sync_results_) / sizeof(double); i++)
+ pptr[i] = speed * ptr[i] + (1.0 - speed) * pptr[i];
+ // Put output values into status metadata.
+ AlscStatus status;
+ memcpy(status.r, prev_sync_results_[0], sizeof(status.r));
+ memcpy(status.g, prev_sync_results_[1], sizeof(status.g));
+ memcpy(status.b, prev_sync_results_[2], sizeof(status.b));
+ image_metadata->Set("alsc.status", status);
+}
+
+void Alsc::Process(StatisticsPtr &stats, Metadata *image_metadata)
+{
+ // Count frames since we started, and since we last poked the async
+ // thread.
+ if (frame_phase_ < (int)config_.frame_period)
+ frame_phase_++;
+ if (frame_count2_ < (int)config_.startup_frames)
+ frame_count2_++;
+ RPI_LOG("Alsc: frame_phase " << frame_phase_);
+ if (frame_phase_ >= (int)config_.frame_period ||
+ frame_count2_ < (int)config_.startup_frames) {
+ std::unique_lock<std::mutex> lock(mutex_);
+ if (async_started_ == false) {
+ RPI_LOG("ALSC thread starting");
+ restartAsync(stats, image_metadata);
+ }
+ }
+}
+
+void Alsc::asyncFunc()
+{
+ while (true) {
+ {
+ std::unique_lock<std::mutex> lock(mutex_);
+ async_signal_.wait(lock, [&] {
+ return async_start_ || async_abort_;
+ });
+ async_start_ = false;
+ if (async_abort_)
+ break;
+ }
+ doAlsc();
+ {
+ std::lock_guard<std::mutex> lock(mutex_);
+ async_finished_ = true;
+ sync_signal_.notify_one();
+ }
+ }
+}
+
+void get_cal_table(double ct, std::vector<AlscCalibration> const &calibrations,
+ double cal_table[XY])
+{
+ if (calibrations.empty()) {
+ for (int i = 0; i < XY; i++)
+ cal_table[i] = 1.0;
+ RPI_LOG("Alsc: no calibrations found");
+ } else if (ct <= calibrations.front().ct) {
+ memcpy(cal_table, calibrations.front().table,
+ XY * sizeof(double));
+ RPI_LOG("Alsc: using calibration for "
+ << calibrations.front().ct);
+ } else if (ct >= calibrations.back().ct) {
+ memcpy(cal_table, calibrations.back().table,
+ XY * sizeof(double));
+ RPI_LOG("Alsc: using calibration for "
+ << calibrations.front().ct);
+ } else {
+ int idx = 0;
+ while (ct > calibrations[idx + 1].ct)
+ idx++;
+ double ct0 = calibrations[idx].ct,
+ ct1 = calibrations[idx + 1].ct;
+ RPI_LOG("Alsc: ct is " << ct << ", interpolating between "
+ << ct0 << " and " << ct1);
+ for (int i = 0; i < XY; i++)
+ cal_table[i] =
+ (calibrations[idx].table[i] * (ct1 - ct) +
+ calibrations[idx + 1].table[i] * (ct - ct0)) /
+ (ct1 - ct0);
+ }
+}
+
+void resample_cal_table(double const cal_table_in[XY],
+ CameraMode const &camera_mode, double cal_table_out[XY])
+{
+ // Precalculate and cache the x sampling locations and phases to save
+ // recomputing them on every row.
+ int x_lo[X], x_hi[X];
+ double xf[X];
+ double scale_x = camera_mode.sensor_width /
+ (camera_mode.width * camera_mode.scale_x);
+ double x_off = camera_mode.crop_x / (double)camera_mode.sensor_width;
+ double x = .5 / scale_x + x_off * X - .5;
+ double x_inc = 1 / scale_x;
+ for (int i = 0; i < X; i++, x += x_inc) {
+ x_lo[i] = floor(x);
+ xf[i] = x - x_lo[i];
+ x_hi[i] = std::min(x_lo[i] + 1, X - 1);
+ x_lo[i] = std::max(x_lo[i], 0);
+ }
+ // Now march over the output table generating the new values.
+ double scale_y = camera_mode.sensor_height /
+ (camera_mode.height * camera_mode.scale_y);
+ double y_off = camera_mode.crop_y / (double)camera_mode.sensor_height;
+ double y = .5 / scale_y + y_off * Y - .5;
+ double y_inc = 1 / scale_y;
+ for (int j = 0; j < Y; j++, y += y_inc) {
+ int y_lo = floor(y);
+ double yf = y - y_lo;
+ int y_hi = std::min(y_lo + 1, Y - 1);
+ y_lo = std::max(y_lo, 0);
+ double const *row_above = cal_table_in + X * y_lo;
+ double const *row_below = cal_table_in + X * y_hi;
+ for (int i = 0; i < X; i++) {
+ double above = row_above[x_lo[i]] * (1 - xf[i]) +
+ row_above[x_hi[i]] * xf[i];
+ double below = row_below[x_lo[i]] * (1 - xf[i]) +
+ row_below[x_hi[i]] * xf[i];
+ *(cal_table_out++) = above * (1 - yf) + below * yf;
+ }
+ }
+}
+
+// Calculate chrominance statistics (R/G and B/G) for each region.
+static_assert(XY == AWB_REGIONS, "ALSC/AWB statistics region mismatch");
+static void calculate_Cr_Cb(bcm2835_isp_stats_region *awb_region, double Cr[XY],
+ double Cb[XY], uint32_t min_count, uint16_t min_G)
+{
+ for (int i = 0; i < XY; i++) {
+ bcm2835_isp_stats_region &zone = awb_region[i];
+ if (zone.counted <= min_count ||
+ zone.g_sum / zone.counted <= min_G) {
+ Cr[i] = Cb[i] = INSUFFICIENT_DATA;
+ continue;
+ }
+ Cr[i] = zone.r_sum / (double)zone.g_sum;
+ Cb[i] = zone.b_sum / (double)zone.g_sum;
+ }
+}
+
+static void apply_cal_table(double const cal_table[XY], double C[XY])
+{
+ for (int i = 0; i < XY; i++)
+ if (C[i] != INSUFFICIENT_DATA)
+ C[i] *= cal_table[i];
+}
+
+void compensate_lambdas_for_cal(double const cal_table[XY],
+ double const old_lambdas[XY],
+ double new_lambdas[XY])
+{
+ double min_new_lambda = std::numeric_limits<double>::max();
+ for (int i = 0; i < XY; i++) {
+ new_lambdas[i] = old_lambdas[i] * cal_table[i];
+ min_new_lambda = std::min(min_new_lambda, new_lambdas[i]);
+ }
+ for (int i = 0; i < XY; i++)
+ new_lambdas[i] /= min_new_lambda;
+}
+
+static void print_cal_table(double const C[XY])
+{
+ printf("table: [\n");
+ for (int j = 0; j < Y; j++) {
+ for (int i = 0; i < X; i++) {
+ printf("%5.3f", 1.0 / C[j * X + i]);
+ if (i != X - 1 || j != Y - 1)
+ printf(",");
+ }
+ printf("\n");
+ }
+ printf("]\n");
+}
+
+// Compute weight out of 1.0 which reflects how similar we wish to make the
+// colours of these two regions.
+static double compute_weight(double C_i, double C_j, double sigma)
+{
+ if (C_i == INSUFFICIENT_DATA || C_j == INSUFFICIENT_DATA)
+ return 0;
+ double diff = (C_i - C_j) / sigma;
+ return exp(-diff * diff / 2);
+}
+
+// Compute all weights.
+static void compute_W(double const C[XY], double sigma, double W[XY][4])
+{
+ for (int i = 0; i < XY; i++) {
+ // Start with neighbour above and go clockwise.
+ W[i][0] = i >= X ? compute_weight(C[i], C[i - X], sigma) : 0;
+ W[i][1] = i % X < X - 1 ? compute_weight(C[i], C[i + 1], sigma)
+ : 0;
+ W[i][2] =
+ i < XY - X ? compute_weight(C[i], C[i + X], sigma) : 0;
+ W[i][3] = i % X ? compute_weight(C[i], C[i - 1], sigma) : 0;
+ }
+}
+
+// Compute M, the large but sparse matrix such that M * lambdas = 0.
+static void construct_M(double const C[XY], double const W[XY][4],
+ double M[XY][4])
+{
+ double epsilon = 0.001;
+ for (int i = 0; i < XY; i++) {
+ // Note how, if C[i] == INSUFFICIENT_DATA, the weights will all
+ // be zero so the equation is still set up correctly.
+ int m = !!(i >= X) + !!(i % X < X - 1) + !!(i < XY - X) +
+ !!(i % X); // total number of neighbours
+ // we'll divide the diagonal out straight away
+ double diagonal =
+ (epsilon + W[i][0] + W[i][1] + W[i][2] + W[i][3]) *
+ C[i];
+ M[i][0] = i >= X ? (W[i][0] * C[i - X] + epsilon / m * C[i]) /
+ diagonal
+ : 0;
+ M[i][1] = i % X < X - 1
+ ? (W[i][1] * C[i + 1] + epsilon / m * C[i]) /
+ diagonal
+ : 0;
+ M[i][2] = i < XY - X
+ ? (W[i][2] * C[i + X] + epsilon / m * C[i]) /
+ diagonal
+ : 0;
+ M[i][3] = i % X ? (W[i][3] * C[i - 1] + epsilon / m * C[i]) /
+ diagonal
+ : 0;
+ }
+}
+
+// In the compute_lambda_ functions, note that the matrix coefficients for the
+// left/right neighbours are zero down the left/right edges, so we don't need
+// need to test the i value to exclude them.
+static double compute_lambda_bottom(int i, double const M[XY][4],
+ double lambda[XY])
+{
+ return M[i][1] * lambda[i + 1] + M[i][2] * lambda[i + X] +
+ M[i][3] * lambda[i - 1];
+}
+static double compute_lambda_bottom_start(int i, double const M[XY][4],
+ double lambda[XY])
+{
+ return M[i][1] * lambda[i + 1] + M[i][2] * lambda[i + X];
+}
+static double compute_lambda_interior(int i, double const M[XY][4],
+ double lambda[XY])
+{
+ return M[i][0] * lambda[i - X] + M[i][1] * lambda[i + 1] +
+ M[i][2] * lambda[i + X] + M[i][3] * lambda[i - 1];
+}
+static double compute_lambda_top(int i, double const M[XY][4],
+ double lambda[XY])
+{
+ return M[i][0] * lambda[i - X] + M[i][1] * lambda[i + 1] +
+ M[i][3] * lambda[i - 1];
+}
+static double compute_lambda_top_end(int i, double const M[XY][4],
+ double lambda[XY])
+{
+ return M[i][0] * lambda[i - X] + M[i][3] * lambda[i - 1];
+}
+
+// Gauss-Seidel iteration with over-relaxation.
+static double gauss_seidel2_SOR(double const M[XY][4], double omega,
+ double lambda[XY])
+{
+ double old_lambda[XY];
+ for (int i = 0; i < XY; i++)
+ old_lambda[i] = lambda[i];
+ int i;
+ lambda[0] = compute_lambda_bottom_start(0, M, lambda);
+ for (i = 1; i < X; i++)
+ lambda[i] = compute_lambda_bottom(i, M, lambda);
+ for (; i < XY - X; i++)
+ lambda[i] = compute_lambda_interior(i, M, lambda);
+ for (; i < XY - 1; i++)
+ lambda[i] = compute_lambda_top(i, M, lambda);
+ lambda[i] = compute_lambda_top_end(i, M, lambda);
+ // Also solve the system from bottom to top, to help spread the updates
+ // better.
+ lambda[i] = compute_lambda_top_end(i, M, lambda);
+ for (i = XY - 2; i >= XY - X; i--)
+ lambda[i] = compute_lambda_top(i, M, lambda);
+ for (; i >= X; i--)
+ lambda[i] = compute_lambda_interior(i, M, lambda);
+ for (; i >= 1; i--)
+ lambda[i] = compute_lambda_bottom(i, M, lambda);
+ lambda[0] = compute_lambda_bottom_start(0, M, lambda);
+ double max_diff = 0;
+ for (int i = 0; i < XY; i++) {
+ lambda[i] = old_lambda[i] + (lambda[i] - old_lambda[i]) * omega;
+ if (fabs(lambda[i] - old_lambda[i]) > fabs(max_diff))
+ max_diff = lambda[i] - old_lambda[i];
+ }
+ return max_diff;
+}
+
+// Normalise the values so that the smallest value is 1.
+static void normalise(double *ptr, size_t n)
+{
+ double minval = ptr[0];
+ for (size_t i = 1; i < n; i++)
+ minval = std::min(minval, ptr[i]);
+ for (size_t i = 0; i < n; i++)
+ ptr[i] /= minval;
+}
+
+static void run_matrix_iterations(double const C[XY], double lambda[XY],
+ double const W[XY][4], double omega,
+ int n_iter, double threshold)
+{
+ double M[XY][4];
+ construct_M(C, W, M);
+ double last_max_diff = std::numeric_limits<double>::max();
+ for (int i = 0; i < n_iter; i++) {
+ double max_diff = fabs(gauss_seidel2_SOR(M, omega, lambda));
+ if (max_diff < threshold) {
+ RPI_LOG("Stop after " << i + 1 << " iterations");
+ break;
+ }
+ // this happens very occasionally (so make a note), though
+ // doesn't seem to matter
+ if (max_diff > last_max_diff)
+ RPI_LOG("Iteration " << i << ": max_diff gone up "
+ << last_max_diff << " to "
+ << max_diff);
+ last_max_diff = max_diff;
+ }
+ // We're going to normalise the lambdas so the smallest is 1. Not sure
+ // this is really necessary as they get renormalised later, but I
+ // suppose it does stop these quantities from wandering off...
+ normalise(lambda, XY);
+}
+
+static void add_luminance_rb(double result[XY], double const lambda[XY],
+ double const luminance_lut[XY],
+ double luminance_strength)
+{
+ for (int i = 0; i < XY; i++)
+ result[i] = lambda[i] *
+ ((luminance_lut[i] - 1) * luminance_strength + 1);
+}
+
+static void add_luminance_g(double result[XY], double lambda,
+ double const luminance_lut[XY],
+ double luminance_strength)
+{
+ for (int i = 0; i < XY; i++)
+ result[i] = lambda *
+ ((luminance_lut[i] - 1) * luminance_strength + 1);
+}
+
+void add_luminance_to_tables(double results[3][Y][X], double const lambda_r[XY],
+ double lambda_g, double const lambda_b[XY],
+ double const luminance_lut[XY],
+ double luminance_strength)
+{
+ add_luminance_rb((double *)results[0], lambda_r, luminance_lut,
+ luminance_strength);
+ add_luminance_g((double *)results[1], lambda_g, luminance_lut,
+ luminance_strength);
+ add_luminance_rb((double *)results[2], lambda_b, luminance_lut,
+ luminance_strength);
+ normalise((double *)results, 3 * XY);
+}
+
+void Alsc::doAlsc()
+{
+ double Cr[XY], Cb[XY], Wr[XY][4], Wb[XY][4], cal_table_r[XY],
+ cal_table_b[XY], cal_table_tmp[XY];
+ // Calculate our R/B ("Cr"/"Cb") colour statistics, and assess which are
+ // usable.
+ calculate_Cr_Cb(statistics_, Cr, Cb, config_.min_count, config_.min_G);
+ // Fetch the new calibrations (if any) for this CT. Resample them in
+ // case the camera mode is not full-frame.
+ get_cal_table(ct_, config_.calibrations_Cr, cal_table_tmp);
+ resample_cal_table(cal_table_tmp, async_camera_mode_, cal_table_r);
+ get_cal_table(ct_, config_.calibrations_Cb, cal_table_tmp);
+ resample_cal_table(cal_table_tmp, async_camera_mode_, cal_table_b);
+ // You could print out the cal tables for this image here, if you're
+ // tuning the algorithm...
+ (void)print_cal_table;
+ // Apply any calibration to the statistics, so the adaptive algorithm
+ // makes only the extra adjustments.
+ apply_cal_table(cal_table_r, Cr);
+ apply_cal_table(cal_table_b, Cb);
+ // Compute weights between zones.
+ compute_W(Cr, config_.sigma_Cr, Wr);
+ compute_W(Cb, config_.sigma_Cb, Wb);
+ // Run Gauss-Seidel iterations over the resulting matrix, for R and B.
+ run_matrix_iterations(Cr, lambda_r_, Wr, config_.omega, config_.n_iter,
+ config_.threshold);
+ run_matrix_iterations(Cb, lambda_b_, Wb, config_.omega, config_.n_iter,
+ config_.threshold);
+ // Fold the calibrated gains into our final lambda values. (Note that on
+ // the next run, we re-start with the lambda values that don't have the
+ // calibration gains included.)
+ compensate_lambdas_for_cal(cal_table_r, lambda_r_, async_lambda_r_);
+ compensate_lambdas_for_cal(cal_table_b, lambda_b_, async_lambda_b_);
+ // Fold in the luminance table at the appropriate strength.
+ add_luminance_to_tables(async_results_, async_lambda_r_, 1.0,
+ async_lambda_b_, config_.luminance_lut,
+ config_.luminance_strength);
+}
+
+// Register algorithm with the system.
+static Algorithm *Create(Controller *controller)
+{
+ return (Algorithm *)new Alsc(controller);
+}
+static RegisterAlgorithm reg(NAME, &Create);
diff --git a/src/ipa/raspberrypi/controller/rpi/alsc.hpp b/src/ipa/raspberrypi/controller/rpi/alsc.hpp
new file mode 100644
index 00000000..c8ed3d21
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/rpi/alsc.hpp
@@ -0,0 +1,104 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * alsc.hpp - ALSC (auto lens shading correction) control algorithm
+ */
+#pragma once
+
+#include <mutex>
+#include <condition_variable>
+#include <thread>
+
+#include "../algorithm.hpp"
+#include "../alsc_status.h"
+
+namespace RPi {
+
+// Algorithm to generate automagic LSC (Lens Shading Correction) tables.
+
+struct AlscCalibration {
+ double ct;
+ double table[ALSC_CELLS_X * ALSC_CELLS_Y];
+};
+
+struct AlscConfig {
+ // Only repeat the ALSC calculation every "this many" frames
+ uint16_t frame_period;
+ // number of initial frames for which speed taken as 1.0 (maximum)
+ uint16_t startup_frames;
+ // IIR filter speed applied to algorithm results
+ double speed;
+ double sigma_Cr;
+ double sigma_Cb;
+ double min_count;
+ uint16_t min_G;
+ double omega;
+ uint32_t n_iter;
+ double luminance_lut[ALSC_CELLS_X * ALSC_CELLS_Y];
+ double luminance_strength;
+ std::vector<AlscCalibration> calibrations_Cr;
+ std::vector<AlscCalibration> calibrations_Cb;
+ double default_ct; // colour temperature if no metadata found
+ double threshold; // iteration termination threshold
+};
+
+class Alsc : public Algorithm
+{
+public:
+ Alsc(Controller *controller = NULL);
+ ~Alsc();
+ char const *Name() const override;
+ void Initialise() override;
+ void SwitchMode(CameraMode const &camera_mode) override;
+ void Read(boost::property_tree::ptree const &params) override;
+ void Prepare(Metadata *image_metadata) override;
+ void Process(StatisticsPtr &stats, Metadata *image_metadata) override;
+
+private:
+ // configuration is read-only, and available to both threads
+ AlscConfig config_;
+ bool first_time_;
+ std::atomic<CameraMode> camera_mode_;
+ std::thread async_thread_;
+ void asyncFunc(); // asynchronous thread function
+ std::mutex mutex_;
+ CameraMode async_camera_mode_;
+ // condvar for async thread to wait on
+ std::condition_variable async_signal_;
+ // condvar for synchronous thread to wait on
+ std::condition_variable sync_signal_;
+ // for sync thread to check if async thread finished (requires mutex)
+ bool async_finished_;
+ // for async thread to check if it's been told to run (requires mutex)
+ bool async_start_;
+ // for async thread to check if it's been told to quit (requires mutex)
+ bool async_abort_;
+
+ // The following are only for the synchronous thread to use:
+ // for sync thread to note its has asked async thread to run
+ bool async_started_;
+ // counts up to frame_period before restarting the async thread
+ int frame_phase_;
+ // counts up to startup_frames
+ int frame_count_;
+ // counts up to startup_frames for Process method
+ int frame_count2_;
+ double sync_results_[3][ALSC_CELLS_Y][ALSC_CELLS_X];
+ double prev_sync_results_[3][ALSC_CELLS_Y][ALSC_CELLS_X];
+ // The following are for the asynchronous thread to use, though the main
+ // thread can set/reset them if the async thread is known to be idle:
+ void restartAsync(StatisticsPtr &stats, Metadata *image_metadata);
+ // copy out the results from the async thread so that it can be restarted
+ void fetchAsyncResults();
+ double ct_;
+ bcm2835_isp_stats_region statistics_[ALSC_CELLS_Y * ALSC_CELLS_X];
+ double async_results_[3][ALSC_CELLS_Y][ALSC_CELLS_X];
+ double async_lambda_r_[ALSC_CELLS_X * ALSC_CELLS_Y];
+ double async_lambda_b_[ALSC_CELLS_X * ALSC_CELLS_Y];
+ void doAlsc();
+ double lambda_r_[ALSC_CELLS_X * ALSC_CELLS_Y];
+ double lambda_b_[ALSC_CELLS_X * ALSC_CELLS_Y];
+};
+
+} // namespace RPi
diff --git a/src/ipa/raspberrypi/controller/rpi/awb.cpp b/src/ipa/raspberrypi/controller/rpi/awb.cpp
new file mode 100644
index 00000000..a58fa11d
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/rpi/awb.cpp
@@ -0,0 +1,608 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * awb.cpp - AWB control algorithm
+ */
+
+#include "../logging.hpp"
+#include "../lux_status.h"
+
+#include "awb.hpp"
+
+using namespace RPi;
+
+#define NAME "rpi.awb"
+
+#define AWB_STATS_SIZE_X DEFAULT_AWB_REGIONS_X
+#define AWB_STATS_SIZE_Y DEFAULT_AWB_REGIONS_Y
+
+const double Awb::RGB::INVALID = -1.0;
+
+void AwbMode::Read(boost::property_tree::ptree const &params)
+{
+ ct_lo = params.get<double>("lo");
+ ct_hi = params.get<double>("hi");
+}
+
+void AwbPrior::Read(boost::property_tree::ptree const &params)
+{
+ lux = params.get<double>("lux");
+ prior.Read(params.get_child("prior"));
+}
+
+static void read_ct_curve(Pwl &ct_r, Pwl &ct_b,
+ boost::property_tree::ptree const &params)
+{
+ int num = 0;
+ for (auto it = params.begin(); it != params.end(); it++) {
+ double ct = it->second.get_value<double>();
+ assert(it == params.begin() || ct != ct_r.Domain().end);
+ if (++it == params.end())
+ throw std::runtime_error(
+ "AwbConfig: incomplete CT curve entry");
+ ct_r.Append(ct, it->second.get_value<double>());
+ if (++it == params.end())
+ throw std::runtime_error(
+ "AwbConfig: incomplete CT curve entry");
+ ct_b.Append(ct, it->second.get_value<double>());
+ num++;
+ }
+ if (num < 2)
+ throw std::runtime_error(
+ "AwbConfig: insufficient points in CT curve");
+}
+
+void AwbConfig::Read(boost::property_tree::ptree const &params)
+{
+ RPI_LOG("AwbConfig");
+ bayes = params.get<int>("bayes", 1);
+ frame_period = params.get<uint16_t>("frame_period", 10);
+ startup_frames = params.get<uint16_t>("startup_frames", 10);
+ speed = params.get<double>("speed", 0.05);
+ if (params.get_child_optional("ct_curve"))
+ read_ct_curve(ct_r, ct_b, params.get_child("ct_curve"));
+ if (params.get_child_optional("priors")) {
+ for (auto &p : params.get_child("priors")) {
+ AwbPrior prior;
+ prior.Read(p.second);
+ if (!priors.empty() && prior.lux <= priors.back().lux)
+ throw std::runtime_error(
+ "AwbConfig: Prior must be ordered in increasing lux value");
+ priors.push_back(prior);
+ }
+ if (priors.empty())
+ throw std::runtime_error(
+ "AwbConfig: no AWB priors configured");
+ }
+ if (params.get_child_optional("modes")) {
+ for (auto &p : params.get_child("modes")) {
+ modes[p.first].Read(p.second);
+ if (default_mode == nullptr)
+ default_mode = &modes[p.first];
+ }
+ if (default_mode == nullptr)
+ throw std::runtime_error(
+ "AwbConfig: no AWB modes configured");
+ }
+ min_pixels = params.get<double>("min_pixels", 16.0);
+ min_G = params.get<uint16_t>("min_G", 32);
+ min_regions = params.get<uint32_t>("min_regions", 10);
+ delta_limit = params.get<double>("delta_limit", 0.2);
+ coarse_step = params.get<double>("coarse_step", 0.2);
+ transverse_pos = params.get<double>("transverse_pos", 0.01);
+ transverse_neg = params.get<double>("transverse_neg", 0.01);
+ if (transverse_pos <= 0 || transverse_neg <= 0)
+ throw std::runtime_error(
+ "AwbConfig: transverse_pos/neg must be > 0");
+ sensitivity_r = params.get<double>("sensitivity_r", 1.0);
+ sensitivity_b = params.get<double>("sensitivity_b", 1.0);
+ if (bayes) {
+ if (ct_r.Empty() || ct_b.Empty() || priors.empty() ||
+ default_mode == nullptr) {
+ RPI_WARN(
+ "Bayesian AWB mis-configured - switch to Grey method");
+ bayes = false;
+ }
+ }
+ fast = params.get<int>(
+ "fast", bayes); // default to fast for Bayesian, otherwise slow
+ whitepoint_r = params.get<double>("whitepoint_r", 0.0);
+ whitepoint_b = params.get<double>("whitepoint_b", 0.0);
+ if (bayes == false)
+ sensitivity_r = sensitivity_b =
+ 1.0; // nor do sensitivities make any sense
+}
+
+Awb::Awb(Controller *controller)
+ : AwbAlgorithm(controller)
+{
+ async_abort_ = async_start_ = async_started_ = async_finished_ = false;
+ mode_ = nullptr;
+ manual_r_ = manual_b_ = 0.0;
+ async_thread_ = std::thread(std::bind(&Awb::asyncFunc, this));
+}
+
+Awb::~Awb()
+{
+ {
+ std::lock_guard<std::mutex> lock(mutex_);
+ async_abort_ = true;
+ async_signal_.notify_one();
+ }
+ async_thread_.join();
+}
+
+char const *Awb::Name() const
+{
+ return NAME;
+}
+
+void Awb::Read(boost::property_tree::ptree const &params)
+{
+ config_.Read(params);
+}
+
+void Awb::Initialise()
+{
+ frame_count2_ = frame_count_ = frame_phase_ = 0;
+ // Put something sane into the status that we are filtering towards,
+ // just in case the first few frames don't have anything meaningful in
+ // them.
