diff options
Diffstat (limited to 'src/ipa/rpi/controller/rpi/hdr.cpp')
-rw-r--r-- | src/ipa/rpi/controller/rpi/hdr.cpp | 183 |
1 files changed, 125 insertions, 58 deletions
diff --git a/src/ipa/rpi/controller/rpi/hdr.cpp b/src/ipa/rpi/controller/rpi/hdr.cpp index 295e4c5f..fb580548 100644 --- a/src/ipa/rpi/controller/rpi/hdr.cpp +++ b/src/ipa/rpi/controller/rpi/hdr.cpp @@ -10,6 +10,7 @@ #include <libcamera/base/log.h> #include "../agc_status.h" +#include "../alsc_status.h" #include "../stitch_status.h" #include "../tonemap_status.h" @@ -37,29 +38,26 @@ void HdrConfig::read(const libcamera::YamlObject ¶ms, const std::string &mod for (const auto &[k, v] : params["channel_map"].asDict()) channelMap[v.get<unsigned int>().value()] = k; + /* Lens shading related parameters. */ + if (params.contains("spatial_gain")) { + spatialGain.read(params["spatial_gain"]); + diffusion = params["diffusion"].get<unsigned int>(3); + /* Clip to an arbitrary limit just to stop typos from killing the system! */ + const unsigned int MAX_DIFFUSION = 15; + if (diffusion > MAX_DIFFUSION) { + diffusion = MAX_DIFFUSION; + LOG(RPiHdr, Warning) << "Diffusion value clipped to " << MAX_DIFFUSION; + } + } + /* Read any tonemap parameters. */ tonemapEnable = params["tonemap_enable"].get<int>(0); detailConstant = params["detail_constant"].get<uint16_t>(50); detailSlope = params["detail_slope"].get<double>(8.0); iirStrength = params["iir_strength"].get<double>(8.0); strength = params["strength"].get<double>(1.5); - - if (tonemapEnable) { - /* We need either an explicit tonemap, or the information to build them dynamically. */ - if (params.contains("tonemap")) { - if (tonemap.read(params["tonemap"])) - LOG(RPiHdr, Fatal) << "Failed to read tonemap in HDR mode " << name; - } else { - if (target.read(params["target"])) - LOG(RPiHdr, Fatal) << "Failed to read target in HDR mode " << name; - if (maxSlope.read(params["max_slope"])) - LOG(RPiHdr, Fatal) << "Failed to read max_slope in HDR mode " << name; - minSlope = params["min_slope"].get<double>(1.0); - maxGain = params["max_gain"].get<double>(64.0); - step = params["step"].get<double>(0.05); - speed = params["speed"].get<double>(0.5); - } - } + if (tonemapEnable) + tonemap.read(params["tonemap"]); /* Read any stitch parameters. */ stitchEnable = params["stitch_enable"].get<int>(0); @@ -73,6 +71,10 @@ void HdrConfig::read(const libcamera::YamlObject ¶ms, const std::string &mod Hdr::Hdr(Controller *controller) : HdrAlgorithm(controller) { + regions_ = controller->getHardwareConfig().awbRegions; + numRegions_ = regions_.width * regions_.height; + gains_[0].resize(numRegions_, 1.0); + gains_[1].resize(numRegions_, 1.0); } char const *Hdr::name() const @@ -143,7 +145,40 @@ void Hdr::switchMode([[maybe_unused]] CameraMode const &cameraMode, Metadata *me delayedStatus_ = status_; } -bool Hdr::updateTonemap(StatisticsPtr &stats, HdrConfig &config) +void Hdr::prepare(Metadata *imageMetadata) +{ + AgcStatus agcStatus; + if (!imageMetadata->get<AgcStatus>("agc.delayed_status", agcStatus)) + delayedStatus_ = agcStatus.hdr; + + auto it = config_.find(delayedStatus_.mode); + if (it == config_.end()) { + /* Shouldn't be possible. There would be nothing we could do. */ + LOG(RPiHdr, Warning) << "Unexpected HDR mode " << delayedStatus_.mode; + return; + } + + HdrConfig &config = it->second; + if (config.spatialGain.empty()) + return; + + AlscStatus alscStatus{}; /* some compilers seem to require the braces */ + if (imageMetadata->get<AlscStatus>("alsc.status", alscStatus)) { + LOG(RPiHdr, Warning) << "No ALSC status"; + return; + } + + /* The final gains ended up in the odd or even array, according to diffusion. */ + std::vector<double> &gains = gains_[config.diffusion & 1]; + for (unsigned int i = 0; i < numRegions_; i++) { + alscStatus.r[i] *= gains[i]; + alscStatus.g[i] *= gains[i]; + alscStatus.b[i] *= gains[i]; + } + imageMetadata->set("alsc.status", alscStatus); +} + +bool Hdr::updateTonemap([[maybe_unused]] StatisticsPtr &stats, HdrConfig &config) { /* When there's a change of HDR mode we start over with a new tonemap curve. */ if (delayedStatus_.mode != previousMode_) { @@ -162,56 +197,85 @@ bool Hdr::updateTonemap(StatisticsPtr &stats, HdrConfig &config) } /* - * We only update the tonemap on short frames when in multi-exposure mode. But + * We wouldn't update the tonemap on short frames when in multi-exposure mode. But * we still need to output the most recent tonemap. Possibly we should make the * config indicate the channels for which we should update the tonemap? */ if (delayedStatus_.mode == "MultiExposure" && delayedStatus_.channel != "short") return true; - /* Build the tonemap dynamically using the image histogram. */ - Pwl tonemap; - tonemap.append(0, 0); - - double prev_input_val = 0; - double prev_output_val = 0; - const double step2 = config.step / 2; - for (double q = config.step; q < 1.0 - step2; q += config.step) { - double q_lo = std::max(0.0, q - step2); - double q_hi = std::min(1.0, q + step2); - double iqm = stats->yHist.interQuantileMean(q_lo, q_hi); - double input_val = std::min(iqm * 64, 65535.0); - - if (input_val > prev_input_val + 1) { - /* We're going to calcualte a Pwl to map input_val to this output_val. */ - double want_output_val = config.target.eval(q) * 65535; - /* But we must ensure we aren't applying too small or too great a local gain. */ - double want_slope = (want_output_val - prev_output_val) / (input_val - prev_input_val); - double slope = std::clamp(want_slope, config.minSlope, - config.maxSlope.eval(q)); - double output_val = prev_output_val + slope * (input_val - prev_input_val); - output_val = std::min(output_val, config.maxGain * input_val); - output_val = std::clamp(output_val, 0.0, 65535.0); - /* Let the tonemap adapte slightly more gently from frame to frame. */ - if (