+ if (!config_.ct_r.Empty() && !config_.ct_b.Empty()) {
+ sync_results_.temperature_K = config_.ct_r.Domain().Clip(4000);
+ sync_results_.gain_r =
+ 1.0 / config_.ct_r.Eval(sync_results_.temperature_K);
+ sync_results_.gain_g = 1.0;
+ sync_results_.gain_b =
+ 1.0 / config_.ct_b.Eval(sync_results_.temperature_K);
+ } else {
+ // random values just to stop the world blowing up
+ sync_results_.temperature_K = 4500;
+ sync_results_.gain_r = sync_results_.gain_g =
+ sync_results_.gain_b = 1.0;
+ }
+ prev_sync_results_ = sync_results_;
+}
+
+void Awb::SetMode(std::string const &mode_name)
+{
+ std::unique_lock<std::mutex> lock(settings_mutex_);
+ mode_name_ = mode_name;
+}
+
+void Awb::SetManualGains(double manual_r, double manual_b)
+{
+ std::unique_lock<std::mutex> lock(settings_mutex_);
+ // If any of these are 0.0, we swich back to auto.
+ manual_r_ = manual_r;
+ manual_b_ = manual_b;
+}
+
+void Awb::fetchAsyncResults()
+{
+ RPI_LOG("Fetch AWB results");
+ async_finished_ = false;
+ async_started_ = false;
+ sync_results_ = async_results_;
+}
+
+void Awb::restartAsync(StatisticsPtr &stats, std::string const &mode_name,
+ double lux)
+{
+ RPI_LOG("Starting AWB thread");
+ // this makes a new reference which belongs to the asynchronous thread
+ statistics_ = stats;
+ // store the mode as it could technically change
+ auto m = config_.modes.find(mode_name);
+ mode_ = m != config_.modes.end()
+ ? &m->second
+ : (mode_ == nullptr ? config_.default_mode : mode_);
+ lux_ = lux;
+ frame_phase_ = 0;
+ async_start_ = true;
+ async_started_ = true;
+ size_t len = mode_name.copy(async_results_.mode,
+ sizeof(async_results_.mode) - 1);
+ async_results_.mode[len] = '\0';
+ async_signal_.notify_one();
+}
+
+void Awb::Prepare(Metadata *image_metadata)
+{
+ if (frame_count_ < (int)config_.startup_frames)
+ frame_count_++;
+ double speed = frame_count_ < (int)config_.startup_frames
+ ? 1.0
+ : config_.speed;
+ RPI_LOG("Awb: frame_count " << frame_count_ << " speed " << speed);
+ {
+ std::unique_lock<std::mutex> lock(mutex_);
+ if (async_started_ && async_finished_) {
+ RPI_LOG("AWB thread finished");
+ fetchAsyncResults();
+ }
+ }
+ // Finally apply IIR filter to results and put into metadata.
+ memcpy(prev_sync_results_.mode, sync_results_.mode,
+ sizeof(prev_sync_results_.mode));
+ prev_sync_results_.temperature_K =
+ speed * sync_results_.temperature_K +
+ (1.0 - speed) * prev_sync_results_.temperature_K;
+ prev_sync_results_.gain_r = speed * sync_results_.gain_r +
+ (1.0 - speed) * prev_sync_results_.gain_r;
+ prev_sync_results_.gain_g = speed * sync_results_.gain_g +
+ (1.0 - speed) * prev_sync_results_.gain_g;
+ prev_sync_results_.gain_b = speed * sync_results_.gain_b +
+ (1.0 - speed) * prev_sync_results_.gain_b;
+ image_metadata->Set("awb.status", prev_sync_results_);
+ RPI_LOG("Using AWB gains r " << prev_sync_results_.gain_r << " g "
+ << prev_sync_results_.gain_g << " b "
+ << prev_sync_results_.gain_b);
+}
+
+void Awb::Process(StatisticsPtr &stats, Metadata *image_metadata)
+{
+ // Count frames since we last poked the async thread.
+ if (frame_phase_ < (int)config_.frame_period)
+ frame_phase_++;
+ if (frame_count2_ < (int)config_.startup_frames)
+ frame_count2_++;
+ RPI_LOG("Awb: frame_phase " << frame_phase_);
+ if (frame_phase_ >= (int)config_.frame_period ||
+ frame_count2_ < (int)config_.startup_frames) {
+ // Update any settings and any image metadata that we need.
+ std::string mode_name;
+ {
+ std::unique_lock<std::mutex> lock(settings_mutex_);
+ mode_name = mode_name_;
+ }
+ struct LuxStatus lux_status = {};
+ lux_status.lux = 400; // in case no metadata
+ if (image_metadata->Get("lux.status", lux_status) != 0)
+ RPI_LOG("No lux metadata found");
+ RPI_LOG("Awb lux value is " << lux_status.lux);
+
+ std::unique_lock<std::mutex> lock(mutex_);
+ if (async_started_ == false) {
+ RPI_LOG("AWB thread starting");
+ restartAsync(stats, mode_name, lux_status.lux);
+ }
+ }
+}
+
+void Awb::asyncFunc()
+{
+ while (true) {
+ {
+ std::unique_lock<std::mutex> lock(mutex_);
+ async_signal_.wait(lock, [&] {
+ return async_start_ || async_abort_;
+ });
+ async_start_ = false;
+ if (async_abort_)
+ break;
+ }
+ doAwb();
+ {
+ std::lock_guard<std::mutex> lock(mutex_);
+ async_finished_ = true;
+ sync_signal_.notify_one();
+ }
+ }
+}
+
+static void generate_stats(std::vector<Awb::RGB> &zones,
+ bcm2835_isp_stats_region *stats, double min_pixels,
+ double min_G)
+{
+ for (int i = 0; i < AWB_STATS_SIZE_X * AWB_STATS_SIZE_Y; i++) {
+ Awb::RGB zone; // this is "invalid", unless R gets overwritten later
+ double counted = stats[i].counted;
+ if (counted >= min_pixels) {
+ zone.G = stats[i].g_sum / counted;
+ if (zone.G >= min_G) {
+ zone.R = stats[i].r_sum / counted;
+ zone.B = stats[i].b_sum / counted;
+ }
+ }
+ zones.push_back(zone);
+ }
+}
+
+void Awb::prepareStats()
+{
+ zones_.clear();
+ // LSC has already been applied to the stats in this pipeline, so stop
+ // any LSC compensation. We also ignore config_.fast in this version.
+ generate_stats(zones_, statistics_->awb_stats, config_.min_pixels,
+ config_.min_G);
+ // we're done with these; we may as well relinquish our hold on the
+ // pointer.
+ statistics_.reset();
+ // apply sensitivities, so values appear to come from our "canonical"
+ // sensor.
+ for (auto &zone : zones_)
+ zone.R *= config_.sensitivity_r,
+ zone.B *= config_.sensitivity_b;
+}
+
+double Awb::computeDelta2Sum(double gain_r, double gain_b)
+{
+ // Compute the sum of the squared colour error (non-greyness) as it
+ // appears in the log likelihood equation.
+ double delta2_sum = 0;
+ for (auto &z : zones_) {
+ double delta_r = gain_r * z.R - 1 - config_.whitepoint_r;
+ double delta_b = gain_b * z.B - 1 - config_.whitepoint_b;
+ double delta2 = delta_r * delta_r + delta_b * delta_b;
+ //RPI_LOG("delta_r " << delta_r << " delta_b " << delta_b << " delta2 " << delta2);
+ delta2 = std::min(delta2, config_.delta_limit);
+ delta2_sum += delta2;
+ }
+ return delta2_sum;
+}
+
+Pwl Awb::interpolatePrior()
+{
+ // Interpolate the prior log likelihood function for our current lux
+ // value.
+ if (lux_ <= config_.priors.front().lux)
+ return config_.priors.front().prior;
+ else if (lux_ >= config_.priors.back().lux)
+ return config_.priors.back().prior;
+ else {
+ int idx = 0;
+ // find which two we lie between
+ while (config_.priors[idx + 1].lux < lux_)
+ idx++;
+ double lux0 = config_.priors[idx].lux,
+ lux1 = config_.priors[idx + 1].lux;
+ return Pwl::Combine(config_.priors[idx].prior,
+ config_.priors[idx + 1].prior,
+ [&](double /*x*/, double y0, double y1) {
+ return y0 + (y1 - y0) *
+ (lux_ - lux0) / (lux1 - lux0);
+ });
+ }
+}
+
+static double interpolate_quadatric(Pwl::Point const &A, Pwl::Point const &B,
+ Pwl::Point const &C)
+{
+ // Given 3 points on a curve, find the extremum of the function in that
+ // interval by fitting a quadratic.
+ const double eps = 1e-3;
+ Pwl::Point CA = C - A, BA = B - A;
+ double denominator = 2 * (BA.y * CA.x - CA.y * BA.x);
+ if (abs(denominator) > eps) {
+ double numerator = BA.y * CA.x * CA.x - CA.y * BA.x * BA.x;
+ double result = numerator / denominator + A.x;
+ return std::max(A.x, std::min(C.x, result));
+ }
+ // has degenerated to straight line segment
+ return A.y < C.y - eps ? A.x : (C.y < A.y - eps ? C.x : B.x);
+}
+
+double Awb::coarseSearch(Pwl const &prior)
+{
+ points_.clear(); // assume doesn't deallocate memory
+ size_t best_point = 0;
+ double t = mode_->ct_lo;
+ int span_r = 0, span_b = 0;
+ // Step down the CT curve evaluating log likelihood.
+ while (true) {
+ double r = config_.ct_r.Eval(t, &span_r);
+ double b = config_.ct_b.Eval(t, &span_b);
+ double gain_r = 1 / r, gain_b = 1 / b;
+ double delta2_sum = computeDelta2Sum(gain_r, gain_b);
+ double prior_log_likelihood =
+ prior.Eval(prior.Domain().Clip(t));
+ double final_log_likelihood = delta2_sum - prior_log_likelihood;
+ RPI_LOG("t: " << t << " gain_r " << gain_r << " gain_b "
+ << gain_b << " delta2_sum " << delta2_sum
+ << " prior " << prior_log_likelihood << " final "
+ << final_log_likelihood);
+ points_.push_back(Pwl::Point(t, final_log_likelihood));
+ if (points_.back().y < points_[best_point].y)
+ best_point = points_.size() - 1;
+ if (t == mode_->ct_hi)
+ break;
+ // for even steps along the r/b curve scale them by the current t
+ t = std::min(t + t / 10 * config_.coarse_step,
+ mode_->ct_hi);
+ }
+ t = points_[best_point].x;
+ RPI_LOG("Coarse search found CT " << t);
+ // We have the best point of the search, but refine it with a quadratic
+ // interpolation around its neighbours.
+ if (points_.size() > 2) {
+ unsigned long bp = std::min(best_point, points_.size() - 2);
+ best_point = std::max(1UL, bp);
+ t = interpolate_quadatric(points_[best_point - 1],
+ points_[best_point],
+ points_[best_point + 1]);
+ RPI_LOG("After quadratic refinement, coarse search has CT "
+ << t);
+ }
+ return t;
+}
+
+void Awb::fineSearch(double &t, double &r, double &b, Pwl const &prior)
+{
+ int span_r, span_b;
+ config_.ct_r.Eval(t, &span_r);
+ config_.ct_b.Eval(t, &span_b);
+ double step = t / 10 * config_.coarse_step * 0.1;
+ int nsteps = 5;
+ double r_diff = config_.ct_r.Eval(t + nsteps * step, &span_r) -
+ config_.ct_r.Eval(t - nsteps * step, &span_r);
+ double b_diff = config_.ct_b.Eval(t + nsteps * step, &span_b) -
+ config_.ct_b.Eval(t - nsteps * step, &span_b);
+ Pwl::Point transverse(b_diff, -r_diff);
+ if (transverse.Len2() < 1e-6)
+ return;
+ // unit vector orthogonal to the b vs. r function (pointing outwards
+ // with r and b increasing)
+ transverse = transverse / transverse.Len();
+ double best_log_likelihood = 0, best_t = 0, best_r = 0, best_b = 0;
+ double transverse_range =
+ config_.transverse_neg + config_.transverse_pos;
+ const int MAX_NUM_DELTAS = 12;
+ // a transverse step approximately every 0.01 r/b units
+ int num_deltas = floor(transverse_range * 100 + 0.5) + 1;
+ num_deltas = num_deltas < 3 ? 3 :
+ (num_deltas > MAX_NUM_DELTAS ? MAX_NUM_DELTAS : num_deltas);
+ // Step down CT curve. March a bit further if the transverse range is
+ // large.
+ nsteps += num_deltas;
+ for (int i = -nsteps; i <= nsteps; i++) {
+ double t_test = t + i * step;
+ double prior_log_likelihood =
+ prior.Eval(prior.Domain().Clip(t_test));
+ double r_curve = config_.ct_r.Eval(t_test, &span_r);
+ double b_curve = config_.ct_b.Eval(t_test, &span_b);
+ // x will be distance off the curve, y the log likelihood there
+ Pwl::Point points[MAX_NUM_DELTAS];
+ int best_point = 0;
+ // Take some measurements transversely *off* the CT curve.
+ for (int j = 0; j < num_deltas; j++) {
+ points[j].x = -config_.transverse_neg +
+ (transverse_range * j) / (num_deltas - 1);
+ Pwl::Point rb_test = Pwl::Point(r_curve, b_curve) +
+ transverse * points[j].x;
+ double r_test = rb_test.x, b_test = rb_test.y;
+ double gain_r = 1 / r_test, gain_b = 1 / b_test;
+ double delta2_sum = computeDelta2Sum(gain_r, gain_b);
+ points[j].y = delta2_sum - prior_log_likelihood;
+ RPI_LOG("At t " << t_test << " r " << r_test << " b "
+ << b_test << ": " << points[j].y);
+ if (points[j].y < points[best_point].y)
+ best_point = j;
+ }
+ // We have NUM_DELTAS points transversely across the CT curve,
+ // now let's do a quadratic interpolation for the best result.
+ best_point = std::max(1, std::min(best_point, num_deltas - 2));
+ Pwl::Point rb_test =
+ Pwl::Point(r_curve, b_curve) +
+ transverse *
+ interpolate_quadatric(points[best_point - 1],
+ points[best_point],
+ points[best_point + 1]);
+ double r_test = rb_test.x, b_test = rb_test.y;
+ double gain_r = 1 / r_test, gain_b = 1 / b_test;
+ double delta2_sum = computeDelta2Sum(gain_r, gain_b);
+ double final_log_likelihood = delta2_sum - prior_log_likelihood;
+ RPI_LOG("Finally "
+ << t_test << " r " << r_test << " b " << b_test << ": "
+ << final_log_likelihood
+ << (final_log_likelihood < best_log_likelihood ? " BEST"
+ : ""));
+ if (best_t == 0 || final_log_likelihood < best_log_likelihood)
+ best_log_likelihood = final_log_likelihood,
+ best_t = t_test, best_r = r_test, best_b = b_test;
+ }
+ t = best_t, r = best_r, b = best_b;
+ RPI_LOG("Fine search found t " << t << " r " << r << " b " << b);
+}
+
+void Awb::awbBayes()
+{
+ // May as well divide out G to save computeDelta2Sum from doing it over
+ // and over.
+ for (auto &z : zones_)
+ z.R = z.R / (z.G + 1), z.B = z.B / (z.G + 1);
+ // Get the current prior, and scale according to how many zones are
+ // valid... not entirely sure about this.
+ Pwl prior = interpolatePrior();
+ prior *= zones_.size() / (double)(AWB_STATS_SIZE_X * AWB_STATS_SIZE_Y);
+ prior.Map([](double x, double y) {
+ RPI_LOG("(" << x << "," << y << ")");
+ });
+ double t = coarseSearch(prior);
+ double r = config_.ct_r.Eval(t);
+ double b = config_.ct_b.Eval(t);
+ RPI_LOG("After coarse search: r " << r << " b " << b << " (gains r "
+ << 1 / r << " b " << 1 / b << ")");
+ // Not entirely sure how to handle the fine search yet. Mostly the
+ // estimated CT is already good enough, but the fine search allows us to
+ // wander transverely off the CT curve. Under some illuminants, where
+ // there may be more or less green light, this may prove beneficial,
+ // though I probably need more real datasets before deciding exactly how
+ // this should be controlled and tuned.
+ fineSearch(t, r, b, prior);
+ RPI_LOG("After fine search: r " << r << " b " << b << " (gains r "
+ << 1 / r << " b " << 1 / b << ")");
+ // Write results out for the main thread to pick up. Remember to adjust
+ // the gains from the ones that the "canonical sensor" would require to
+ // the ones needed by *this* sensor.
+ async_results_.temperature_K = t;
+ async_results_.gain_r = 1.0 / r * config_.sensitivity_r;
+ async_results_.gain_g = 1.0;
+ async_results_.gain_b = 1.0 / b * config_.sensitivity_b;
+}
+
+void Awb::awbGrey()
+{
+ RPI_LOG("Grey world AWB");
+ // Make a separate list of the derivatives for each of red and blue, so
+ // that we can sort them to exclude the extreme gains. We could
+ // consider some variations, such as normalising all the zones first, or
+ // doing an L2 average etc.
+ std::vector<RGB> &derivs_R(zones_);
+ std::vector<RGB> derivs_B(derivs_R);
+ std::sort(derivs_R.begin(), derivs_R.end(),
+ [](RGB const &a, RGB const &b) {
+ return a.G * b.R < b.G * a.R;
+ });
+ std::sort(derivs_B.begin(), derivs_B.end(),
+ [](RGB const &a, RGB const &b) {
+ return a.G * b.B < b.G * a.B;
+ });
+ // Average the middle half of the values.
+ int discard = derivs_R.size() / 4;
+ RGB sum_R(0, 0, 0), sum_B(0, 0, 0);
+ for (auto ri = derivs_R.begin() + discard,
+ bi = derivs_B.begin() + discard;
+ ri != derivs_R.end() - discard; ri++, bi++)
+ sum_R += *ri, sum_B += *bi;
+ double gain_r = sum_R.G / (sum_R.R + 1),
+ gain_b = sum_B.G / (sum_B.B + 1);
+ async_results_.temperature_K = 4500; // don't know what it is
+ async_results_.gain_r = gain_r;
+ async_results_.gain_g = 1.0;
+ async_results_.gain_b = gain_b;
+}
+
+void Awb::doAwb()
+{
+ if (manual_r_ != 0.0 && manual_b_ != 0.0) {
+ async_results_.temperature_K = 4500; // don't know what it is
+ async_results_.gain_r = manual_r_;
+ async_results_.gain_g = 1.0;
+ async_results_.gain_b = manual_b_;
+ RPI_LOG("Using manual white balance: gain_r "
+ << async_results_.gain_r << " gain_b "
+ << async_results_.gain_b);
+ } else {
+ prepareStats();
+ RPI_LOG("Valid zones: " << zones_.size());
+ if (zones_.size() > config_.min_regions) {
+ if (config_.bayes)
+ awbBayes();
+ else
+ awbGrey();
+ RPI_LOG("CT found is "
+ << async_results_.temperature_K
+ << " with gains r " << async_results_.gain_r
+ << " and b " << async_results_.gain_b);
+ }
+ }
+}
+
+// Register algorithm with the system.
+static Algorithm *Create(Controller *controller)
+{
+ return (Algorithm *)new Awb(controller);
+}
+static RegisterAlgorithm reg(NAME, &Create);
diff --git a/src/ipa/raspberrypi/controller/rpi/awb.hpp b/src/ipa/raspberrypi/controller/rpi/awb.hpp
new file mode 100644
index 00000000..36925252
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/rpi/awb.hpp
@@ -0,0 +1,178 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * awb.hpp - AWB control algorithm
+ */
+#pragma once
+
+#include <mutex>
+#include <condition_variable>
+#include <thread>
+
+#include "../awb_algorithm.hpp"
+#include "../pwl.hpp"
+#include "../awb_status.h"
+
+namespace RPi {
+
+// Control algorithm to perform AWB calculations.
+
+struct AwbMode {
+ void Read(boost::property_tree::ptree const &params);
+ double ct_lo; // low CT value for search
+ double ct_hi; // high CT value for search
+};
+
+struct AwbPrior {
+ void Read(boost::property_tree::ptree const &params);
+ double lux; // lux level
+ Pwl prior; // maps CT to prior log likelihood for this lux level
+};
+
+struct AwbConfig {
+ AwbConfig() : default_mode(nullptr) {}
+ void Read(boost::property_tree::ptree const &params);
+ // Only repeat the AWB calculation every "this many" frames
+ uint16_t frame_period;
+ // number of initial frames for which speed taken as 1.0 (maximum)
+ uint16_t startup_frames;
+ double speed; // IIR filter speed applied to algorithm results
+ bool fast; // "fast" mode uses a 16x16 rather than 32x32 grid
+ Pwl ct_r; // function maps CT to r (= R/G)
+ Pwl ct_b; // function maps CT to b (= B/G)
+ // table of illuminant priors at different lux levels
+ std::vector<AwbPrior> priors;
+ // AWB "modes" (determines the search range)
+ std::map<std::string, AwbMode> modes;
+ AwbMode *default_mode; // mode used if no mode selected
+ // minimum proportion of pixels counted within AWB region for it to be
+ // "useful"
+ double min_pixels;
+ // minimum G value of those pixels, to be regarded a "useful"
+ uint16_t min_G;
+ // number of AWB regions that must be "useful" in order to do the AWB
+ // calculation
+ uint32_t min_regions;
+ // clamp on colour error term (so as not to penalise non-grey excessively)
+ double delta_limit;
+ // step size control in coarse search
+ double coarse_step;
+ // how far to wander off CT curve towards "more purple"
+ double transverse_pos;
+ // how far to wander off CT curve towards "more green"
+ double transverse_neg;
+ // red sensitivity ratio (set to canonical sensor's R/G divided by this
+ // sensor's R/G)
+ double sensitivity_r;
+ // blue sensitivity ratio (set to canonical sensor's B/G divided by this
+ // sensor's B/G)
+ double sensitivity_b;
+ // The whitepoint (which we normally "aim" for) can be moved.
+ double whitepoint_r;
+ double whitepoint_b;
+ bool bayes; // use Bayesian algorithm
+};
+
+class Awb : public AwbAlgorithm
+{
+public:
+ Awb(Controller *controller = NULL);
+ ~Awb();
+ char const *Name() const override;
+ void Initialise() override;
+ void Read(boost::property_tree::ptree const &params) override;
+ void SetMode(std::string const &name) override;
+ void SetManualGains(double manual_r, double manual_b) override;
+ void Prepare(Metadata *image_metadata) override;
+ void Process(StatisticsPtr &stats, Metadata *image_metadata) override;
+ struct RGB {
+ RGB(double _R = INVALID, double _G = INVALID,
+ double _B = INVALID)
+ : R(_R), G(_G), B(_B)
+ {
+ }
+ double R, G, B;
+ static const double INVALID;
+ bool Valid() const { return G != INVALID; }
+ bool Invalid() const { return G == INVALID; }
+ RGB &operator+=(RGB const &other)
+ {
+ R += other.R, G += other.G, B += other.B;
+ return *this;
+ }
+ RGB Square() const { return RGB(R * R, G * G, B * B); }
+ };
+
+private:
+ // configuration is read-only, and available to both threads
+ AwbConfig config_;
+ std::thread async_thread_;
+ void asyncFunc(); // asynchronous thread function
+ std::mutex mutex_;
+ // condvar for async thread to wait on
+ std::condition_variable async_signal_;
+ // condvar for synchronous thread to wait on
+ std::condition_variable sync_signal_;
+ // for sync thread to check if async thread finished (requires mutex)
+ bool async_finished_;
+ // for async thread to check if it's been told to run (requires mutex)
+ bool async_start_;
+ // for async thread to check if it's been told to quit (requires mutex)
+ bool async_abort_;
+
+ // The following are only for the synchronous thread to use:
+ // for sync thread to note its has asked async thread to run
+ bool async_started_;
+ // counts up to frame_period before restarting the async thread
+ int frame_phase_;
+ int frame_count_; // counts up to startup_frames
+ int frame_count2_; // counts up to startup_frames for Process method
+ AwbStatus sync_results_;
+ AwbStatus prev_sync_results_;
+ std::string mode_name_;
+ std::mutex settings_mutex_;
+ // The following are for the asynchronous thread to use, though the main
+ // thread can set/reset them if the async thread is known to be idle:
+ void restartAsync(StatisticsPtr &stats, std::string const &mode_name,
+ double lux);
+ // copy out the results from the async thread so that it can be restarted
+ void fetchAsyncResults();
+ StatisticsPtr statistics_;
+ AwbMode *mode_;
+ double lux_;
+ AwbStatus async_results_;
+ void doAwb();
+ void awbBayes();
+ void awbGrey();
+ void prepareStats();
+ double computeDelta2Sum(double gain_r, double gain_b);
+ Pwl interpolatePrior();
+ double coarseSearch(Pwl const &prior);
+ void fineSearch(double &t, double &r, double &b, Pwl const &prior);
+ std::vector<RGB> zones_;
+ std::vector<Pwl::Point> points_;
+ // manual r setting
+ double manual_r_;
+ // manual b setting
+ double manual_b_;
+};
+
+static inline Awb::RGB operator+(Awb::RGB const &a, Awb::RGB const &b)
+{
+ return Awb::RGB(a.R + b.R, a.G + b.G, a.B + b.B);
+}
+static inline Awb::RGB operator-(Awb::RGB const &a, Awb::RGB const &b)
+{
+ return Awb::RGB(a.R - b.R, a.G - b.G, a.B - b.B);
+}
+static inline Awb::RGB operator*(double d, Awb::RGB const &rgb)
+{
+ return Awb::RGB(d * rgb.R, d * rgb.G, d * rgb.B);
+}
+static inline Awb::RGB operator*(Awb::RGB const &rgb, double d)
+{
+ return d * rgb;
+}
+
+} // namespace RPi
diff --git a/src/ipa/raspberrypi/controller/rpi/black_level.cpp b/src/ipa/raspberrypi/controller/rpi/black_level.cpp
new file mode 100644
index 00000000..59c9f5a6
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/rpi/black_level.cpp
@@ -0,0 +1,56 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * black_level.cpp - black level control algorithm
+ */
+
+#include <math.h>
+#include <stdint.h>
+
+#include "../black_level_status.h"
+#include "../logging.hpp"
+
+#include "black_level.hpp"
+
+using namespace RPi;
+
+#define NAME "rpi.black_level"
+
+BlackLevel::BlackLevel(Controller *controller)
+ : Algorithm(controller)
+{
+}
+
+char const *BlackLevel::Name() const
+{
+ return NAME;
+}
+
+void BlackLevel::Read(boost::property_tree::ptree const &params)
+{
+ RPI_LOG(Name());
+ uint16_t black_level = params.get<uint16_t>(
+ "black_level", 4096); // 64 in 10 bits scaled to 16 bits
+ black_level_r_ = params.get<uint16_t>("black_level_r", black_level);
+ black_level_g_ = params.get<uint16_t>("black_level_g", black_level);
+ black_level_b_ = params.get<uint16_t>("black_level_b", black_level);
+}
+
+void BlackLevel::Prepare(Metadata *image_metadata)
+{
+ // Possibly we should think about doing this in a switch_mode or
+ // something?
+ struct BlackLevelStatus status;
+ status.black_level_r = black_level_r_;
+ status.black_level_g = black_level_g_;
+ status.black_level_b = black_level_b_;
+ image_metadata->Set("black_level.status", status);
+}
+
+// Register algorithm with the system.
+static Algorithm *Create(Controller *controller)
+{
+ return new BlackLevel(controller);
+}
+static RegisterAlgorithm reg(NAME, &Create);
diff --git a/src/ipa/raspberrypi/controller/rpi/black_level.hpp b/src/ipa/raspberrypi/controller/rpi/black_level.hpp
new file mode 100644
index 00000000..5d74c6da
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/rpi/black_level.hpp
@@ -0,0 +1,30 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * black_level.hpp - black level control algorithm
+ */
+#pragma once
+
+#include "../algorithm.hpp"
+#include "../black_level_status.h"
+
+// This is our implementation of the "black level algorithm".
+
+namespace RPi {
+
+class BlackLevel : public Algorithm
+{
+public:
+ BlackLevel(Controller *controller);
+ char const *Name() const override;
+ void Read(boost::property_tree::ptree const &params) override;
+ void Prepare(Metadata *image_metadata) override;
+
+private:
+ double black_level_r_;
+ double black_level_g_;
+ double black_level_b_;
+};
+
+} // namespace RPi
diff --git a/src/ipa/raspberrypi/controller/rpi/ccm.cpp b/src/ipa/raspberrypi/controller/rpi/ccm.cpp
new file mode 100644
index 00000000..327cb71c
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/rpi/ccm.cpp
@@ -0,0 +1,163 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * ccm.cpp - CCM (colour correction matrix) control algorithm
+ */
+
+#include "../awb_status.h"
+#include "../ccm_status.h"
+#include "../logging.hpp"
+#include "../lux_status.h"
+#include "../metadata.hpp"
+
+#include "ccm.hpp"
+
+using namespace RPi;
+
+// This algorithm selects a CCM (Colour Correction Matrix) according to the
+// colour temperature estimated by AWB (interpolating between known matricies as
+// necessary). Additionally the amount of colour saturation can be controlled
+// both according to the current estimated lux level and according to a
+// saturation setting that is exposed to applications.
+
+#define NAME "rpi.ccm"
+
+Matrix::Matrix()
+{
+ memset(m, 0, sizeof(m));
+}
+Matrix::Matrix(double m0, double m1, double m2, double m3, double m4, double m5,
+ double m6, double m7, double m8)
+{
+ m[0][0] = m0, m[0][1] = m1, m[0][2] = m2, m[1][0] = m3, m[1][1] = m4,
+ m[1][2] = m5, m[2][0] = m6, m[2][1] = m7, m[2][2] = m8;
+}
+void Matrix::Read(boost::property_tree::ptree const &params)
+{
+ double *ptr = (double *)m;
+ int n = 0;
+ for (auto it = params.begin(); it != params.end(); it++) {
+ if (n++ == 9)
+ throw std::runtime_error("Ccm: too many values in CCM");
+ *ptr++ = it->second.get_value<double>();
+ }
+ if (n < 9)
+ throw std::runtime_error("Ccm: too few values in CCM");
+}
+
+Ccm::Ccm(Controller *controller)
+ : CcmAlgorithm(controller), saturation_(1.0) {}
+
+char const *Ccm::Name() const
+{
+ return NAME;
+}
+
+void Ccm::Read(boost::property_tree::ptree const &params)
+{
+ if (params.get_child_optional("saturation"))
+ config_.saturation.Read(params.get_child("saturation"));
+ for (auto &p : params.get_child("ccms")) {
+ CtCcm ct_ccm;
+ ct_ccm.ct = p.second.get<double>("ct");
+ ct_ccm.ccm.Read(p.second.get_child("ccm"));
+ if (!config_.ccms.empty() &&
+ ct_ccm.ct <= config_.ccms.back().ct)
+ throw std::runtime_error(
+ "Ccm: CCM not in increasing colour temperature order");
+ config_.ccms.push_back(std::move(ct_ccm));
+ }
+ if (config_.ccms.empty())
+ throw std::runtime_error("Ccm: no CCMs specified");
+}
+
+void Ccm::SetSaturation(double saturation)
+{
+ saturation_ = saturation;
+}
+
+void Ccm::Initialise() {}
+
+template<typename T>
+static bool get_locked(Metadata *metadata, std::string const &tag, T &value)
+{
+ T *ptr = metadata->GetLocked<T>(tag);
+ if (ptr == nullptr)
+ return false;
+ value = *ptr;
+ return true;
+}
+
+Matrix calculate_ccm(std::vector<CtCcm> const &ccms, double ct)
+{
+ if (ct <= ccms.front().ct)
+ return ccms.front().ccm;
+ else if (ct >= ccms.back().ct)
+ return ccms.back().ccm;
+ else {
+ int i = 0;
+ for (; ct > ccms[i].ct; i++)
+ ;
+ double lambda =
+ (ct - ccms[i - 1].ct) / (ccms[i].ct - ccms[i - 1].ct);
+ return lambda * ccms[i].ccm + (1.0 - lambda) * ccms[i - 1].ccm;
+ }
+}
+
+Matrix apply_saturation(Matrix const &ccm, double saturation)
+{
+ Matrix RGB2Y(0.299, 0.587, 0.114, -0.169, -0.331, 0.500, 0.500, -0.419,
+ -0.081);
+ Matrix Y2RGB(1.000, 0.000, 1.402, 1.000, -0.345, -0.714, 1.000, 1.771,
+ 0.000);
+ Matrix S(1, 0, 0, 0, saturation, 0, 0, 0, saturation);
+ return Y2RGB * S * RGB2Y * ccm;
+}
+
+void Ccm::Prepare(Metadata *image_metadata)
+{
+ bool awb_ok = false, lux_ok = false;
+ struct AwbStatus awb = {};
+ awb.temperature_K = 4000; // in case no metadata
+ struct LuxStatus lux = {};
+ lux.lux = 400; // in case no metadata
+ {
+ // grab mutex just once to get everything
+ std::lock_guard<Metadata> lock(*image_metadata);
+ awb_ok = get_locked(image_metadata, "awb.status", awb);
+ lux_ok = get_locked(image_metadata, "lux.status", lux);
+ }
+ if (!awb_ok)
+ RPI_WARN("Ccm: no colour temperature found");
+ if (!lux_ok)
+ RPI_WARN("Ccm: no lux value found");
+ Matrix ccm = calculate_ccm(config_.ccms, awb.temperature_K);
+ double saturation = saturation_;
+ struct CcmStatus ccm_status;
+ ccm_status.saturation = saturation;
+ if (!config_.saturation.Empty())
+ saturation *= config_.saturation.Eval(
+ config_.saturation.Domain().Clip(lux.lux));
+ ccm = apply_saturation(ccm, saturation);
+ for (int j = 0; j < 3; j++)
+ for (int i = 0; i < 3; i++)
+ ccm_status.matrix[j * 3 + i] =
+ std::max(-8.0, std::min(7.9999, ccm.m[j][i]));
+ RPI_LOG("CCM: colour temperature " << awb.temperature_K << "K");
+ RPI_LOG("CCM: " << ccm_status.matrix[0] << " " << ccm_status.matrix[1]
+ << " " << ccm_status.matrix[2] << " "
+ << ccm_status.matrix[3] << " " << ccm_status.matrix[4]
+ << " " << ccm_status.matrix[5] << " "
+ << ccm_status.matrix[6] << " " << ccm_status.matrix[7]
+ << " " << ccm_status.matrix[8]);
+ image_metadata->Set("ccm.status", ccm_status);
+}
+
+// Register algorithm with the system.
+static Algorithm *Create(Controller *controller)
+{
+ return (Algorithm *)new Ccm(controller);
+ ;
+}
+static RegisterAlgorithm reg(NAME, &Create);
diff --git a/src/ipa/raspberrypi/controller/rpi/ccm.hpp b/src/ipa/raspberrypi/controller/rpi/ccm.hpp
new file mode 100644
index 00000000..f6f4dee1
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/rpi/ccm.hpp
@@ -0,0 +1,76 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * ccm.hpp - CCM (colour correction matrix) control algorithm
+ */
+#pragma once
+
+#include <vector>
+#include <atomic>
+
+#include "../ccm_algorithm.hpp"
+#include "../pwl.hpp"
+
+namespace RPi {
+
+// Algorithm to calculate colour matrix. Should be placed after AWB.
+
+struct Matrix {
+ Matrix(double m0, double m1, double m2, double m3, double m4, double m5,
+ double m6, double m7, double m8);
+ Matrix();
+ double m[3][3];
+ void Read(boost::property_tree::ptree const &params);
+};
+static inline Matrix operator*(double d, Matrix const &m)
+{
+ return Matrix(m.m[0][0] * d, m.m[0][1] * d, m.m[0][2] * d,
+ m.m[1][0] * d, m.m[1][1] * d, m.m[1][2] * d,
+ m.m[2][0] * d, m.m[2][1] * d, m.m[2][2] * d);
+}
+static inline Matrix operator*(Matrix const &m1, Matrix const &m2)
+{
+ Matrix m;
+ for (int i = 0; i < 3; i++)
+ for (int j = 0; j < 3; j++)
+ m.m[i][j] = m1.m[i][0] * m2.m[0][j] +
+ m1.m[i][1] * m2.m[1][j] +
+ m1.m[i][2] * m2.m[2][j];
+ return m;
+}
+static inline Matrix operator+(Matrix const &m1, Matrix const &m2)
+{
+ Matrix m;
+ for (int i = 0; i < 3; i++)
+ for (int j = 0; j < 3; j++)
+ m.m[i][j] = m1.m[i][j] + m2.m[i][j];
+ return m;
+}
+
+struct CtCcm {
+ double ct;
+ Matrix ccm;
+};
+
+struct CcmConfig {
+ std::vector<CtCcm> ccms;
+ Pwl saturation;
+};
+
+class Ccm : public CcmAlgorithm
+{
+public:
+ Ccm(Controller *controller = NULL);
+ char const *Name() const override;
+ void Read(boost::property_tree::ptree const &params) override;
+ void SetSaturation(double saturation) override;
+ void Initialise() override;
+ void Prepare(Metadata *image_metadata) override;
+
+private:
+ CcmConfig config_;
+ std::atomic<double> saturation_;
+};
+
+} // namespace RPi
diff --git a/src/ipa/raspberrypi/controller/rpi/contrast.cpp b/src/ipa/raspberrypi/controller/rpi/contrast.cpp
new file mode 100644
index 00000000..e4967990
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/rpi/contrast.cpp
@@ -0,0 +1,176 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * contrast.cpp - contrast (gamma) control algorithm
+ */
+#include <stdint.h>
+
+#include "../contrast_status.h"
+#include "../histogram.hpp"
+
+#include "contrast.hpp"
+
+using namespace RPi;
+
+// This is a very simple control algorithm which simply retrieves the results of
+// AGC and AWB via their "status" metadata, and applies digital gain to the
+// colour channels in accordance with those instructions. We take care never to
+// apply less than unity gains, as that would cause fully saturated pixels to go
+// off-white.
+
+#define NAME "rpi.contrast"
+
+Contrast::Contrast(Controller *controller)
+ : ContrastAlgorithm(controller), brightness_(0.0), contrast_(1.0)
+{
+}
+
+char const *Contrast::Name() const
+{
+ return NAME;
+}
+
+void Contrast::Read(boost::property_tree::ptree const &params)
+{
+ // enable adaptive enhancement by default
+ config_.ce_enable = params.get<int>("ce_enable", 1);
+ // the point near the bottom of the histogram to move
+ config_.lo_histogram = params.get<double>("lo_histogram", 0.01);
+ // where in the range to try and move it to
+ config_.lo_level = params.get<double>("lo_level", 0.015);
+ // but don't move by more than this
+ config_.lo_max = params.get<double>("lo_max", 500);
+ // equivalent values for the top of the histogram...
+ config_.hi_histogram = params.get<double>("hi_histogram", 0.95);
+ config_.hi_level = params.get<double>("hi_level", 0.95);
+ config_.hi_max = params.get<double>("hi_max", 2000);
+ config_.gamma_curve.Read(params.get_child("gamma_curve"));
+}
+
+void Contrast::SetBrightness(double brightness)
+{
+ brightness_ = brightness;
+}
+
+void Contrast::SetContrast(double contrast)
+{
+ contrast_ = contrast;
+}
+
+static void fill_in_status(ContrastStatus &status, double brightness,
+ double contrast, Pwl &gamma_curve)
+{
+ status.brightness = brightness;
+ status.contrast = contrast;
+ for (int i = 0; i < CONTRAST_NUM_POINTS - 1; i++) {
+ int x = i < 16 ? i * 1024
+ : (i < 24 ? (i - 16) * 2048 + 16384
+ : (i - 24) * 4096 + 32768);
+ status.points[i].x = x;
+ status.points[i].y = std::min(65535.0, gamma_curve.Eval(x));
+ }
+ status.points[CONTRAST_NUM_POINTS - 1].x = 65535;
+ status.points[CONTRAST_NUM_POINTS - 1].y = 65535;
+}
+
+void Contrast::Initialise()
+{
+ // Fill in some default values as Prepare will run before Process gets
+ // called.
+ fill_in_status(status_, brightness_, contrast_, config_.gamma_curve);
+}
+
+void Contrast::Prepare(Metadata *image_metadata)
+{
+ std::unique_lock<std::mutex> lock(mutex_);
+ image_metadata->Set("contrast.status", status_);
+}
+
+Pwl compute_stretch_curve(Histogram const &histogram,
+ ContrastConfig const &config)
+{
+ Pwl enhance;
+ enhance.Append(0, 0);
+ // If the start of the histogram is rather empty, try to pull it down a
+ // bit.
+ double hist_lo = histogram.Quantile(config.lo_histogram) *
+ (65536 / NUM_HISTOGRAM_BINS);
+ double level_lo = config.lo_level * 65536;
+ RPI_LOG("Move histogram point " << hist_lo << " to " << level_lo);
+ hist_lo = std::max(
+ level_lo,
+ std::min(65535.0, std::min(hist_lo, level_lo + config.lo_max)));
+ RPI_LOG("Final values " << hist_lo << " -> " << level_lo);
+ enhance.Append(hist_lo, level_lo);
+ // Keep the mid-point (median) in the same place, though, to limit the
+ // apparent amount of global brightness shift.
+ double mid = histogram.Quantile(0.5) * (65536 / NUM_HISTOGRAM_BINS);
+ enhance.Append(mid, mid);
+
+ // If the top to the histogram is empty, try to pull the pixel values
+ // there up.
+ double hist_hi = histogram.Quantile(config.hi_histogram) *
+ (65536 / NUM_HISTOGRAM_BINS);
+ double level_hi = config.hi_level * 65536;
+ RPI_LOG("Move histogram point " << hist_hi << " to " << level_hi);
+ hist_hi = std::min(
+ level_hi,
+ std::max(0.0, std::max(hist_hi, level_hi - config.hi_max)));
+ RPI_LOG("Final values " << hist_hi << " -> " << level_hi);
+ enhance.Append(hist_hi, level_hi);
+ enhance.Append(65535, 65535);
+ return enhance;
+}
+
+Pwl apply_manual_contrast(Pwl const &gamma_curve, double brightness,
+ double contrast)
+{
+ Pwl new_gamma_curve;
+ RPI_LOG("Manual brightness " << brightness << " contrast " << contrast);
+ gamma_curve.Map([&](double x, double y) {
+ new_gamma_curve.Append(
+ x, std::max(0.0, std::min(65535.0,
+ (y - 32768) * contrast +
+ 32768 + brightness)));
+ });
+ return new_gamma_curve;
+}
+
+void Contrast::Process(StatisticsPtr &stats, Metadata *image_metadata)
+{
+ (void)image_metadata;
+ double brightness = brightness_, contrast = contrast_;
+ Histogram histogram(stats->hist[0].g_hist, NUM_HISTOGRAM_BINS);
+ // We look at the histogram and adjust the gamma curve in the following
+ // ways: 1. Adjust the gamma curve so as to pull the start of the
+ // histogram down, and possibly push the end up.
+ Pwl gamma_curve = config_.gamma_curve;
+ if (config_.ce_enable) {
+ if (config_.lo_max != 0 || config_.hi_max != 0)
+ gamma_curve = compute_stretch_curve(histogram, config_)
+ .Compose(gamma_curve);
+ // We could apply other adjustments (e.g. partial equalisation)
+ // based on the histogram...?
+ }
+ // 2. Finally apply any manually selected brightness/contrast
+ // adjustment.
+ if (brightness != 0 || contrast != 1.0)
+ gamma_curve = apply_manual_contrast(gamma_curve, brightness,
+ contrast);
+ // And fill in the status for output. Use more points towards the bottom
+ // of the curve.
+ ContrastStatus status;
+ fill_in_status(status, brightness, contrast, gamma_curve);
+ {
+ std::unique_lock<std::mutex> lock(mutex_);
+ status_ = status;
+ }
+}
+
+// Register algorithm with the system.
+static Algorithm *Create(Controller *controller)
+{
+ return (Algorithm *)new Contrast(controller);
+}
+static RegisterAlgorithm reg(NAME, &Create);
diff --git a/src/ipa/raspberrypi/controller/rpi/contrast.hpp b/src/ipa/raspberrypi/controller/rpi/contrast.hpp
new file mode 100644
index 00000000..2e38a762
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/rpi/contrast.hpp
@@ -0,0 +1,51 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * contrast.hpp - contrast (gamma) control algorithm
+ */
+#pragma once
+
+#include <atomic>
+#include <mutex>
+
+#include "../contrast_algorithm.hpp"
+#include "../pwl.hpp"
+
+namespace RPi {
+
+// Back End algorithm to appaly correct digital gain. Should be placed after
+// Back End AWB.
+
+struct ContrastConfig {
+ bool ce_enable;
+ double lo_histogram;
+ double lo_level;
+ double lo_max;
+ double hi_histogram;
+ double hi_level;
+ double hi_max;
+ Pwl gamma_curve;
+};
+
+class Contrast : public ContrastAlgorithm
+{
+public:
+ Contrast(Controller *controller = NULL);
+ char const *Name() const override;
+ void Read(boost::property_tree::ptree const &params) override;
+ void SetBrightness(double brightness) override;
+ void SetContrast(double contrast) override;
+ void Initialise() override;
+ void Prepare(Metadata *image_metadata) override;
+ void Process(StatisticsPtr &stats, Metadata *image_metadata) override;
+
+private:
+ ContrastConfig config_;
+ std::atomic<double> brightness_;
+ std::atomic<double> contrast_;
+ ContrastStatus status_;
+ std::mutex mutex_;
+};
+
+} // namespace RPi
diff --git a/src/ipa/raspberrypi/controller/rpi/dpc.cpp b/src/ipa/raspberrypi/controller/rpi/dpc.cpp
new file mode 100644
index 00000000..d31fae97
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/rpi/dpc.cpp
@@ -0,0 +1,49 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * dpc.cpp - DPC (defective pixel correction) control algorithm
+ */
+
+#include "../logging.hpp"
+#include "dpc.hpp"
+
+using namespace RPi;
+
+// We use the lux status so that we can apply stronger settings in darkness (if
+// necessary).
+
+#define NAME "rpi.dpc"
+
+Dpc::Dpc(Controller *controller)
+ : Algorithm(controller)
+{
+}
+
+char const *Dpc::Name() const
+{
+ return NAME;
+}
+
+void Dpc::Read(boost::property_tree::ptree const &params)
+{
+ config_.strength = params.get<int>("strength", 1);
+ if (config_.strength < 0 || config_.strength > 2)
+ throw std::runtime_error("Dpc: bad strength value");
+}
+
+void Dpc::Prepare(Metadata *image_metadata)
+{
+ DpcStatus dpc_status = {};
+ // Should we vary this with lux level or analogue gain? TBD.
+ dpc_status.strength = config_.strength;
+ RPI_LOG("Dpc: strength " << dpc_status.strength);
+ image_metadata->Set("dpc.status", dpc_status);
+}
+
+// Register algorithm with the system.
+static Algorithm *Create(Controller *controller)
+{
+ return (Algorithm *)new Dpc(controller);
+}
+static RegisterAlgorithm reg(NAME, &Create);
diff --git a/src/ipa/raspberrypi/controller/rpi/dpc.hpp b/src/ipa/raspberrypi/controller/rpi/dpc.hpp
new file mode 100644
index 00000000..9fb72867
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/rpi/dpc.hpp
@@ -0,0 +1,32 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * dpc.hpp - DPC (defective pixel correction) control algorithm
+ */
+#pragma once
+
+#include "../algorithm.hpp"
+#include "../dpc_status.h"
+
+namespace RPi {
+
+// Back End algorithm to apply appropriate GEQ settings.
+
+struct DpcConfig {
+ int strength;
+};
+
+class Dpc : public Algorithm
+{
+public:
+ Dpc(Controller *controller);
+ char const *Name() const override;
+ void Read(boost::property_tree::ptree const &params) override;
+ void Prepare(Metadata *image_metadata) override;
+
+private:
+ DpcConfig config_;
+};
+
+} // namespace RPi
diff --git a/src/ipa/raspberrypi/controller/rpi/geq.cpp b/src/ipa/raspberrypi/controller/rpi/geq.cpp
new file mode 100644
index 00000000..ee0cb95d
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/rpi/geq.cpp
@@ -0,0 +1,75 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * geq.cpp - GEQ (green equalisation) control algorithm
+ */
+
+#include "../device_status.h"
+#include "../logging.hpp"
+#include "../lux_status.h"
+#include "../pwl.hpp"
+
+#include "geq.hpp"
+
+using namespace RPi;
+
+// We use the lux status so that we can apply stronger settings in darkness (if
+// necessary).
+
+#define NAME "rpi.geq"
+
+Geq::Geq(Controller *controller)
+ : Algorithm(controller)
+{
+}
+
+char const *Geq::Name() const
+{
+ return NAME;
+}
+
+void Geq::Read(boost::property_tree::ptree const &params)
+{
+ config_.offset = params.get<uint16_t>("offset", 0);
+ config_.slope = params.get<double>("slope", 0.0);
+ if (config_.slope < 0.0 || config_.slope >= 1.0)
+ throw std::runtime_error("Geq: bad slope value");
+ if (params.get_child_optional("strength"))
+ config_.strength.Read(params.get_child("strength"));
+}
+
+void Geq::Prepare(Metadata *image_metadata)
+{
+ LuxStatus lux_status = {};
+ lux_status.lux = 400;
+ if (image_metadata->Get("lux.status", lux_status))
+ RPI_WARN("Geq: no lux data found");
+ DeviceStatus device_status = {};
+ device_status.analogue_gain = 1.0; // in case not found
+ if (image_metadata->Get("device.status", device_status))
+ RPI_WARN("Geq: no device metadata - use analogue gain of 1x");
+ GeqStatus geq_status = {};
+ double strength =
+ config_.strength.Empty()
+ ? 1.0
+ : config_.strength.Eval(config_.strength.Domain().Clip(
+ lux_status.lux));
+ strength *= device_status.analogue_gain;
+ double offset = config_.offset * strength;
+ double slope = config_.slope * strength;
+ geq_status.offset = std::min(65535.0, std::max(0.0, offset));
+ geq_status.slope = std::min(.99999, std::max(0.0, slope));
+ RPI_LOG("Geq: offset " << geq_status.offset << " slope "
+ << geq_status.slope << " (analogue gain "
+ << device_status.analogue_gain << " lux "
+ << lux_status.lux << ")");
+ image_metadata->Set("geq.status", geq_status);
+}
+
+// Register algorithm with the system.
+static Algorithm *Create(Controller *controller)
+{
+ return (Algorithm *)new Geq(controller);
+}
+static RegisterAlgorithm reg(NAME, &Create);
diff --git a/src/ipa/raspberrypi/controller/rpi/geq.hpp b/src/ipa/raspberrypi/controller/rpi/geq.hpp
new file mode 100644
index 00000000..7d4bd38d
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/rpi/geq.hpp
@@ -0,0 +1,34 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * geq.hpp - GEQ (green equalisation) control algorithm
+ */
+#pragma once
+
+#include "../algorithm.hpp"
+#include "../geq_status.h"
+
+namespace RPi {
+
+// Back End algorithm to apply appropriate GEQ settings.
+
+struct GeqConfig {
+ uint16_t offset;
+ double slope;
+ Pwl strength; // lux to strength factor
+};
+
+class Geq : public Algorithm
+{
+public:
+ Geq(Controller *controller);
+ char const *Name() const override;
+ void Read(boost::property_tree::ptree const &params) override;
+ void Prepare(Metadata *image_metadata) override;
+
+private:
+ GeqConfig config_;
+};
+
+} // namespace RPi
diff --git a/src/ipa/raspberrypi/controller/rpi/lux.cpp b/src/ipa/raspberrypi/controller/rpi/lux.cpp
new file mode 100644
index 00000000..154db153
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/rpi/lux.cpp
@@ -0,0 +1,104 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * lux.cpp - Lux control algorithm
+ */
+#include <math.h>
+
+#include "linux/bcm2835-isp.h"
+
+#include "../device_status.h"
+#include "../logging.hpp"
+
+#include "lux.hpp"
+
+using namespace RPi;
+
+#define NAME "rpi.lux"
+
+Lux::Lux(Controller *controller)
+ : Algorithm(controller)
+{
+ // Put in some defaults as there will be no meaningful values until
+ // Process has run.
+ status_.aperture = 1.0;
+ status_.lux = 400;
+}
+
+char const *Lux::Name() const
+{
+ return NAME;
+}
+
+void Lux::Read(boost::property_tree::ptree const &params)
+{
+ RPI_LOG(Name());
+ reference_shutter_speed_ =
+ params.get<double>("reference_shutter_speed");
+ reference_gain_ = params.get<double>("reference_gain");
+ reference_aperture_ = params.get<double>("reference_aperture", 1.0);
+ reference_Y_ = params.get<double>("reference_Y");
+ reference_lux_ = params.get<double>("reference_lux");
+ current_aperture_ = reference_aperture_;
+}
+
+void Lux::Prepare(Metadata *image_metadata)
+{
+ std::unique_lock<std::mutex> lock(mutex_);
+ image_metadata->Set("lux.status", status_);
+}
+
+void Lux::Process(StatisticsPtr &stats, Metadata *image_metadata)
+{
+ // set some initial values to shut the compiler up
+ DeviceStatus device_status =
+ { .shutter_speed = 1.0,
+ .analogue_gain = 1.0,
+ .lens_position = 0.0,
+ .aperture = 0.0,
+ .flash_intensity = 0.0 };
+ if (image_metadata->Get("device.status", device_status) == 0) {
+ double current_gain = device_status.analogue_gain;
+ double current_shutter_speed = device_status.shutter_speed;
+ double current_aperture = device_status.aperture;
+ if (current_aperture == 0)
+ current_aperture = current_aperture_;
+ uint64_t sum = 0;
+ uint32_t num = 0;
+ uint32_t *bin = stats->hist[0].g_hist;
+ const int num_bins = sizeof(stats->hist[0].g_hist) /
+ sizeof(stats->hist[0].g_hist[0]);
+ for (int i = 0; i < num_bins; i++)
+ sum += bin[i] * (uint64_t)i, num += bin[i];
+ // add .5 to reflect the mid-points of bins
+ double current_Y = sum / (double)num + .5;
+ double gain_ratio = reference_gain_ / current_gain;
+ double shutter_speed_ratio =
+ reference_shutter_speed_ / current_shutter_speed;
+ double aperture_ratio = reference_aperture_ / current_aperture;
+ double Y_ratio = current_Y * (65536 / num_bins) / reference_Y_;
+ double estimated_lux = shutter_speed_ratio * gain_ratio *
+ aperture_ratio * aperture_ratio *
+ Y_ratio * reference_lux_;
+ LuxStatus status;
+ status.lux = estimated_lux;
+ status.aperture = current_aperture;
+ RPI_LOG(Name() << ": estimated lux " << estimated_lux);
+ {
+ std::unique_lock<std::mutex> lock(mutex_);
+ status_ = status;
+ }
+ // Overwrite the metadata here as well, so that downstream
+ // algorithms get the latest value.
+ image_metadata->Set("lux.status", status);
+ } else
+ RPI_WARN(Name() << ": no device metadata");
+}
+
+// Register algorithm with the system.
+static Algorithm *Create(Controller *controller)
+{
+ return (Algorithm *)new Lux(controller);
+}
+static RegisterAlgorithm reg(NAME, &Create);
diff --git a/src/ipa/raspberrypi/controller/rpi/lux.hpp b/src/ipa/raspberrypi/controller/rpi/lux.hpp
new file mode 100644
index 00000000..eb935409
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/rpi/lux.hpp
@@ -0,0 +1,42 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * lux.hpp - Lux control algorithm
+ */
+#pragma once
+
+#include <atomic>
+#include <mutex>
+
+#include "../lux_status.h"
+#include "../algorithm.hpp"
+
+// This is our implementation of the "lux control algorithm".
+
+namespace RPi {
+
+class Lux : public Algorithm
+{
+public:
+ Lux(Controller *controller);
+ char const *Name() const override;
+ void Read(boost::property_tree::ptree const &params) override;
+ void Prepare(Metadata *image_metadata) override;
+ void Process(StatisticsPtr &stats, Metadata *image_metadata) override;
+ void SetCurrentAperture(double aperture);
+
+private:
+ // These values define the conditions of the reference image, against
+ // which we compare the new image.
+ double reference_shutter_speed_; // in micro-seconds
+ double reference_gain_;
+ double reference_aperture_; // units of 1/f
+ double reference_Y_; // out of 65536
+ double reference_lux_;
+ std::atomic<double> current_aperture_;
+ LuxStatus status_;
+ std::mutex mutex_;
+};
+
+} // namespace RPi
diff --git a/src/ipa/raspberrypi/controller/rpi/noise.cpp b/src/ipa/raspberrypi/controller/rpi/noise.cpp
new file mode 100644
index 00000000..2209d791
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/rpi/noise.cpp
@@ -0,0 +1,71 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * noise.cpp - Noise control algorithm
+ */
+
+#include <math.h>
+
+#include "../device_status.h"
+#include "../logging.hpp"
+#include "../noise_status.h"
+
+#include "noise.hpp"
+
+using namespace RPi;
+
+#define NAME "rpi.noise"
+
+Noise::Noise(Controller *controller)
+ : Algorithm(controller), mode_factor_(1.0)
+{
+}
+
+char const *Noise::Name() const
+{
+ return NAME;
+}
+
+void Noise::SwitchMode(CameraMode const &camera_mode)
+{
+ // For example, we would expect a 2x2 binned mode to have a "noise
+ // factor" of sqrt(2x2) = 2. (can't be less than one, right?)
+ mode_factor_ = std::max(1.0, camera_mode.noise_factor);
+}
+
+void Noise::Read(boost::property_tree::ptree const &params)
+{
+ RPI_LOG(Name());
+ reference_constant_ = params.get<double>("reference_constant");
+ reference_slope_ = params.get<double>("reference_slope");
+}
+
+void Noise::Prepare(Metadata *image_metadata)
+{
+ struct DeviceStatus device_status;
+ device_status.analogue_gain = 1.0; // keep compiler calm
+ if (image_metadata->Get("device.status", device_status) == 0) {
+ // There is a slight question as to exactly how the noise
+ // profile, specifically the constant part of it, scales. For
+ // now we assume it all scales the same, and we'll revisit this
+ // if it proves substantially wrong. NOTE: we may also want to
+ // make some adjustments based on the camera mode (such as
+ // binning), if we knew how to discover it...
+ double factor = sqrt(device_status.analogue_gain) / mode_factor_;
+ struct NoiseStatus status;
+ status.noise_constant = reference_constant_ * factor;
+ status.noise_slope = reference_slope_ * factor;
+ image_metadata->Set("noise.status", status);
+ RPI_LOG(Name() << ": constant " << status.noise_constant
+ << " slope " << status.noise_slope);
+ } else
+ RPI_WARN(Name() << " no metadata");
+}
+
+// Register algorithm with the system.
+static Algorithm *Create(Controller *controller)
+{
+ return new Noise(controller);
+}
+static RegisterAlgorithm reg(NAME, &Create);
diff --git a/src/ipa/raspberrypi/controller/rpi/noise.hpp b/src/ipa/raspberrypi/controller/rpi/noise.hpp
new file mode 100644
index 00000000..51d46a3d
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/rpi/noise.hpp
@@ -0,0 +1,32 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * noise.hpp - Noise control algorithm
+ */
+#pragma once
+
+#include "../algorithm.hpp"
+#include "../noise_status.h"
+
+// This is our implementation of the "noise algorithm".
+
+namespace RPi {
+
+class Noise : public Algorithm
+{
+public:
+ Noise(Controller *controller);
+ char const *Name() const override;
+ void SwitchMode(CameraMode const &camera_mode) override;
+ void Read(boost::property_tree::ptree const &params) override;
+ void Prepare(Metadata *image_metadata) override;
+
+private:
+ // the noise profile for analogue gain of 1.0
+ double reference_constant_;
+ double reference_slope_;
+ std::atomic<double> mode_factor_;
+};
+
+} // namespace RPi
diff --git a/src/ipa/raspberrypi/controller/rpi/sdn.cpp b/src/ipa/raspberrypi/controller/rpi/sdn.cpp
new file mode 100644
index 00000000..28d9d983
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/rpi/sdn.cpp
@@ -0,0 +1,63 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * sdn.cpp - SDN (spatial denoise) control algorithm
+ */
+
+#include "../noise_status.h"
+#include "../sdn_status.h"
+
+#include "sdn.hpp"
+
+using namespace RPi;
+
+// Calculate settings for the spatial denoise block using the noise profile in
+// the image metadata.
+
+#define NAME "rpi.sdn"
+
+Sdn::Sdn(Controller *controller)
+ : Algorithm(controller)
+{
+}
+
+char const *Sdn::Name() const
+{
+ return NAME;
+}
+
+void Sdn::Read(boost::property_tree::ptree const &params)
+{
+ deviation_ = params.get<double>("deviation", 3.2);
+ strength_ = params.get<double>("strength", 0.75);
+}
+
+void Sdn::Initialise() {}
+
+void Sdn::Prepare(Metadata *image_metadata)
+{
+ struct NoiseStatus noise_status = {};
+ noise_status.noise_slope = 3.0; // in case no metadata
+ if (image_metadata->Get("noise.status", noise_status) != 0)
+ RPI_WARN("Sdn: no noise profile found");
+ RPI_LOG("Noise profile: constant " << noise_status.noise_constant
+ << " slope "
+ << noise_status.noise_slope);
+ struct SdnStatus status;
+ status.noise_constant = noise_status.noise_constant * deviation_;
+ status.noise_slope = noise_status.noise_slope * deviation_;
+ status.strength = strength_;
+ image_metadata->Set("sdn.status", status);
+ RPI_LOG("Sdn: programmed constant " << status.noise_constant
+ << " slope " << status.noise_slope
+ << " strength "
+ << status.strength);
+}
+
+// Register algorithm with the system.
+static Algorithm *Create(Controller *controller)
+{
+ return (Algorithm *)new Sdn(controller);
+}
+static RegisterAlgorithm reg(NAME, &Create);
diff --git a/src/ipa/raspberrypi/controller/rpi/sdn.hpp b/src/ipa/raspberrypi/controller/rpi/sdn.hpp
new file mode 100644
index 00000000..d48aab7e
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/rpi/sdn.hpp
@@ -0,0 +1,29 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * sdn.hpp - SDN (spatial denoise) control algorithm
+ */
+#pragma once
+
+#include "../algorithm.hpp"
+
+namespace RPi {
+
+// Algorithm to calculate correct spatial denoise (SDN) settings.
+
+class Sdn : public Algorithm
+{
+public:
+ Sdn(Controller *controller = NULL);
+ char const *Name() const override;
+ void Read(boost::property_tree::ptree const &params) override;
+ void Initialise() override;
+ void Prepare(Metadata *image_metadata) override;
+
+private:
+ double deviation_;
+ double strength_;
+};
+
+} // namespace RPi
diff --git a/src/ipa/raspberrypi/controller/rpi/sharpen.cpp b/src/ipa/raspberrypi/controller/rpi/sharpen.cpp
new file mode 100644
index 00000000..1f07bb62
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/rpi/sharpen.cpp
@@ -0,0 +1,60 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * sharpen.cpp - sharpening control algorithm
+ */
+
+#include <math.h>
+
+#include "../logging.hpp"
+#include "../sharpen_status.h"
+
+#include "sharpen.hpp"
+
+using namespace RPi;
+
+#define NAME "rpi.sharpen"
+
+Sharpen::Sharpen(Controller *controller)
+ : Algorithm(controller)
+{
+}
+
+char const *Sharpen::Name() const
+{
+ return NAME;
+}
+
+void Sharpen::SwitchMode(CameraMode const &camera_mode)
+{
+ // can't be less than one, right?
+ mode_factor_ = std::max(1.0, camera_mode.noise_factor);
+}
+
+void Sharpen::Read(boost::property_tree::ptree const &params)
+{
+ RPI_LOG(Name());
+ threshold_ = params.get<double>("threshold", 1.0);
+ strength_ = params.get<double>("strength", 1.0);
+ limit_ = params.get<double>("limit", 1.0);
+}
+
+void Sharpen::Prepare(Metadata *image_metadata)
+{
+ double mode_factor = mode_factor_;
+ struct SharpenStatus status;
+ // Binned modes seem to need the sharpening toned down with this
+ // pipeline.
+ status.threshold = threshold_ * mode_factor;
+ status.strength = strength_ / mode_factor;
+ status.limit = limit_ / mode_factor;
+ image_metadata->Set("sharpen.status", status);
+}
+
+// Register algorithm with the system.
+static Algorithm *Create(Controller *controller)
+{
+ return new Sharpen(controller);
+}
+static RegisterAlgorithm reg(NAME, &Create);
diff --git a/src/ipa/raspberrypi/controller/rpi/sharpen.hpp b/src/ipa/raspberrypi/controller/rpi/sharpen.hpp
new file mode 100644
index 00000000..3b0d6801
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/rpi/sharpen.hpp
@@ -0,0 +1,32 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * sharpen.hpp - sharpening control algorithm
+ */
+#pragma once
+
+#include "../algorithm.hpp"
+#include "../sharpen_status.h"
+
+// This is our implementation of the "sharpen algorithm".
+
+namespace RPi {
+
+class Sharpen : public Algorithm
+{
+public:
+ Sharpen(Controller *controller);
+ char const *Name() const override;
+ void SwitchMode(CameraMode const &camera_mode) override;
+ void Read(boost::property_tree::ptree const &params) override;
+ void Prepare(Metadata *image_metadata) override;
+
+private:
+ double threshold_;
+ double strength_;
+ double limit_;
+ std::atomic<double> mode_factor_;
+};
+
+} // namespace RPi
diff --git a/src/ipa/raspberrypi/controller/sdn_status.h b/src/ipa/raspberrypi/controller/sdn_status.h
new file mode 100644
index 00000000..871e0b62
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/sdn_status.h
@@ -0,0 +1,23 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * sdn_status.h - SDN (spatial denoise) control algorithm status
+ */
+#pragma once
+
+// This stores the parameters required for Spatial Denoise (SDN).
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+struct SdnStatus {
+ double noise_constant;
+ double noise_slope;
+ double strength;
+};
+
+#ifdef __cplusplus
+}
+#endif
diff --git a/src/ipa/raspberrypi/controller/sharpen_status.h b/src/ipa/raspberrypi/controller/sharpen_status.h
new file mode 100644
index 00000000..6de80f40
--- /dev/null
+++ b/src/ipa/raspberrypi/controller/sharpen_status.h
@@ -0,0 +1,26 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * sharpen_status.h - Sharpen control algorithm status
+ */
+#pragma once
+
+// The "sharpen" algorithm stores the strength to use.
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+struct SharpenStatus {
+ // controls the smallest level of detail (or noise!) that sharpening will pick up
+ double threshold;
+ // the rate at which the sharpening response ramps once above the threshold
+ double strength;
+ // upper limit of the allowed sharpening response
+ double limit;
+};
+
+#ifdef __cplusplus
+}
+#endif
diff --git a/src/ipa/raspberrypi/data/imx219.json b/src/ipa/raspberrypi/data/imx219.json
new file mode 100644
index 00000000..ce7ff36f
--- /dev/null
+++ b/src/ipa/raspberrypi/data/imx219.json
@@ -0,0 +1,401 @@
+{
+ "rpi.black_level":
+ {
+ "black_level": 4096
+ },
+ "rpi.dpc":
+ {
+
+ },
+ "rpi.lux":
+ {
+ "reference_shutter_speed": 27685,
+ "reference_gain": 1.0,
+ "reference_aperture": 1.0,
+ "reference_lux": 998,
+ "reference_Y": 12744
+ },
+ "rpi.noise":
+ {
+ "reference_constant": 0,
+ "reference_slope": 3.67
+ },
+ "rpi.geq":
+ {
+ "offset": 204,
+ "slope": 0.01633
+ },
+ "rpi.sdn":
+ {
+
+ },
+ "rpi.awb":
+ {
+ "priors":
+ [
+ {
+ "lux": 0, "prior":
+ [
+ 2000, 1.0, 3000, 0.0, 13000, 0.0
+ ]
+ },
+ {
+ "lux": 800, "prior":
+ [
+ 2000, 0.0, 6000, 2.0, 13000, 2.0
+ ]
+ },
+ {
+ "lux": 1500, "prior":
+ [
+ 2000, 0.0, 4000, 1.0, 6000, 6.0, 6500, 7.0, 7000, 1.0, 13000, 1.0
+ ]
+ }
+ ],
+ "modes":
+ {
+ "auto":
+ {
+ "lo": 2500,
+ "hi": 8000
+ },
+ "incandescent":
+ {
+ "lo": 2500,
+ "hi": 3000
+ },
+ "tungsten":
+ {
+ "lo": 3000,
+ "hi": 3500
+ },
+ "fluorescent":
+ {
+ "lo": 4000,
+ "hi": 4700
+ },
+ "indoor":
+ {
+ "lo": 3000,
+ "hi": 5000
+ },
+ "daylight":
+ {
+ "lo": 5500,
+ "hi": 6500
+ },
+ "cloudy":
+ {
+ "lo": 7000,
+ "hi": 8600
+ }
+ },
+ "bayes": 1,
+ "ct_curve":
+ [
+ 2498.0, 0.9309, 0.3599, 2911.0, 0.8682, 0.4283, 2919.0, 0.8358, 0.4621, 3627.0, 0.7646, 0.5327, 4600.0, 0.6079, 0.6721, 5716.0,
+ 0.5712, 0.7017, 8575.0, 0.4331, 0.8037
+ ],
+ "sensitivity_r": 1.05,
+ "sensitivity_b": 1.05,
+ "transverse_pos": 0.04791,
+ "transverse_neg": 0.04881
+ },
+ "rpi.agc":
+ {
+ "metering_modes":
+ {
+ "centre-weighted":
+ {
+ "weights":
+ [
+ 3, 3, 3, 2, 2, 2, 2, 1, 1, 1, 1, 0, 0, 0, 0
+ ]
+ },
+ "spot":
+ {
+ "weights":
+ [
+ 2, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0
+ ]
+ },
+ "matrix":
+ {
+ "weights":
+ [
+ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1
+ ]
+ }
+ },
+ "exposure_modes":
+ {
+ "normal":
+ {
+ "shutter":
+ [
+ 100, 10000, 30000, 60000, 120000
+ ],
+ "gain":
+ [
+ 1.0, 2.0, 4.0, 6.0, 6.0
+ ]
+ },
+ "sport":
+ {
+ "shutter":
+ [
+ 100, 5000, 10000, 20000, 120000
+ ],
+ "gain":
+ [
+ 1.0, 2.0, 4.0, 6.0, 6.0
+ ]
+ }
+ },
+ "constraint_modes":
+ {
+ "normal":
+ [
+ {
+ "bound": "LOWER", "q_lo": 0.98, "q_hi": 1.0, "y_target":
+ [
+ 0, 0.5, 1000, 0.5
+ ]
+ }
+ ],
+ "highlight":
+ [
+ {
+ "bound": "LOWER", "q_lo": 0.98, "q_hi": 1.0, "y_target":
+ [
+ 0, 0.5, 1000, 0.5
+ ]
+ },
+ {
+ "bound": "UPPER", "q_lo": 0.98, "q_hi": 1.0, "y_target":
+ [
+ 0, 0.8, 1000, 0.8
+ ]
+ }
+ ],
+ "shadows":
+ [
+ {
+ "bound": "LOWER", "q_lo": 0.0, "q_hi": 0.5, "y_target":
+ [
+ 0, 0.17, 1000, 0.17
+ ]
+ }
+ ]
+ },
+ "y_target":
+ [
+ 0, 0.16, 1000, 0.165, 10000, 0.17
+ ]
+ },
+ "rpi.alsc":
+ {
+ "omega": 1.3,
+ "n_iter": 100,
+ "luminance_strength": 0.7,
+ "calibrations_Cr":
+ [
+ {
+ "ct": 3000, "table":
+ [
+ 1.487, 1.481, 1.481, 1.445, 1.389, 1.327, 1.307, 1.307, 1.307, 1.309, 1.341, 1.405, 1.458, 1.494, 1.494, 1.497,
+ 1.491, 1.481, 1.448, 1.397, 1.331, 1.275, 1.243, 1.229, 1.229, 1.249, 1.287, 1.349, 1.409, 1.463, 1.494, 1.497,
+ 1.491, 1.469, 1.405, 1.331, 1.275, 1.217, 1.183, 1.172, 1.172, 1.191, 1.231, 1.287, 1.349, 1.424, 1.484, 1.499,
+ 1.487, 1.444, 1.363, 1.283, 1.217, 1.183, 1.148, 1.138, 1.138, 1.159, 1.191, 1.231, 1.302, 1.385, 1.461, 1.492,
+ 1.481, 1.423, 1.334, 1.253, 1.189, 1.148, 1.135, 1.119, 1.123, 1.137, 1.159, 1.203, 1.272, 1.358, 1.442, 1.488,
+ 1.479, 1.413, 1.321, 1.236, 1.176, 1.139, 1.118, 1.114, 1.116, 1.123, 1.149, 1.192, 1.258, 1.344, 1.432, 1.487,
+ 1.479, 1.413, 1.321, 1.236, 1.176, 1.139, 1.116, 1.114, 1.115, 1.123, 1.149, 1.192, 1.258, 1.344, 1.432, 1.487,
+ 1.479, 1.425, 1.336, 1.251, 1.189, 1.149, 1.136, 1.118, 1.121, 1.138, 1.158, 1.206, 1.275, 1.358, 1.443, 1.488,
+ 1.488, 1.448, 1.368, 1.285, 1.219, 1.189, 1.149, 1.139, 1.139, 1.158, 1.195, 1.235, 1.307, 1.387, 1.462, 1.493,
+ 1.496, 1.475, 1.411, 1.337, 1.284, 1.219, 1.189, 1.176, 1.176, 1.195, 1.235, 1.296, 1.356, 1.429, 1.487, 1.501,
+ 1.495, 1.489, 1.458, 1.407, 1.337, 1.287, 1.253, 1.239, 1.239, 1.259, 1.296, 1.356, 1.419, 1.472, 1.499, 1.499,
+ 1.494, 1.489, 1.489, 1.453, 1.398, 1.336, 1.317, 1.317, 1.317, 1.321, 1.351, 1.416, 1.467, 1.501, 1.501, 1.499
+ ]
+ },
+ {
+ "ct": 3850, "table":
+ [
+ 1.694, 1.688, 1.688, 1.649, 1.588, 1.518, 1.495, 1.495, 1.495, 1.497, 1.532, 1.602, 1.659, 1.698, 1.698, 1.703,
+ 1.698, 1.688, 1.653, 1.597, 1.525, 1.464, 1.429, 1.413, 1.413, 1.437, 1.476, 1.542, 1.606, 1.665, 1.698, 1.703,
+ 1.697, 1.673, 1.605, 1.525, 1.464, 1.401, 1.369, 1.354, 1.354, 1.377, 1.417, 1.476, 1.542, 1.623, 1.687, 1.705,
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diff --git a/src/ipa/raspberrypi/data/imx477.json b/src/ipa/raspberrypi/data/imx477.json
new file mode 100644
index 00000000..dce5234f
--- /dev/null
+++ b/src/ipa/raspberrypi/data/imx477.json
@@ -0,0 +1,416 @@
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+ 2.081, 2.077, 2.072, 2.068, 2.065, 2.058, 2.055, 2.054, 2.057, 2.062, 2.066, 2.069, 2.077, 2.084, 2.086, 2.086,
+ 2.078, 2.075, 2.069, 2.065, 2.061, 2.055, 2.052, 2.049, 2.051, 2.056, 2.062, 2.065, 2.072, 2.079, 2.081, 2.079,
+ 2.079, 2.075, 2.069, 2.064, 2.061, 2.053, 2.049, 2.046, 2.049, 2.051, 2.057, 2.062, 2.069, 2.075, 2.077, 2.075,
+ 2.082, 2.079, 2.072, 2.065, 2.061, 2.054, 2.049, 2.047, 2.049, 2.051, 2.056, 2.061, 2.066, 2.073, 2.073, 2.069,
+ 2.086, 2.082, 2.075, 2.068, 2.062, 2.054, 2.051, 2.049, 2.051, 2.052, 2.056, 2.061, 2.066, 2.073, 2.073, 2.072,
+ 2.088, 2.086, 2.079, 2.074, 2.066, 2.057, 2.051, 2.051, 2.054, 2.055, 2.056, 2.061, 2.067, 2.072, 2.073, 2.072,
+ 2.091, 2.087, 2.079, 2.075, 2.068, 2.057, 2.052, 2.052, 2.056, 2.055, 2.055, 2.059, 2.066, 2.072, 2.072, 2.072,
+ 2.093, 2.088, 2.081, 2.077, 2.069, 2.059, 2.054, 2.054, 2.057, 2.056, 2.056, 2.058, 2.066, 2.072, 2.073, 2.073,
+ 2.095, 2.091, 2.084, 2.078, 2.075, 2.067, 2.057, 2.057, 2.059, 2.059, 2.058, 2.059, 2.068, 2.073, 2.075, 2.078
+ ]
+ },
+ {
+ "ct": 4850, "table":
+ [
+ 2.973, 2.968, 2.956, 2.943, 2.941, 2.932, 2.923, 2.921, 2.924, 2.929, 2.931, 2.939, 2.953, 2.965, 2.966, 2.976,
+ 2.969, 2.962, 2.951, 2.941, 2.934, 2.928, 2.919, 2.918, 2.919, 2.923, 2.927, 2.933, 2.945, 2.957, 2.962, 2.962,
+ 2.964, 2.956, 2.944, 2.932, 2.929, 2.924, 2.915, 2.914, 2.915, 2.919, 2.924, 2.928, 2.941, 2.952, 2.958, 2.959,
+ 2.957, 2.951, 2.939, 2.928, 2.924, 2.919, 2.913, 2.911, 2.911, 2.915, 2.919, 2.925, 2.936, 2.947, 2.952, 2.953,
+ 2.954, 2.947, 2.935, 2.924, 2.919, 2.915, 2.908, 2.906, 2.906, 2.907, 2.914, 2.921, 2.932, 2.941, 2.943, 2.942,
+ 2.953, 2.946, 2.932, 2.921, 2.916, 2.911, 2.904, 2.902, 2.901, 2.904, 2.909, 2.919, 2.926, 2.937, 2.939, 2.939,
+ 2.953, 2.947, 2.932, 2.918, 2.915, 2.909, 2.903, 2.901, 2.901, 2.906, 2.911, 2.918, 2.924, 2.936, 2.936, 2.932,
+ 2.956, 2.948, 2.934, 2.919, 2.916, 2.908, 2.903, 2.901, 2.902, 2.907, 2.909, 2.917, 2.926, 2.936, 2.939, 2.939,
+ 2.957, 2.951, 2.936, 2.923, 2.917, 2.907, 2.904, 2.901, 2.902, 2.908, 2.911, 2.919, 2.929, 2.939, 2.942, 2.942,
+ 2.961, 2.951, 2.936, 2.922, 2.918, 2.906, 2.904, 2.901, 2.901, 2.907, 2.911, 2.921, 2.931, 2.941, 2.942, 2.944,
+ 2.964, 2.954, 2.936, 2.924, 2.918, 2.909, 2.905, 2.905, 2.905, 2.907, 2.912, 2.923, 2.933, 2.942, 2.944, 2.944,
+ 2.964, 2.958, 2.943, 2.927, 2.921, 2.914, 2.909, 2.907, 2.907, 2.912, 2.916, 2.928, 2.936, 2.944, 2.947, 2.952
+ ]
+ },
+ {
+ "ct": 5930, "table":
+ [
+ 3.312, 3.308, 3.301, 3.294, 3.288, 3.277, 3.268, 3.261, 3.259, 3.261, 3.267, 3.273, 3.285, 3.301, 3.303, 3.312,
+ 3.308, 3.304, 3.294, 3.291, 3.283, 3.271, 3.263, 3.259, 3.257, 3.258, 3.261, 3.268, 3.278, 3.293, 3.299, 3.299,
+ 3.302, 3.296, 3.288, 3.282, 3.276, 3.267, 3.259, 3.254, 3.252, 3.253, 3.256, 3.261, 3.273, 3.289, 3.292, 3.292,
+ 3.296, 3.289, 3.282, 3.276, 3.269, 3.263, 3.256, 3.251, 3.248, 3.249, 3.251, 3.257, 3.268, 3.279, 3.284, 3.284,
+ 3.292, 3.285, 3.279, 3.271, 3.264, 3.257, 3.249, 3.243, 3.241, 3.241, 3.246, 3.252, 3.261, 3.274, 3.275, 3.273,
+ 3.291, 3.285, 3.276, 3.268, 3.259, 3.251, 3.242, 3.239, 3.236, 3.238, 3.244, 3.248, 3.258, 3.268, 3.269, 3.265,
+ 3.294, 3.288, 3.275, 3.266, 3.257, 3.248, 3.239, 3.238, 3.237, 3.238, 3.243, 3.246, 3.255, 3.264, 3.264, 3.257,
+ 3.297, 3.293, 3.279, 3.268, 3.258, 3.249, 3.238, 3.237, 3.239, 3.239, 3.243, 3.245, 3.255, 3.264, 3.264, 3.263,
+ 3.301, 3.295, 3.281, 3.271, 3.259, 3.248, 3.237, 3.237, 3.239, 3.241, 3.243, 3.246, 3.257, 3.265, 3.266, 3.264,
+ 3.306, 3.295, 3.279, 3.271, 3.261, 3.247, 3.235, 3.234, 3.239, 3.239, 3.243, 3.247, 3.258, 3.265, 3.265, 3.264,
+ 3.308, 3.297, 3.279, 3.272, 3.261, 3.249, 3.239, 3.239, 3.241, 3.243, 3.245, 3.248, 3.261, 3.265, 3.266, 3.265,
+ 3.309, 3.301, 3.286, 3.276, 3.267, 3.256, 3.246, 3.242, 3.244, 3.244, 3.249, 3.253, 3.263, 3.267, 3.271, 3.274
+ ]
+ }
+ ],
+ "calibrations_Cb":
+ [
+ {
+ "ct": 2960, "table":
+ [
+ 2.133, 2.134, 2.139, 2.143, 2.148, 2.155, 2.158, 2.158, 2.158, 2.161, 2.161, 2.162, 2.159, 2.156, 2.152, 2.151,
+ 2.132, 2.133, 2.135, 2.142, 2.147, 2.153, 2.158, 2.158, 2.158, 2.158, 2.159, 2.159, 2.157, 2.154, 2.151, 2.148,
+ 2.133, 2.133, 2.135, 2.142, 2.149, 2.154, 2.158, 2.158, 2.157, 2.156, 2.158, 2.157, 2.155, 2.153, 2.148, 2.146,
+ 2.133, 2.133, 2.138, 2.145, 2.149, 2.154, 2.158, 2.159, 2.158, 2.155, 2.157, 2.156, 2.153, 2.149, 2.146, 2.144,
+ 2.133, 2.134, 2.139, 2.146, 2.149, 2.154, 2.158, 2.159, 2.159, 2.156, 2.154, 2.154, 2.149, 2.145, 2.143, 2.139,
+ 2.135, 2.135, 2.139, 2.146, 2.151, 2.155, 2.158, 2.159, 2.158, 2.156, 2.153, 2.151, 2.146, 2.143, 2.139, 2.136,
+ 2.135, 2.135, 2.138, 2.145, 2.151, 2.154, 2.157, 2.158, 2.157, 2.156, 2.153, 2.151, 2.147, 2.143, 2.141, 2.137,
+ 2.135, 2.134, 2.135, 2.141, 2.149, 2.154, 2.157, 2.157, 2.157, 2.157, 2.157, 2.153, 2.149, 2.146, 2.142, 2.139,
+ 2.132, 2.133, 2.135, 2.139, 2.148, 2.153, 2.158, 2.159, 2.159, 2.161, 2.161, 2.157, 2.154, 2.149, 2.144, 2.141,
+ 2.132, 2.133, 2.135, 2.141, 2.149, 2.155, 2.161, 2.161, 2.162, 2.162, 2.163, 2.159, 2.154, 2.149, 2.144, 2.138,
+ 2.136, 2.136, 2.137, 2.143, 2.149, 2.156, 2.162, 2.163, 2.162, 2.163, 2.164, 2.161, 2.157, 2.152, 2.146, 2.138,
+ 2.137, 2.137, 2.141, 2.147, 2.152, 2.157, 2.162, 2.162, 2.159, 2.161, 2.162, 2.162, 2.157, 2.152, 2.148, 2.148
+ ]
+ },
+ {
+ "ct": 4850, "table":
+ [
+ 1.463, 1.464, 1.471, 1.478, 1.479, 1.483, 1.484, 1.486, 1.486, 1.484, 1.483, 1.481, 1.478, 1.475, 1.471, 1.468,
+ 1.463, 1.463, 1.468, 1.476, 1.479, 1.482, 1.484, 1.487, 1.486, 1.484, 1.483, 1.482, 1.478, 1.473, 1.469, 1.468,
+ 1.463, 1.464, 1.468, 1.476, 1.479, 1.483, 1.484, 1.486, 1.486, 1.485, 1.484, 1.482, 1.477, 1.473, 1.469, 1.468,
+ 1.463, 1.464, 1.469, 1.477, 1.481, 1.483, 1.485, 1.487, 1.487, 1.485, 1.485, 1.482, 1.478, 1.474, 1.469, 1.468,
+ 1.465, 1.465, 1.471, 1.478, 1.481, 1.484, 1.486, 1.488, 1.488, 1.487, 1.485, 1.482, 1.477, 1.472, 1.468, 1.467,
+ 1.465, 1.466, 1.472, 1.479, 1.482, 1.485, 1.486, 1.488, 1.488, 1.486, 1.484, 1.479, 1.475, 1.472, 1.468, 1.466,
+ 1.466, 1.466, 1.472, 1.478, 1.482, 1.484, 1.485, 1.488, 1.487, 1.485, 1.483, 1.479, 1.475, 1.472, 1.469, 1.468,
+ 1.465, 1.466, 1.469, 1.476, 1.481, 1.485, 1.485, 1.486, 1.486, 1.485, 1.483, 1.479, 1.477, 1.474, 1.471, 1.469,
+ 1.464, 1.465, 1.469, 1.476, 1.481, 1.484, 1.485, 1.487, 1.487, 1.486, 1.485, 1.481, 1.478, 1.475, 1.471, 1.469,
+ 1.463, 1.464, 1.469, 1.477, 1.481, 1.485, 1.485, 1.488, 1.488, 1.487, 1.486, 1.481, 1.478, 1.475, 1.471, 1.468,
+ 1.464, 1.465, 1.471, 1.478, 1.482, 1.486, 1.486, 1.488, 1.488, 1.487, 1.486, 1.481, 1.478, 1.475, 1.472, 1.468,
+ 1.465, 1.466, 1.472, 1.481, 1.483, 1.487, 1.487, 1.488, 1.488, 1.486, 1.485, 1.481, 1.479, 1.476, 1.473, 1.472
+ ]
+ },
+ {
+ "ct": 5930, "table":
+ [
+ 1.443, 1.444, 1.448, 1.453, 1.459, 1.463, 1.465, 1.467, 1.469, 1.469, 1.467, 1.466, 1.462, 1.457, 1.454, 1.451,
+ 1.443, 1.444, 1.445, 1.451, 1.459, 1.463, 1.465, 1.467, 1.469, 1.469, 1.467, 1.465, 1.461, 1.456, 1.452, 1.451,
+ 1.444, 1.444, 1.445, 1.451, 1.459, 1.463, 1.466, 1.468, 1.469, 1.469, 1.467, 1.465, 1.461, 1.456, 1.452, 1.449,
+ 1.444, 1.444, 1.447, 1.452, 1.459, 1.464, 1.467, 1.469, 1.471, 1.469, 1.467, 1.466, 1.461, 1.456, 1.452, 1.449,
+ 1.444, 1.445, 1.448, 1.452, 1.459, 1.465, 1.469, 1.471, 1.471, 1.471, 1.468, 1.465, 1.461, 1.455, 1.451, 1.449,
+ 1.445, 1.446, 1.449, 1.453, 1.461, 1.466, 1.469, 1.471, 1.472, 1.469, 1.467, 1.465, 1.459, 1.455, 1.451, 1.447,
+ 1.446, 1.446, 1.449, 1.453, 1.461, 1.466, 1.469, 1.469, 1.469, 1.469, 1.467, 1.465, 1.459, 1.455, 1.452, 1.449,
+ 1.446, 1.446, 1.447, 1.451, 1.459, 1.466, 1.469, 1.469, 1.469, 1.469, 1.467, 1.465, 1.461, 1.457, 1.454, 1.451,
+ 1.444, 1.444, 1.447, 1.451, 1.459, 1.466, 1.469, 1.469, 1.471, 1.471, 1.468, 1.466, 1.462, 1.458, 1.454, 1.452,
+ 1.444, 1.444, 1.448, 1.453, 1.459, 1.466, 1.469, 1.471, 1.472, 1.472, 1.468, 1.466, 1.462, 1.458, 1.454, 1.449,
+ 1.446, 1.447, 1.449, 1.454, 1.461, 1.466, 1.471, 1.471, 1.471, 1.471, 1.468, 1.466, 1.462, 1.459, 1.455, 1.449,
+ 1.447, 1.447, 1.452, 1.457, 1.462, 1.468, 1.472, 1.472, 1.471, 1.471, 1.468, 1.466, 1.462, 1.459, 1.456, 1.455
+ ]
+ }
+ ],
+ "luminance_lut":
+ [
+ 1.548, 1.499, 1.387, 1.289, 1.223, 1.183, 1.164, 1.154, 1.153, 1.169, 1.211, 1.265, 1.345, 1.448, 1.581, 1.619,
+ 1.513, 1.412, 1.307, 1.228, 1.169, 1.129, 1.105, 1.098, 1.103, 1.127, 1.157, 1.209, 1.272, 1.361, 1.481, 1.583,
+ 1.449, 1.365, 1.257, 1.175, 1.124, 1.085, 1.062, 1.054, 1.059, 1.079, 1.113, 1.151, 1.211, 1.293, 1.407, 1.488,
+ 1.424, 1.324, 1.222, 1.139, 1.089, 1.056, 1.034, 1.031, 1.034, 1.049, 1.075, 1.115, 1.164, 1.241, 1.351, 1.446,
+ 1.412, 1.297, 1.203, 1.119, 1.069, 1.039, 1.021, 1.016, 1.022, 1.032, 1.052, 1.086, 1.135, 1.212, 1.321, 1.439,
+ 1.406, 1.287, 1.195, 1.115, 1.059, 1.028, 1.014, 1.012, 1.015, 1.026, 1.041, 1.074, 1.125, 1.201, 1.302, 1.425,
+ 1.406, 1.294, 1.205, 1.126, 1.062, 1.031, 1.013, 1.009, 1.011, 1.019, 1.042, 1.079, 1.129, 1.203, 1.302, 1.435,
+ 1.415, 1.318, 1.229, 1.146, 1.076, 1.039, 1.019, 1.014, 1.017, 1.031, 1.053, 1.093, 1.144, 1.219, 1.314, 1.436,
+ 1.435, 1.348, 1.246, 1.164, 1.094, 1.059, 1.036, 1.032, 1.037, 1.049, 1.072, 1.114, 1.167, 1.257, 1.343, 1.462,
+ 1.471, 1.385, 1.278, 1.189, 1.124, 1.084, 1.064, 1.061, 1.069, 1.078, 1.101, 1.146, 1.207, 1.298, 1.415, 1.496,
+ 1.522, 1.436, 1.323, 1.228, 1.169, 1.118, 1.101, 1.094, 1.099, 1.113, 1.146, 1.194, 1.265, 1.353, 1.474, 1.571,
+ 1.578, 1.506, 1.378, 1.281, 1.211, 1.156, 1.135, 1.134, 1.139, 1.158, 1.194, 1.251, 1.327, 1.427, 1.559, 1.611
+ ],
+ "sigma": 0.00121,
+ "sigma_Cb": 0.00115
+ },
+ "rpi.contrast":
+ {
+ "ce_enable": 1,
+ "gamma_curve":
+ [
+ 0, 0, 1024, 5040, 2048, 9338, 3072, 12356, 4096, 15312, 5120, 18051, 6144, 20790, 7168, 23193,
+ 8192, 25744, 9216, 27942, 10240, 30035, 11264, 32005, 12288, 33975, 13312, 35815, 14336, 37600, 15360, 39168,
+ 16384, 40642, 18432, 43379, 20480, 45749, 22528, 47753, 24576, 49621, 26624, 51253, 28672, 52698, 30720, 53796,
+ 32768, 54876, 36864, 57012, 40960, 58656, 45056, 59954, 49152, 61183, 53248, 62355, 57344, 63419, 61440, 64476,
+ 65535, 65535
+ ]
+ },
+ "rpi.ccm":
+ {
+ "ccms":
+ [
+ {
+ "ct": 2360, "ccm":
+ [
+ 1.66078, -0.23588, -0.42491, -0.47456, 1.82763, -0.35307, -0.00545, -1.44729, 2.45273
+ ]
+ },
+ {
+ "ct": 2870, "ccm":
+ [
+ 1.78373, -0.55344, -0.23029, -0.39951, 1.69701, -0.29751, 0.01986, -1.06525, 2.04539
+ ]
+ },
+ {
+ "ct": 2970, "ccm":
+ [
+ 1.73511, -0.56973, -0.16537, -0.36338, 1.69878, -0.33539, -0.02354, -0.76813, 1.79168
+ ]
+ },
+ {
+ "ct": 3000, "ccm":
+ [
+ 2.06374, -0.92218, -0.14156, -0.41721, 1.69289, -0.27568, -0.00554, -0.92741, 1.93295
+ ]
+ },
+ {
+ "ct": 3700, "ccm":
+ [
+ 2.13792, -1.08136, -0.05655, -0.34739, 1.58989, -0.24249, -0.00349, -0.76789, 1.77138
+ ]
+ },
+ {
+ "ct": 3870, "ccm":
+ [
+ 1.83834, -0.70528, -0.13307, -0.30499, 1.60523, -0.30024, -0.05701, -0.58313, 1.64014
+ ]
+ },
+ {
+ "ct": 4000, "ccm":
+ [
+ 2.15741, -1.10295, -0.05447, -0.34631, 1.61158, -0.26528, -0.02723, -0.70288, 1.73011
+ ]
+ },
+ {
+ "ct": 4400, "ccm":
+ [
+ 2.05729, -0.95007, -0.10723, -0.41712, 1.78606, -0.36894, -0.11899, -0.55727, 1.67626
+ ]
+ },
+
+ {
+ "ct": 4715, "ccm":
+ [
+ 1.90255, -0.77478, -0.12777, -0.31338, 1.88197, -0.56858, -0.06001, -0.61785, 1.67786
+ ]
+ },
+ {
+ "ct": 5920, "ccm":
+ [
+ 1.98691, -0.84671, -0.14019, -0.26581, 1.70615, -0.44035, -0.09532, -0.47332, 1.56864
+ ]
+ },
+ {
+ "ct": 9050, "ccm":
+ [
+ 2.09255, -0.76541, -0.32714, -0.28973, 2.27462, -0.98489, -0.17299, -0.61275, 1.78574
+ ]
+ }
+ ]
+ },
+ "rpi.sharpen":
+ {
+
+ }
+}
diff --git a/src/ipa/raspberrypi/data/meson.build b/src/ipa/raspberrypi/data/meson.build
new file mode 100644
index 00000000..6ff27745
--- /dev/null
+++ b/src/ipa/raspberrypi/data/meson.build
@@ -0,0 +1,9 @@
+conf_files = files([
+ 'imx219.json',
+ 'imx477.json',
+ 'ov5647.json',
+ 'uncalibrated.json',
+])
+
+install_data(conf_files,
+ install_dir : join_paths(ipa_data_dir, 'raspberrypi'))
diff --git a/src/ipa/raspberrypi/data/ov5647.json b/src/ipa/raspberrypi/data/ov5647.json
new file mode 100644
index 00000000..a2469059
--- /dev/null
+++ b/src/ipa/raspberrypi/data/ov5647.json
@@ -0,0 +1,398 @@
+{
+ "rpi.black_level":
+ {
+ "black_level": 1024
+ },
+ "rpi.dpc":
+ {
+
+ },
+ "rpi.lux":
+ {
+ "reference_shutter_speed": 21663,
+ "reference_gain": 1.0,
+ "reference_aperture": 1.0,
+ "reference_lux": 987,
+ "reference_Y": 8961
+ },
+ "rpi.noise":
+ {
+ "reference_constant": 0,
+ "reference_slope": 4.25
+ },
+ "rpi.geq":
+ {
+ "offset": 401,
+ "slope": 0.05619
+ },
+ "rpi.sdn":
+ {
+
+ },
+ "rpi.awb":
+ {
+ "priors":
+ [
+ {
+ "lux": 0, "prior":
+ [
+ 2000, 1.0, 3000, 0.0, 13000, 0.0
+ ]
+ },
+ {
+ "lux": 800, "prior":
+ [
+ 2000, 0.0, 6000, 2.0, 13000, 2.0
+ ]
+ },
+ {
+ "lux": 1500, "prior":
+ [
+ 2000, 0.0, 4000, 1.0, 6000, 6.0, 6500, 7.0, 7000, 1.0, 13000, 1.0
+ ]
+ }
+ ],
+ "modes":
+ {
+ "auto":
+ {
+ "lo": 2500,
+ "hi": 8000
+ },
+ "incandescent":
+ {
+ "lo": 2500,
+ "hi": 3000
+ },
+ "tungsten":
+ {
+ "lo": 3000,
+ "hi": 3500
+ },
+ "fluorescent":
+ {
+ "lo": 4000,
+ "hi": 4700
+ },
+ "indoor":
+ {
+ "lo": 3000,
+ "hi": 5000
+ },
+ "daylight":
+ {
+ "lo": 5500,
+ "hi": 6500
+ },
+ "cloudy":
+ {
+ "lo": 7000,
+ "hi": 8600
+ }
+ },
+ "bayes": 1,
+ "ct_curve":
+ [
+ 2500.0, 1.0289, 0.4503, 2803.0, 0.9428, 0.5108, 2914.0, 0.9406, 0.5127, 3605.0, 0.8261, 0.6249, 4540.0, 0.7331, 0.7533, 5699.0,
+ 0.6715, 0.8627, 8625.0, 0.6081, 1.0012
+ ],
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diff --git a/src/ipa/raspberrypi/data/uncalibrated.json b/src/ipa/raspberrypi/data/uncalibrated.json
new file mode 100644
index 00000000..16a01e94
--- /dev/null
+++ b/src/ipa/raspberrypi/data/uncalibrated.json
@@ -0,0 +1,82 @@
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+ "normal":
+ [
+ { "bound": "LOWER", "q_lo": 0.98, "q_hi": 1.0, "y_target": [ 0, 0.4, 1000, 0.4 ] }
+ ]
+ },
+ "y_target": [ 0, 0.16, 1000, 0.165, 10000, 0.17 ]
+ },
+ "rpi.ccm":
+ {
+ "ccms":
+ [
+ { "ct": 4000, "ccm": [ 2.0, -1.0, 0.0, -0.5, 2.0, -0.5, 0, -1.0, 2.0 ] }
+ ]
+ },
+ "rpi.contrast":
+ {
+ "ce_enable": 0,
+ "gamma_curve": [
+ 0, 0,
+ 1024, 5040,
+ 2048, 9338,
+ 3072, 12356,
+ 4096, 15312,
+ 5120, 18051,
+ 6144, 20790,
+ 7168, 23193,
+ 8192, 25744,
+ 9216, 27942,
+ 10240, 30035,
+ 11264, 32005,
+ 12288, 33975,
+ 13312, 35815,
+ 14336, 37600,
+ 15360, 39168,
+ 16384, 40642,
+ 18432, 43379,
+ 20480, 45749,
+ 22528, 47753,
+ 24576, 49621,
+ 26624, 51253,
+ 28672, 52698,
+ 30720, 53796,
+ 32768, 54876,
+ 36864, 57012,
+ 40960, 58656,
+ 45056, 59954,
+ 49152, 61183,
+ 53248, 62355,
+ 57344, 63419,
+ 61440, 64476,
+ 65535, 65535
+ ]
+ }
+}
diff --git a/src/ipa/raspberrypi/md_parser.cpp b/src/ipa/raspberrypi/md_parser.cpp
new file mode 100644
index 00000000..ca809aa2
--- /dev/null
+++ b/src/ipa/raspberrypi/md_parser.cpp
@@ -0,0 +1,101 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * md_parser.cpp - image sensor metadata parsers
+ */
+
+#include <assert.h>
+#include <map>
+#include <string.h>
+
+#include "md_parser.hpp"
+
+using namespace RPi;
+
+// This function goes through the embedded data to find the offsets (not
+// values!), in the data block, where the values of the given registers can
+// subsequently be found.
+
+// Embedded data tag bytes, from Sony IMX219 datasheet but general to all SMIA
+// sensors, I think.
+
+#define LINE_START 0x0a
+#define LINE_END_TAG 0x07
+#define REG_HI_BITS 0xaa
+#define REG_LOW_BITS 0xa5
+#define REG_VALUE 0x5a
+#define REG_SKIP 0x55
+
+MdParserSmia::ParseStatus MdParserSmia::findRegs(unsigned char *data,
+ uint32_t regs[], int offsets[],
+ unsigned int num_regs)
+{
+ assert(num_regs > 0);
+ if (data[0] != LINE_START)
+ return NO_LINE_START;
+
+ unsigned int current_offset = 1; // after the LINE_START
+ unsigned int current_line_start = 0, current_line = 0;
+ unsigned int reg_num = 0, first_reg = 0;
+ ParseStatus retcode = PARSE_OK;
+ while (1) {
+ int tag = data[current_offset++];
+ if ((bits_per_pixel_ == 10 &&
+ (current_offset + 1 - current_line_start) % 5 == 0) ||
+ (bits_per_pixel_ == 12 &&
+ (current_offset + 1 - current_line_start) % 3 == 0)) {
+ if (data[current_offset++] != REG_SKIP)
+ return BAD_DUMMY;
+ }
+ int data_byte = data[current_offset++];
+ //printf("Offset %u, tag 0x%02x data_byte 0x%02x\n", current_offset-1, tag, data_byte);
+ if (tag == LINE_END_TAG) {
+ if (data_byte != LINE_END_TAG)
+ return BAD_LINE_END;
+ if (num_lines_ && ++current_line == num_lines_)
+ return MISSING_REGS;
+ if (line_length_bytes_) {
+ current_offset =
+ current_line_start + line_length_bytes_;
+ // Require whole line to be in the buffer (if buffer size set).
+ if (buffer_size_bytes_ &&
+ current_offset + line_length_bytes_ >
+ buffer_size_bytes_)
+ return MISSING_REGS;
+ if (data[current_offset] != LINE_START)
+ return NO_LINE_START;
+ } else {
+ // allow a zero line length to mean "hunt for the next line"
+ while (data[current_offset] != LINE_START &&
+ current_offset < buffer_size_bytes_)
+ current_offset++;
+ if (current_offset == buffer_size_bytes_)
+ return NO_LINE_START;
+ }
+ // inc current_offset to after LINE_START
+ current_line_start =
+ current_offset++;
+ } else {
+ if (tag == REG_HI_BITS)
+ reg_num = (reg_num & 0xff) | (data_byte << 8);
+ else if (tag == REG_LOW_BITS)
+ reg_num = (reg_num & 0xff00) | data_byte;
+ else if (tag == REG_SKIP)
+ reg_num++;
+ else if (tag == REG_VALUE) {
+ while (reg_num >=
+ // assumes registers are in order...
+ regs[first_reg]) {
+ if (reg_num == regs[first_reg])
+ offsets[first_reg] =
+ current_offset - 1;
+ if (++first_reg == num_regs)
+ return retcode;
+ }
+ reg_num++;
+ } else
+ return ILLEGAL_TAG;
+ }
+ }
+}
diff --git a/src/ipa/raspberrypi/md_parser.hpp b/src/ipa/raspberrypi/md_parser.hpp
new file mode 100644
index 00000000..70d054b2
--- /dev/null
+++ b/src/ipa/raspberrypi/md_parser.hpp
@@ -0,0 +1,123 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * md_parser.hpp - image sensor metadata parser interface
+ */
+#pragma once
+
+#include <stdint.h>
+
+/* Camera metadata parser class. Usage as shown below.
+
+Setup:
+
+Usually the metadata parser will be made as part of the CamHelper class so
+application code doesn't have to worry which to kind to instantiate. But for
+the sake of example let's suppose we're parsing imx219 metadata.
+
+MdParser *parser = new MdParserImx219(); // for example
+parser->SetBitsPerPixel(bpp);
+parser->SetLineLengthBytes(pitch);
+parser->SetNumLines(2);
+
+Note 1: if you don't know how many lines there are, you can use SetBufferSize
+instead to limit the total buffer size.
+
+Note 2: if you don't know the line length, you can leave the line length unset
+(or set to zero) and the parser will hunt for the line start instead. In this
+case SetBufferSize *must* be used so that the parser won't run off the end of
+the buffer.
+
+Then on every frame:
+
+if (parser->Parse(data) != MdParser::OK)
+ much badness;
+unsigned int exposure_lines, gain_code
+if (parser->GetExposureLines(exposure_lines) != MdParser::OK)
+ exposure was not found;
+if (parser->GetGainCode(parser, gain_code) != MdParser::OK)
+ gain code was not found;
+
+(Note that the CamHelper class converts to/from exposure lines and time,
+and gain_code / actual gain.)
+
+If you suspect your embedded data may have changed its layout, change any line
+lengths, number of lines, bits per pixel etc. that are different, and
+then:
+
+parser->Reset();
+
+before calling Parse again. */
+
+namespace RPi {
+
+// Abstract base class from which other metadata parsers are derived.
+
+class MdParser
+{
+public:
+ // Parser status codes:
+ // OK - success
+ // NOTFOUND - value such as exposure or gain was not found
+ // ERROR - all other errors
+ enum Status {
+ OK = 0,
+ NOTFOUND = 1,
+ ERROR = 2
+ };
+ MdParser() : reset_(true) {}
+ virtual ~MdParser() {}
+ void Reset() { reset_ = true; }
+ void SetBitsPerPixel(int bpp) { bits_per_pixel_ = bpp; }
+ void SetNumLines(unsigned int num_lines) { num_lines_ = num_lines; }
+ void SetLineLengthBytes(unsigned int num_bytes)
+ {
+ line_length_bytes_ = num_bytes;
+ }
+ void SetBufferSize(unsigned int num_bytes)
+ {
+ buffer_size_bytes_ = num_bytes;
+ }
+ virtual Status Parse(void *data) = 0;
+ virtual Status GetExposureLines(unsigned int &lines) = 0;
+ virtual Status GetGainCode(unsigned int &gain_code) = 0;
+
+protected:
+ bool reset_;
+ int bits_per_pixel_;
+ unsigned int num_lines_;
+ unsigned int line_length_bytes_;
+ unsigned int buffer_size_bytes_;
+};
+
+// This isn't a full implementation of a metadata parser for SMIA sensors,
+// however, it does provide the findRegs method which will prove useful and make
+// it easier to implement parsers for other SMIA-like sensors (see
+// md_parser_imx219.cpp for an example).
+
+class MdParserSmia : public MdParser
+{
+public:
+ MdParserSmia() : MdParser() {}
+
+protected:
+ // Note that error codes > 0 are regarded as non-fatal; codes < 0
+ // indicate a bad data buffer. Status codes are:
+ // PARSE_OK - found all registers, much happiness
+ // MISSING_REGS - some registers found; should this be a hard error?
+ // The remaining codes are all hard errors.
+ enum ParseStatus {
+ PARSE_OK = 0,
+ MISSING_REGS = 1,
+ NO_LINE_START = -1,
+ ILLEGAL_TAG = -2,
+ BAD_DUMMY = -3,
+ BAD_LINE_END = -4,
+ BAD_PADDING = -5
+ };
+ ParseStatus findRegs(unsigned char *data, uint32_t regs[],
+ int offsets[], unsigned int num_regs);
+};
+
+} // namespace RPi
diff --git a/src/ipa/raspberrypi/md_parser_rpi.cpp b/src/ipa/raspberrypi/md_parser_rpi.cpp
new file mode 100644
index 00000000..a42b28f7
--- /dev/null
+++ b/src/ipa/raspberrypi/md_parser_rpi.cpp
@@ -0,0 +1,37 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2020, Raspberry Pi (Trading) Limited
+ *
+ * md_parser_rpi.cpp - Metadata parser for generic Raspberry Pi metadata
+ */
+
+#include <string.h>
+
+#include "md_parser_rpi.hpp"
+
+using namespace RPi;
+
+MdParserRPi::MdParserRPi()
+{
+}
+
+MdParser::Status MdParserRPi::Parse(void *data)
+{
+ if (buffer_size_bytes_ < sizeof(rpiMetadata))
+ return ERROR;
+
+ memcpy(&metadata, data, sizeof(rpiMetadata));
+ return OK;
+}
+
+MdParser::Status MdParserRPi::GetExposureLines(unsigned int &lines)
+{
+ lines = metadata.exposure;
+ return OK;
+}
+
+MdParser::Status MdParserRPi::GetGainCode(unsigned int &gain_code)
+{
+ gain_code = metadata.gain;
+ return OK;
+}
diff --git a/src/ipa/raspberrypi/md_parser_rpi.hpp b/src/ipa/raspberrypi/md_parser_rpi.hpp
new file mode 100644
index 00000000..1fa334f4
--- /dev/null
+++ b/src/ipa/raspberrypi/md_parser_rpi.hpp
@@ -0,0 +1,32 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019, Raspberry Pi (Trading) Limited
+ *
+ * md_parser_rpi.hpp - Raspberry Pi metadata parser interface
+ */
+#pragma once
+
+#include "md_parser.hpp"
+
+namespace RPi {
+
+class MdParserRPi : public MdParser
+{
+public:
+ MdParserRPi();
+ Status Parse(void *data) override;
+ Status GetExposureLines(unsigned int &lines) override;
+ Status GetGainCode(unsigned int &gain_code) override;
+
+private:
+ // This must be the same struct that is filled into the metadata buffer
+ // in the pipeline handler.
+ struct rpiMetadata
+ {
+ uint32_t exposure;
+ uint32_t gain;
+ };
+ rpiMetadata metadata;
+};
+
+}
diff --git a/src/ipa/raspberrypi/meson.build b/src/ipa/raspberrypi/meson.build
new file mode 100644
index 00000000..2dece3a4
--- /dev/null
+++ b/src/ipa/raspberrypi/meson.build
@@ -0,0 +1,59 @@
+ipa_name = 'ipa_rpi'
+
+rpi_ipa_deps = [
+ libcamera_dep,
+ dependency('boost'),
+ libatomic,
+]
+
+rpi_ipa_includes = [
+ ipa_includes,
+ libipa_includes,
+ include_directories('controller')
+]
+
+rpi_ipa_sources = files([
+ 'raspberrypi.cpp',
+ 'md_parser.cpp',
+ 'md_parser_rpi.cpp',
+ 'cam_helper.cpp',
+ 'cam_helper_ov5647.cpp',
+ 'cam_helper_imx219.cpp',
+ 'cam_helper_imx477.cpp',
+ 'controller/controller.cpp',
+ 'controller/histogram.cpp',
+ 'controller/algorithm.cpp',
+ 'controller/rpi/alsc.cpp',
+ 'controller/rpi/awb.cpp',
+ 'controller/rpi/sharpen.cpp',
+ 'controller/rpi/black_level.cpp',
+ 'controller/rpi/geq.cpp',
+ 'controller/rpi/noise.cpp',
+ 'controller/rpi/lux.cpp',
+ 'controller/rpi/agc.cpp',
+ 'controller/rpi/dpc.cpp',
+ 'controller/rpi/ccm.cpp',
+ 'controller/rpi/contrast.cpp',
+ 'controller/rpi/sdn.cpp',
+ 'controller/pwl.cpp',
+])
+
+mod = shared_module(ipa_name,
+ rpi_ipa_sources,
+ name_prefix : '',
+ include_directories : rpi_ipa_includes,
+ dependencies : rpi_ipa_deps,
+ link_with : libipa,
+ install : true,
+ install_dir : ipa_install_dir)
+
+if ipa_sign_module
+ custom_target(ipa_name + '.so.sign',
+ input : mod,
+ output : ipa_name + '.so.sign',
+ command : [ ipa_sign, ipa_priv_key, '@INPUT@', '@OUTPUT@' ],
+ install : false,
+ build_by_default : true)
+endif
+
+subdir('data')
diff --git a/src/ipa/raspberrypi/raspberrypi.cpp b/src/ipa/raspberrypi/raspberrypi.cpp
new file mode 100644
index 00000000..3bcc0815
--- /dev/null
+++ b/src/ipa/raspberrypi/raspberrypi.cpp
@@ -0,0 +1,1088 @@
+/* SPDX-License-Identifier: BSD-2-Clause */
+/*
+ * Copyright (C) 2019-2020, Raspberry Pi (Trading) Ltd.
+ *
+ * rpi.cpp - Raspberry Pi Image Processing Algorithms
+ */
+
+#include <algorithm>
+#include <fcntl.h>
+#include <math.h>
+#include <stdint.h>
+#include <string.h>
+#include <sys/mman.h>
+
+#include <ipa/ipa_interface.h>
+#include <ipa/ipa_module_info.h>
+#include <ipa/raspberrypi.h>
+#include <libcamera/buffer.h>
+#include <libcamera/control_ids.h>
+#include <libcamera/controls.h>
+#include <libcamera/request.h>
+#include <libcamera/span.h>
+#include <libipa/ipa_interface_wrapper.h>
+
+#include <linux/bcm2835-isp.h>
+
+#include "agc_algorithm.hpp"
+#include "agc_status.h"
+#include "alsc_status.h"
+#include "awb_algorithm.hpp"
+#include "awb_status.h"
+#include "black_level_status.h"
+#include "cam_helper.hpp"
+#include "ccm_algorithm.hpp"
+#include "ccm_status.h"
+#include "contrast_algorithm.hpp"
+#include "contrast_status.h"
+#include "controller.hpp"
+#include "dpc_status.h"
+#include "geq_status.h"
+#include "lux_status.h"
+#include "metadata.hpp"
+#include "noise_status.h"
+#include "sdn_status.h"
+#include "sharpen_status.h"
+
+#include "camera_sensor.h"
+#include "log.h"
+#include "utils.h"
+
+namespace libcamera {
+
+/* Configure the sensor with these values initially. */
+#define DEFAULT_ANALOGUE_GAIN 1.0
+#define DEFAULT_EXPOSURE_TIME 20000
+
+LOG_DEFINE_CATEGORY(IPARPI)
+
+class IPARPi : public IPAInterface
+{
+public:
+ IPARPi()
+ : lastMode_({}), controller_(), controllerInit_(false),
+ frame_count_(0), check_count_(0), hide_count_(0),
+ mistrust_count_(0), lsTableHandle_(0), lsTable_(nullptr)
+ {
+ }
+
+ ~IPARPi()
+ {
+ }
+
+ int init(const IPASettings &settings) override;
+ int start() override { return 0; }
+ void stop() override {}
+
+ void configure(const CameraSensorInfo &sensorInfo,
+ const std::map<unsigned int, IPAStream> &streamConfig,
+ const std::map<unsigned int, const ControlInfoMap &> &entityControls) override;
+ void mapBuffers(const std::vector<IPABuffer> &buffers) override;
+ void unmapBuffers(const std::vector<unsigned int> &ids) override;
+ void processEvent(const IPAOperationData &event) override;
+
+private:
+ void setMode(const CameraSensorInfo &sensorInfo);
+ void queueRequest(const ControlList &controls);
+ void returnEmbeddedBuffer(unsigned int bufferId);
+ void prepareISP(unsigned int bufferId);
+ void reportMetadata();
+ bool parseEmbeddedData(unsigned int bufferId, struct DeviceStatus &deviceStatus);
+ void processStats(unsigned int bufferId);
+ void applyAGC(const struct AgcStatus *agcStatus);
+ void applyAWB(const struct AwbStatus *awbStatus, ControlList &ctrls);
+ void applyDG(const struct AgcStatus *dgStatus, ControlList &ctrls);
+ void applyCCM(const struct CcmStatus *ccmStatus, ControlList &ctrls);
+ void applyBlackLevel(const struct BlackLevelStatus *blackLevelStatus, ControlList &ctrls);
+ void applyGamma(const struct ContrastStatus *contrastStatus, ControlList &ctrls);
+ void applyGEQ(const struct GeqStatus *geqStatus, ControlList &ctrls);
+ void applyDenoise(const struct SdnStatus *denoiseStatus, ControlList &ctrls);
+ void applySharpen(const struct SharpenStatus *sharpenStatus, ControlList &ctrls);
+ void applyDPC(const struct DpcStatus *dpcStatus, ControlList &ctrls);
+ void applyLS(const struct AlscStatus *lsStatus, ControlList &ctrls);
+ void resampleTable(uint16_t dest[], double const src[12][16], int dest_w, int dest_h);
+
+ std::map<unsigned int, FrameBuffer> buffers_;
+ std::map<unsigned int, void *> buffersMemory_;
+
+ ControlInfoMap unicam_ctrls_;
+ ControlInfoMap isp_ctrls_;
+ ControlList libcameraMetadata_;
+
+ /* IPA configuration. */
+ std::string tuningFile_;
+
+ /* Camera sensor params. */
+ CameraMode mode_;
+ CameraMode lastMode_;
+
+ /* Raspberry Pi controller specific defines. */
+ std::unique_ptr<RPi::CamHelper> helper_;
+ RPi::Controller controller_;
+ bool controllerInit_;
+ RPi::Metadata rpiMetadata_;
+
+ /*
+ * We count frames to decide if the frame must be hidden (e.g. from
+ * display) or mistrusted (i.e. not given to the control algos).
+ */
+ uint64_t frame_count_;
+ /* For checking the sequencing of Prepare/Process calls. */
+ uint64_t check_count_;
+ /* How many frames the pipeline handler should hide, or "drop". */
+ unsigned int hide_count_;
+ /* How many frames we should avoid running control algos on. */
+ unsigned int mistrust_count_;
+ /* LS table allocation passed in from the pipeline handler. */
+ uint32_t lsTableHandle_;
+ void *lsTable_;
+};
+
+int IPARPi::init(const IPASettings &settings)
+{
+ tuningFile_ = settings.configurationFile;
+ return 0;
+}
+
+void IPARPi::setMode(const CameraSensorInfo &sensorInfo)
+{
+ mode_.bitdepth = sensorInfo.bitsPerPixel;
+ mode_.width = sensorInfo.outputSize.width;
+ mode_.height = sensorInfo.outputSize.height;
+ mode_.sensor_width = sensorInfo.activeAreaSize.width;
+ mode_.sensor_height = sensorInfo.activeAreaSize.height;
+ mode_.crop_x = sensorInfo.analogCrop.x;
+ mode_.crop_y = sensorInfo.analogCrop.y;
+
+ /*
+ * Calculate scaling parameters. The scale_[xy] factors are determined
+ * by the ratio between the crop rectangle size and the output size.
+ */
+ mode_.scale_x = sensorInfo.analogCrop.width / sensorInfo.outputSize.width;
+ mode_.scale_y = sensorInfo.analogCrop.height / sensorInfo.outputSize.height;
+
+ /*
+ * We're not told by the pipeline handler how scaling is split between
+ * binning and digital scaling. For now, as a heuristic, assume that
+ * downscaling up to 2 is achieved through binning, and that any
+ * additional scaling is achieved through digital scaling.
+ *
+ * \todo Get the pipeline handle to provide the full data
+ */
+ mode_.bin_y = std::min(2, static_cast<int>(mode_.scale_x));
+ mode_.bin_y = std::min(2, static_cast<int>(mode_.scale_y));
+
+ /* The noise factor is the square root of the total binning factor. */
+ mode_.noise_factor = sqrt(mode_.bin_x * mode_.bin_y);
+
+ /*
+ * Calculate the line length in nanoseconds as the ratio between
+ * the line length in pixels and the pixel rate.
+ */
+ mode_.line_length = 1e9 * sensorInfo.lineLength / sensorInfo.pixelRate;
+}
+
+void IPARPi::configure(const CameraSensorInfo &sensorInfo,
+ const std::map<unsigned int, IPAStream> &streamConfig,
+ const std::map<unsigned int, const ControlInfoMap &> &entityControls)
+{
+ if (entityControls.empty())
+ return;
+
+ unicam_ctrls_ = entityControls.at(0);
+ isp_ctrls_ = entityControls.at(1);
+ /* Setup a metadata ControlList to output metadata. */
+ libcameraMetadata_ = ControlList(controls::controls);
+
+ /*
+ * Load the "helper" for this sensor. This tells us all the device specific stuff
+ * that the kernel driver doesn't. We only do this the first time; we don't need
+ * to re-parse the metadata after a simple mode-switch for no reason.
+ */
+ std::string cameraName(sensorInfo.model);
+ if (!helper_) {
+ helper_ = std::unique_ptr<RPi::CamHelper>(RPi::CamHelper::Create(cameraName));
+ /*
+ * Pass out the sensor config to the pipeline handler in order
+ * to setup the staggered writer class.
+ */
+ int gainDelay, exposureDelay, sensorMetadata;
+ helper_->GetDelays(exposureDelay, gainDelay);
+ sensorMetadata = helper_->SensorEmbeddedDataPresent();
+ RPi::CamTransform orientation = helper_->GetOrientation();
+
+ IPAOperationData op;
+ op.operation = RPI_IPA_ACTION_SET_SENSOR_CONFIG;
+ op.data.push_back(gainDelay);
+ op.data.push_back(exposureDelay);
+ op.data.push_back(sensorMetadata);
+
+ ControlList ctrls(unicam_ctrls_);
+ ctrls.set(V4L2_CID_HFLIP, (int32_t) !!(orientation & RPi::CamTransform_HFLIP));
+ ctrls.set(V4L2_CID_VFLIP, (int32_t) !!(orientation & RPi::CamTransform_VFLIP));
+ op.controls.push_back(ctrls);
+
+ queueFrameAction.emit(0, op);
+ }
+
+ /* Re-assemble camera mode using the sensor info. */
+ setMode(sensorInfo);
+
+ /* Pass the camera mode to the CamHelper to setup algorithms. */
+ helper_->SetCameraMode(mode_);
+
+ /*
+ * Initialise frame counts, and decide how many frames must be hidden or
+ *"mistrusted", which depends on whether this is a startup from cold,
+ * or merely a mode switch in a running system.
+ */
+ frame_count_ = 0;
+ check_count_ = 0;
+ if (controllerInit_) {
+ hide_count_ = helper_->HideFramesModeSwitch();
+ mistrust_count_ = helper_->MistrustFramesModeSwitch();
+ } else {
+ hide_count_ = helper_->HideFramesStartup();
+ mistrust_count_ = helper_->MistrustFramesStartup();
+ }
+
+ if (!controllerInit_) {
+ /* Load the tuning file for this sensor. */
+ controller_.Read(tuningFile_.c_str());
+ controller_.Initialise();
+ controllerInit_ = true;
+
+ /* Calculate initial values for gain and exposure. */
+ int32_t gain_code = helper_->GainCode(DEFAULT_ANALOGUE_GAIN);
+ int32_t exposure_lines = helper_->ExposureLines(DEFAULT_EXPOSURE_TIME);
+
+ ControlList ctrls(unicam_ctrls_);
+ ctrls.set(V4L2_CID_ANALOGUE_GAIN, gain_code);
+ ctrls.set(V4L2_CID_EXPOSURE, exposure_lines);
+
+ IPAOperationData op;
+ op.operation = RPI_IPA_ACTION_V4L2_SET_STAGGERED;
+ op.controls.push_back(ctrls);
+ queueFrameAction.emit(0, op);
+ }
+
+ controller_.SwitchMode(mode_);
+
+ lastMode_ = mode_;
+}
+
+void IPARPi::mapBuffers(const std::vector<IPABuffer> &buffers)
+{
+ for (const IPABuffer &buffer : buffers) {
+ auto elem = buffers_.emplace(std::piecewise_construct,
+ std::forward_as_tuple(buffer.id),
+ std::forward_as_tuple(buffer.planes));
+ const FrameBuffer &fb = elem.first->second;
+
+ buffersMemory_[buffer.id] = mmap(nullptr, fb.planes()[0].length,
+ PROT_READ | PROT_WRITE, MAP_SHARED,
+ fb.planes()[0].fd.fd(), 0);
+
+ if (buffersMemory_[buffer.id] == MAP_FAILED) {
+ int ret = -errno;
+ LOG(IPARPI, Fatal) << "Failed to mmap buffer: " << strerror(-ret);
+ }
+ }
+}
+
+void IPARPi::unmapBuffers(const std::vector<unsigned int> &ids)
+{
+ for (unsigned int id : ids) {
+ const auto fb = buffers_.find(id);
+ if (fb == buffers_.end())
+ continue;
+
+ munmap(buffersMemory_[id], fb->second.planes()[0].length);
+ buffersMemory_.erase(id);
+ buffers_.erase(id);
+ }
+}
+
+void IPARPi::processEvent(const IPAOperationData &event)
+{
+ switch (event.operation) {
+ case RPI_IPA_EVENT_SIGNAL_STAT_READY: {
+ unsigned int bufferId = event.data[0];
+
+ if (++check_count_ != frame_count_) /* assert here? */
+ LOG(IPARPI, Error) << "WARNING: Prepare/Process mismatch!!!";
+ if (frame_count_ > mistrust_count_)
+ processStats(bufferId);
+
+ IPAOperationData op;
+ op.operation = RPI_IPA_ACTION_STATS_METADATA_COMPLETE;
+ op.data = { bufferId & RPiIpaMask::ID };
+ op.controls = { libcameraMetadata_ };
+ queueFrameAction.emit(0, op);
+ break;
+ }
+
+ case RPI_IPA_EVENT_SIGNAL_ISP_PREPARE: {
+ unsigned int embeddedbufferId = event.data[0];
+ unsigned int bayerbufferId = event.data[1];
+
+ /*
+ * At start-up, or after a mode-switch, we may want to
+ * avoid running the control algos for a few frames in case
+ * they are "unreliable".
+ */
+ prepareISP(embeddedbufferId);
+ reportMetadata();
+
+ /* Ready to push the input buffer into the ISP. */
+ IPAOperationData op;
+ if (++frame_count_ > hide_count_)
+ op.operation = RPI_IPA_ACTION_RUN_ISP;
+ else
+ op.operation = RPI_IPA_ACTION_RUN_ISP_AND_DROP_FRAME;
+ op.data = { bayerbufferId & RPiIpaMask::ID };
+ queueFrameAction.emit(0, op);
+ break;
+ }
+
+ case RPI_IPA_EVENT_QUEUE_REQUEST: {
+ queueRequest(event.controls[0]);
+ break;
+ }
+
+ case RPI_IPA_EVENT_LS_TABLE_ALLOCATION: {
+ lsTable_ = reinterpret_cast<void *>(event.data[0]);
+ lsTableHandle_ = event.data[1];
+ break;
+ }
+
+ default:
+ LOG(IPARPI, Error) << "Unknown event " << event.operation;
+ break;
+ }
+}
+
+void IPARPi::reportMetadata()
+{
+ std::unique_lock<RPi::Metadata> lock(rpiMetadata_);
+
+ /*
+ * Certain information about the current frame and how it will be
+ * processed can be extracted and placed into the libcamera metadata
+ * buffer, where an application could query it.
+ */
+
+ DeviceStatus *deviceStatus = rpiMetadata_.GetLocked<DeviceStatus>("device.status");
+ if (deviceStatus) {
+ libcameraMetadata_.set(controls::ExposureTime, deviceStatus->shutter_speed);
+ libcameraMetadata_.set(controls::AnalogueGain, deviceStatus->analogue_gain);
+ }
+
+ AgcStatus *agcStatus = rpiMetadata_.GetLocked<AgcStatus>("agc.status");
+ if (agcStatus)
+ libcameraMetadata_.set(controls::AeLocked, agcStatus->locked);
+
+ LuxStatus *luxStatus = rpiMetadata_.GetLocked<LuxStatus>("lux.status");
+ if (luxStatus)
+ libcameraMetadata_.set(controls::Lux, luxStatus->lux);
+
+ AwbStatus *awbStatus = rpiMetadata_.GetLocked<AwbStatus>("awb.status");
+ if (awbStatus) {
+ libcameraMetadata_.set(controls::ColourGains, { static_cast<float>(awbStatus->gain_r),
+ static_cast<float>(awbStatus->gain_b) });
+ libcameraMetadata_.set(controls::ColourTemperature, awbStatus->temperature_K);
+ }
+
+ BlackLevelStatus *blackLevelStatus = rpiMetadata_.GetLocked<BlackLevelStatus>("black_level.status");
+ if (blackLevelStatus)
+ libcameraMetadata_.set(controls::SensorBlackLevels,
+ { static_cast<int32_t>(blackLevelStatus->black_level_r),
+ static_cast<int32_t>(blackLevelStatus->black_level_g),
+ static_cast<int32_t>(blackLevelStatus->black_level_g),
+ static_cast<int32_t>(blackLevelStatus->black_level_b) });
+}
+
+/*
+ * Converting between enums (used in the libcamera API) and the names that
+ * we use to identify different modes. Unfortunately, the conversion tables
+ * must be kept up-to-date by hand.
+ */
+
+static const std::map<int32_t, std::string> MeteringModeTable = {
+ { controls::MeteringCentreWeighted, "centre-weighted" },
+ { controls::MeteringSpot, "spot" },
+ { controls::MeteringMatrix, "matrix" },
+ { controls::MeteringCustom, "custom" },
+};
+
+static const std::map<int32_t, std::string> ConstraintModeTable = {
+ { controls::ConstraintNormal, "normal" },
+ { controls::ConstraintHighlight, "highlight" },
+ { controls::ConstraintCustom, "custom" },
+};
+
+static const std::map<int32_t, std::string> ExposureModeTable = {
+ { controls::ExposureNormal, "normal" },
+ { controls::ExposureShort, "short" },
+ { controls::ExposureLong, "long" },
+ { controls::ExposureCustom, "custom" },
+};
+
+static const std::map<int32_t, std::string> AwbModeTable = {
+ { controls::AwbAuto, "normal" },
+ { controls::AwbIncandescent, "incandescent" },
+ { controls::AwbTungsten, "tungsten" },
+ { controls::AwbFluorescent, "fluorescent" },
+ { controls::AwbIndoor, "indoor" },
+ { controls::AwbDaylight, "daylight" },
+ { controls::AwbCustom, "custom" },
+};
+
+void IPARPi::queueRequest(const ControlList &controls)
+{
+ /* Clear the return metadata buffer. */
+ libcameraMetadata_.clear();
+
+ for (auto const &ctrl : controls) {
+ LOG(IPARPI, Info) << "Request ctrl: "
+ << controls::controls.at(ctrl.first)->name()
+ << " = " << ctrl.second.toString();
+
+ switch (ctrl.first) {
+ case controls::AE_ENABLE: {
+ RPi::Algorithm *agc = controller_.GetAlgorithm("agc");
+ ASSERT(agc);
+ if (ctrl.second.get<bool>() == false)
+ agc->Pause();
+ else
+ agc->Resume();
+
+ libcameraMetadata_.set(controls::AeEnable, ctrl.second.get<bool>());
+ break;
+ }
+
+ case controls::EXPOSURE_TIME: {
+ RPi::AgcAlgorithm *agc = dynamic_cast<RPi::AgcAlgorithm *>(
+ controller_.GetAlgorithm("agc"));
+ ASSERT(agc);
+ /* This expects units of micro-seconds. */
+ agc->SetFixedShutter(ctrl.second.get<int32_t>());
+ /* For the manual values to take effect, AGC must be unpaused. */
+ if (agc->IsPaused())
+ agc->Resume();
+
+ libcameraMetadata_.set(controls::ExposureTime, ctrl.second.get<int32_t>());
+ break;
+ }
+
+ case controls::ANALOGUE_GAIN: {
+ RPi::AgcAlgorithm *agc = dynamic_cast<RPi::AgcAlgorithm *>(
+ controller_.GetAlgorithm("agc"));
+ ASSERT(agc);
+ agc->SetFixedAnalogueGain(ctrl.second.get<float>());
+ /* For the manual values to take effect, AGC must be unpaused. */
+ if (agc->IsPaused())
+ agc->Resume();
+
+ libcameraMetadata_.set(controls::AnalogueGain,
+ ctrl.second.get<float>());
+ break;
+ }
+
+ case controls::AE_METERING_MODE: {
+ RPi::AgcAlgorithm *agc = dynamic_cast<RPi::AgcAlgorithm *>(
+ controller_.GetAlgorithm("agc"));
+ ASSERT(agc);
+
+ int32_t idx = ctrl.second.get<int32_t>();
+ if (MeteringModeTable.count(idx)) {
+ agc->SetMeteringMode(MeteringModeTable.at(idx));
+ libcameraMetadata_.set(controls::AeMeteringMode, idx);
+ } else {
+ LOG(IPARPI, Error) << "Metering mode " << idx
+ << " not recognised";
+ }
+ break;
+ }
+
+ case controls::AE_CONSTRAINT_MODE: {
+ RPi::AgcAlgorithm *agc = dynamic_cast<RPi::AgcAlgorithm *>(
+ controller_.GetAlgorithm("agc"));
+ ASSERT(agc);
+
+ int32_t idx = ctrl.second.get<int32_t>();
+ if (ConstraintModeTable.count(idx)) {
+ agc->SetConstraintMode(ConstraintModeTable.at(idx));
+ libcameraMetadata_.set(controls::AeConstraintMode, idx);
+ } else {
+ LOG(IPARPI, Error) << "Constraint mode " << idx
+ << " not recognised";
+ }
+ break;
+ }
+
+ case controls::AE_EXPOSURE_MODE: {
+ RPi::AgcAlgorithm *agc = dynamic_cast<RPi::AgcAlgorithm *>(
+ controller_.GetAlgorithm("agc"));
+ ASSERT(agc);
+
+ int32_t idx = ctrl.second.get<int32_t>();
+ if (ExposureModeTable.count(idx)) {
+ agc->SetExposureMode(ExposureModeTable.at(idx));
+ libcameraMetadata_.set(controls::AeExposureMode, idx);
+ } else {
+ LOG(IPARPI, Error) << "Exposure mode " << idx
+ << " not recognised";
+ }
+ break;
+ }
+
+ case controls::EXPOSURE_VALUE: {
+ RPi::AgcAlgorithm *agc = dynamic_cast<RPi::AgcAlgorithm *>(
+ controller_.GetAlgorithm("agc"));
+ ASSERT(agc);
+
+ /*
+ * The SetEv() method takes in a direct exposure multiplier.
+ * So convert to 2^EV
+ */
+ double ev = pow(2.0, ctrl.second.get<float>());
+ agc->SetEv(ev);
+ libcameraMetadata_.set(controls::ExposureValue,
+ ctrl.second.get<float>());
+ break;
+ }
+
+ case controls::AWB_ENABLE: {
+ RPi::Algorithm *awb = controller_.GetAlgorithm("awb");
+ ASSERT(awb);
+
+ if (ctrl.second.get<bool>() == false)
+ awb->Pause();
+ else
+ awb->Resume();
+
+ libcameraMetadata_.set(controls::AwbEnable,
+ ctrl.second.get<bool>());
+ break;
+ }
+
+ case controls::AWB_MODE: {
+ RPi::AwbAlgorithm *awb = dynamic_cast<RPi::AwbAlgorithm *>(
+ controller_.GetAlgorithm("awb"));
+ ASSERT(awb);
+
+ int32_t idx = ctrl.second.get<int32_t>();
+ if (AwbModeTable.count(idx)) {
+ awb->SetMode(AwbModeTable.at(idx));
+ libcameraMetadata_.set(controls::AwbMode, idx);
+ } else {
+ LOG(IPARPI, Error) << "AWB mode " << idx
+ << " not recognised";
+ }
+ break;
+ }
+
+ case controls::COLOUR_GAINS: {
+ auto gains = ctrl.second.get<Span<const float>>();
+ RPi::AwbAlgorithm *awb = dynamic_cast<RPi::AwbAlgorithm *>(
+ controller_.GetAlgorithm("awb"));
+ ASSERT(awb);
+
+ awb->SetManualGains(gains[0], gains[1]);
+ if (gains[0] != 0.0f && gains[1] != 0.0f)
+ /* A gain of 0.0f will switch back to auto mode. */
+ libcameraMetadata_.set(controls::ColourGains,
+ { gains[0], gains[1] });
+ break;
+ }
+
+ case controls::BRIGHTNESS: {
+ RPi::ContrastAlgorithm *contrast = dynamic_cast<RPi::ContrastAlgorithm *>(
+ controller_.GetAlgorithm("contrast"));
+ ASSERT(contrast);
+
+ contrast->SetBrightness(ctrl.second.get<float>() * 65536);
+ libcameraMetadata_.set(controls::Brightness,
+ ctrl.second.get<float>());
+ break;
+ }
+
+ case controls::CONTRAST: {
+ RPi::ContrastAlgorithm *contrast = dynamic_cast<RPi::ContrastAlgorithm *>(
+ controller_.GetAlgorithm("contrast"));
+ ASSERT(contrast);
+
+ contrast->SetContrast(ctrl.second.get<float>());
+ libcameraMetadata_.set(controls::Contrast,
+ ctrl.second.get<float>());
+ break;
+ }
+
+ case controls::SATURATION: {
+ RPi::CcmAlgorithm *ccm = dynamic_cast<RPi::CcmAlgorithm *>(
+ controller_.GetAlgorithm("ccm"));
+ ASSERT(ccm);
+
+ ccm->SetSaturation(ctrl.second.get<float>());
+ libcameraMetadata_.set(controls::Saturation,
+ ctrl.second.get<float>());
+ break;
+ }
+
+ default:
+ LOG(IPARPI, Warning)
+ << "Ctrl " << controls::controls.at(ctrl.first)->name()
+ << " is not handled.";
+ break;
+ }
+ }
+}
+
+void IPARPi::returnEmbeddedBuffer(unsigned int bufferId)
+{
+ IPAOperationData op;
+ op.operation = RPI_IPA_ACTION_EMBEDDED_COMPLETE;
+ op.data = { bufferId & RPiIpaMask::ID };
+ queueFrameAction.emit(0, op);
+}
+
+void IPARPi::prepareISP(unsigned int bufferId)
+{
+ struct DeviceStatus deviceStatus = {};
+ bool success = parseEmbeddedData(bufferId, deviceStatus);
+
+ /* Done with embedded data now, return to pipeline handler asap. */
+ returnEmbeddedBuffer(bufferId);
+
+ if (success) {
+ ControlList ctrls(isp_ctrls_);
+
+ rpiMetadata_.Clear();
+ rpiMetadata_.Set("device.status", deviceStatus);
+ controller_.Prepare(&rpiMetadata_);
+
+ /* Lock the metadata buffer to avoid constant locks/unlocks. */
+ std::unique_lock<RPi::Metadata> lock(rpiMetadata_);
+
+ AwbStatus *awbStatus = rpiMetadata_.GetLocked<AwbStatus>("awb.status");
+ if (awbStatus)
+ applyAWB(awbStatus, ctrls);
+
+ CcmStatus *ccmStatus = rpiMetadata_.GetLocked<CcmStatus>("ccm.status");
+ if (ccmStatus)
+ applyCCM(ccmStatus, ctrls);
+
+ AgcStatus *dgStatus = rpiMetadata_.GetLocked<AgcStatus>("agc.status");
+ if (dgStatus)
+ applyDG(dgStatus, ctrls);
+
+ AlscStatus *lsStatus = rpiMetadata_.GetLocked<AlscStatus>("alsc.status");
+ if (lsStatus)
+ applyLS(lsStatus, ctrls);
+
+ ContrastStatus *contrastStatus = rpiMetadata_.GetLocked<ContrastStatus>("contrast.status");
+ if (contrastStatus)
+ applyGamma(contrastStatus, ctrls);
+
+ BlackLevelStatus *blackLevelStatus = rpiMetadata_.GetLocked<BlackLevelStatus>("black_level.status");
+ if (blackLevelStatus)
+ applyBlackLevel(blackLevelStatus, ctrls);
+
+ GeqStatus *geqStatus = rpiMetadata_.GetLocked<GeqStatus>("geq.status");
+ if (geqStatus)
+ applyGEQ(geqStatus, ctrls);
+
+ SdnStatus *denoiseStatus = rpiMetadata_.GetLocked<SdnStatus>("sdn.status");
+ if (denoiseStatus)
+ applyDenoise(denoiseStatus, ctrls);
+
+ SharpenStatus *sharpenStatus = rpiMetadata_.GetLocked<SharpenStatus>("sharpen.status");
+ if (sharpenStatus)
+ applySharpen(sharpenStatus, ctrls);
+
+ DpcStatus *dpcStatus = rpiMetadata_.GetLocked<DpcStatus>("dpc.status");
+ if (dpcStatus)
+ applyDPC(dpcStatus, ctrls);
+
+ if (!ctrls.empty()) {
+ IPAOperationData op;
+ op.operation = RPI_IPA_ACTION_V4L2_SET_ISP;
+ op.controls.push_back(ctrls);
+ queueFrameAction.emit(0, op);
+ }
+ }
+}
+
+bool IPARPi::parseEmbeddedData(unsigned int bufferId, struct DeviceStatus &deviceStatus)
+{
+ auto it = buffersMemory_.find(bufferId);
+ if (it == buffersMemory_.end()) {
+ LOG(IPARPI, Error) << "Could not find embedded buffer!";
+ return false;
+ }
+
+ int size = buffers_.find(bufferId)->second.planes()[0].length;
+ helper_->Parser().SetBufferSize(size);
+ RPi::MdParser::Status status = helper_->Parser().Parse(it->second);
+ if (status != RPi::MdParser::Status::OK) {
+ LOG(IPARPI, Error) << "Embedded Buffer parsing failed, error " << status;
+ } else {
+ uint32_t exposure_lines, gain_code;
+ if (helper_->Parser().GetExposureLines(exposure_lines) != RPi::MdParser::Status::OK) {
+ LOG(IPARPI, Error) << "Exposure time failed";
+ return false;
+ }
+
+ deviceStatus.shutter_speed = helper_->Exposure(exposure_lines);
+ if (helper_->Parser().GetGainCode(gain_code) != RPi::MdParser::Status::OK) {
+ LOG(IPARPI, Error) << "Gain failed";
+ return false;
+ }
+
+ deviceStatus.analogue_gain = helper_->Gain(gain_code);
+ LOG(IPARPI, Debug) << "Metadata - Exposure : "
+ << deviceStatus.shutter_speed << " Gain : "
+ << deviceStatus.analogue_gain;
+ }
+
+ return true;
+}
+
+void IPARPi::processStats(unsigned int bufferId)
+{
+ auto it = buffersMemory_.find(bufferId);
+ if (it == buffersMemory_.end()) {
+ LOG(IPARPI, Error) << "Could not find stats buffer!";
+ return;
+ }
+
+ bcm2835_isp_stats *stats = static_cast<bcm2835_isp_stats *>(it->second);
+ RPi::StatisticsPtr statistics = std::make_shared<bcm2835_isp_stats>(*stats);
+ controller_.Process(statistics, &rpiMetadata_);
+
+ struct AgcStatus agcStatus;
+ if (rpiMetadata_.Get("agc.status", agcStatus) == 0)
+ applyAGC(&agcStatus);
+}
+
+void IPARPi::applyAWB(const struct AwbStatus *awbStatus, ControlList &ctrls)
+{
+ const auto gainR = isp_ctrls_.find(V4L2_CID_RED_BALANCE);
+ if (gainR == isp_ctrls_.end()) {
+ LOG(IPARPI, Error) << "Can't find red gain control";
+ return;
+ }
+
+ const auto gainB = isp_ctrls_.find(V4L2_CID_BLUE_BALANCE);
+ if (gainB == isp_ctrls_.end()) {
+ LOG(IPARPI, Error) << "Can't find blue gain control";
+ return;
+ }
+
+ LOG(IPARPI, Debug) << "Applying WB R: " << awbStatus->gain_r << " B: "
+ << awbStatus->gain_b;
+
+ ctrls.set(V4L2_CID_RED_BALANCE,
+ static_cast<int32_t>(awbStatus->gain_r * 1000));
+ ctrls.set(V4L2_CID_BLUE_BALANCE,
+ static_cast<int32_t>(awbStatus->gain_b * 1000));
+}
+
+void IPARPi::applyAGC(const struct AgcStatus *agcStatus)
+{
+ IPAOperationData op;
+ op.operation = RPI_IPA_ACTION_V4L2_SET_STAGGERED;
+
+ int32_t gain_code = helper_->GainCode(agcStatus->analogue_gain);
+ int32_t exposure_lines = helper_->ExposureLines(agcStatus->shutter_time);
+
+ if (unicam_ctrls_.find(V4L2_CID_ANALOGUE_GAIN) == unicam_ctrls_.end()) {
+ LOG(IPARPI, Error) << "Can't find analogue gain control";
+ return;
+ }
+
+ if (unicam_ctrls_.find(V4L2_CID_EXPOSURE) == unicam_ctrls_.end()) {
+ LOG(IPARPI, Error) << "Can't find exposure control";
+ return;
+ }
+
+ LOG(IPARPI, Debug) << "Applying AGC Exposure: " << agcStatus->shutter_time
+ << " (Shutter lines: " << exposure_lines << ") Gain: "
+ << agcStatus->analogue_gain << " (Gain Code: "
+ << gain_code << ")";
+
+ ControlList ctrls(unicam_ctrls_);
+ ctrls.set(V4L2_CID_ANALOGUE_GAIN, gain_code);
+ ctrls.set(V4L2_CID_EXPOSURE, exposure_lines);
+ op.controls.push_back(ctrls);
+ queueFrameAction.emit(0, op);
+}
+
+void IPARPi::applyDG(const struct AgcStatus *dgStatus, ControlList &ctrls)
+{
+ if (isp_ctrls_.find(V4L2_CID_DIGITAL_GAIN) == isp_ctrls_.end()) {
+ LOG(IPARPI, Error) << "Can't find digital gain control";
+ return;
+ }
+
+ ctrls.set(V4L2_CID_DIGITAL_GAIN,
+ static_cast<int32_t>(dgStatus->digital_gain * 1000));
+}
+
+void IPARPi::applyCCM(const struct CcmStatus *ccmStatus, ControlList &ctrls)
+{
+ if (isp_ctrls_.find(V4L2_CID_USER_BCM2835_ISP_CC_MATRIX) == isp_ctrls_.end()) {
+ LOG(IPARPI, Error) << "Can't find CCM control";
+ return;
+ }
+
+ bcm2835_isp_custom_ccm ccm;
+ for (int i = 0; i < 9; i++) {
+ ccm.ccm.ccm[i / 3][i % 3].den = 1000;
+ ccm.ccm.ccm[i / 3][i % 3].num = 1000 * ccmStatus->matrix[i];
+ }
+
+ ccm.enabled = 1;
+ ccm.ccm.offsets[0] = ccm.ccm.offsets[1] = ccm.ccm.offsets[2] = 0;
+
+ ControlValue c(Span<const uint8_t>{ reinterpret_cast<uint8_t *>(&ccm),
+ sizeof(ccm) });
+ ctrls.set(V4L2_CID_USER_BCM2835_ISP_CC_MATRIX, c);
+}
+
+void IPARPi::applyGamma(const struct ContrastStatus *contrastStatus, ControlList &ctrls)
+{
+ if (isp_ctrls_.find(V4L2_CID_USER_BCM2835_ISP_GAMMA) == isp_ctrls_.end()) {
+ LOG(IPARPI, Error) << "Can't find Gamma control";
+ return;
+ }
+
+ struct bcm2835_isp_gamma gamma;
+ gamma.enabled = 1;
+ for (int i = 0; i < CONTRAST_NUM_POINTS; i++) {
+ gamma.x[i] = contrastStatus->points[i].x;
+ gamma.y[i] = contrastStatus->points[i].y;
+ }
+
+ ControlValue c(Span<const uint8_t>{ reinterpret_cast<uint8_t *>(&gamma),
+ sizeof(gamma) });
+ ctrls.set(V4L2_CID_USER_BCM2835_ISP_GAMMA, c);
+}
+
+void IPARPi::applyBlackLevel(const struct BlackLevelStatus *blackLevelStatus, ControlList &ctrls)
+{
+ if (isp_ctrls_.find(V4L2_CID_USER_BCM2835_ISP_BLACK_LEVEL) == isp_ctrls_.end()) {
+ LOG(IPARPI, Error) << "Can't find black level control";
+ return;
+ }
+
+ bcm2835_isp_black_level blackLevel;
+ blackLevel.enabled = 1;
+ blackLevel.black_level_r = blackLevelStatus->black_level_r;
+ blackLevel.black_level_g = blackLevelStatus->black_level_g;
+ blackLevel.black_level_b = blackLevelStatus->black_level_b;
+
+ ControlValue c(Span<const uint8_t>{ reinterpret_cast<uint8_t *>(&blackLevel),
+ sizeof(blackLevel) });
+ ctrls.set(V4L2_CID_USER_BCM2835_ISP_BLACK_LEVEL, c);
+}
+
+void IPARPi::applyGEQ(const struct GeqStatus *geqStatus, ControlList &ctrls)
+{
+ if (isp_ctrls_.find(V4L2_CID_USER_BCM2835_ISP_GEQ) == isp_ctrls_.end()) {
+ LOG(IPARPI, Error) << "Can't find geq control";
+ return;
+ }
+
+ bcm2835_isp_geq geq;
+ geq.enabled = 1;
+ geq.offset = geqStatus->offset;
+ geq.slope.den = 1000;
+ geq.slope.num = 1000 * geqStatus->slope;
+
+ ControlValue c(Span<const uint8_t>{ reinterpret_cast<uint8_t *>(&geq),
+ sizeof(geq) });
+ ctrls.set(V4L2_CID_USER_BCM2835_ISP_GEQ, c);
+}
+
+void IPARPi::applyDenoise(const struct SdnStatus *denoiseStatus, ControlList &ctrls)
+{
+ if (isp_ctrls_.find(V4L2_CID_USER_BCM2835_ISP_DENOISE) == isp_ctrls_.end()) {
+ LOG(IPARPI, Error) << "Can't find denoise control";
+ return;
+ }
+
+ bcm2835_isp_denoise denoise;
+ denoise.enabled = 1;
+ denoise.constant = denoiseStatus->noise_constant;
+ denoise.slope.num = 1000 * denoiseStatus->noise_slope;
+ denoise.slope.den = 1000;
+ denoise.strength.num = 1000 * denoiseStatus->strength;
+ denoise.strength.den = 1000;
+
+ ControlValue c(Span<const uint8_t>{ reinterpret_cast<uint8_t *>(&denoise),
+ sizeof(denoise) });
+ ctrls.set(V4L2_CID_USER_BCM2835_ISP_DENOISE, c);
+}
+
+void IPARPi::applySharpen(const struct SharpenStatus *sharpenStatus, ControlList &ctrls)
+{
+ if (isp_ctrls_.find(V4L2_CID_USER_BCM2835_ISP_SHARPEN) == isp_ctrls_.end()) {
+ LOG(IPARPI, Error) << "Can't find sharpen control";
+ return;
+ }
+
+ bcm2835_isp_sharpen sharpen;
+ sharpen.enabled = 1;
+ sharpen.threshold.num = 1000 * sharpenStatus->threshold;
+ sharpen.threshold.den = 1000;
+ sharpen.strength.num = 1000 * sharpenStatus->strength;
+ sharpen.strength.den = 1000;
+ sharpen.limit.num = 1000 * sharpenStatus->limit;
+ sharpen.limit.den = 1000;
+
+ ControlValue c(Span<const uint8_t>{ reinterpret_cast<uint8_t *>(&sharpen),
+ sizeof(sharpen) });
+ ctrls.set(V4L2_CID_USER_BCM2835_ISP_SHARPEN, c);
+}
+
+void IPARPi::applyDPC(const struct DpcStatus *dpcStatus, ControlList &ctrls)
+{
+ if (isp_ctrls_.find(V4L2_CID_USER_BCM2835_ISP_DPC) == isp_ctrls_.end()) {
+ LOG(IPARPI, Error) << "Can't find DPC control";
+ return;
+ }
+
+ bcm2835_isp_dpc dpc;
+ dpc.enabled = 1;
+ dpc.strength = dpcStatus->strength;
+
+ ControlValue c(Span<const uint8_t>{ reinterpret_cast<uint8_t *>(&dpc),
+ sizeof(dpc) });
+ ctrls.set(V4L2_CID_USER_BCM2835_ISP_DPC, c);
+}
+
+void IPARPi::applyLS(const struct AlscStatus *lsStatus, ControlList &ctrls)
+{
+ if (isp_ctrls_.find(V4L2_CID_USER_BCM2835_ISP_LENS_SHADING) == isp_ctrls_.end()) {
+ LOG(IPARPI, Error) << "Can't find LS control";
+ return;
+ }
+
+ /*
+ * Program lens shading tables into pipeline.
+ * Choose smallest cell size that won't exceed 63x48 cells.
+ */
+ const int cell_sizes[] = { 16, 32, 64, 128, 256 };
+ unsigned int num_cells = ARRAY_SIZE(cell_sizes);
+ unsigned int i, w, h, cell_size;
+ for (i = 0; i < num_cells; i++) {
+ cell_size = cell_sizes[i];
+ w = (mode_.width + cell_size - 1) / cell_size;
+ h = (mode_.height + cell_size - 1) / cell_size;
+ if (w < 64 && h <= 48)
+ break;
+ }
+
+ if (i == num_cells) {
+ LOG(IPARPI, Error) << "Cannot find cell size";
+ return;
+ }
+
+ /* We're going to supply corner sampled tables, 16 bit samples. */
+ w++, h++;
+ bcm2835_isp_lens_shading ls = {
+ .enabled = 1,
+ .grid_cell_size = cell_size,
+ .grid_width = w,
+ .grid_stride = w,
+ .grid_height = h,
+ .mem_handle_table = lsTableHandle_,
+ .ref_transform = 0,
+ .corner_sampled = 1,
+ .gain_format = GAIN_FORMAT_U4P10
+ };
+
+ if (!lsTable_ || w * h * 4 * sizeof(uint16_t) > MAX_LS_GRID_SIZE) {
+ LOG(IPARPI, Error) << "Do not have a correctly allocate lens shading table!";
+ return;
+ }
+
+ if (lsStatus) {
+ /* Format will be u4.10 */
+ uint16_t *grid = static_cast<uint16_t *>(lsTable_);
+
+ resampleTable(grid, lsStatus->r, w, h);
+ resampleTable(grid + w * h, lsStatus->g, w, h);
+ std::memcpy(grid + 2 * w * h, grid + w * h, w * h * sizeof(uint16_t));
+ resampleTable(grid + 3 * w * h, lsStatus->b, w, h);
+ }
+
+ ControlValue c(Span<const uint8_t>{ reinterpret_cast<uint8_t *>(&ls),
+ sizeof(ls) });
+ ctrls.set(V4L2_CID_USER_BCM2835_ISP_LENS_SHADING, c);
+}
+
+/*
+ * Resamples a 16x12 table with central sampling to dest_w x dest_h with corner
+ * sampling.
+ */
+void IPARPi::resampleTable(uint16_t dest[], double const src[12][16],
+ int dest_w, int dest_h)
+{
+ /*
+ * Precalculate and cache the x sampling locations and phases to
+ * save recomputing them on every row.
+ */
+ assert(dest_w > 1 && dest_h > 1 && dest_w <= 64);
+ int x_lo[64], x_hi[64];
+ double xf[64];
+ double x = -0.5, x_inc = 16.0 / (dest_w - 1);
+ for (int i = 0; i < dest_w; i++, x += x_inc) {
+ x_lo[i] = floor(x);
+ xf[i] = x - x_lo[i];
+ x_hi[i] = x_lo[i] < 15 ? x_lo[i] + 1 : 15;
+ x_lo[i] = x_lo[i] > 0 ? x_lo[i] : 0;
+ }
+
+ /* Now march over the output table generating the new values. */
+ double y = -0.5, y_inc = 12.0 / (dest_h - 1);
+ for (int j = 0; j < dest_h; j++, y += y_inc) {
+ int y_lo = floor(y);
+ double yf = y - y_lo;
+ int y_hi = y_lo < 11 ? y_lo + 1 : 11;
+ y_lo = y_lo > 0 ? y_lo : 0;
+ double const *row_above = src[y_lo];
+ double const *row_below = src[y_hi];
+ for (int i = 0; i < dest_w; i++) {
+ double above = row_above[x_lo[i]] * (1 - xf[i])
+ + row_above[x_hi[i]] * xf[i];
+ double below = row_below[x_lo[i]] * (1 - xf[i])
+ + row_below[x_hi[i]] * xf[i];
+ int result = floor(1024 * (above * (1 - yf) + below * yf) + .5);
+ *(dest++) = result > 16383 ? 16383 : result; /* want u4.10 */
+ }
+ }
+}
+
+/*
+ * External IPA module interface
+ */
+
+extern "C" {
+const struct IPAModuleInfo ipaModuleInfo = {
+ IPA_MODULE_API_VERSION,
+ 1,
+ "PipelineHandlerRPi",
+ "raspberrypi",
+};
+
+struct ipa_context *ipaCreate()
+{
+ return new IPAInterfaceWrapper(std::make_unique<IPARPi>());
+}
+
+}; /* extern "C" */
+
+} /* namespace libcamera */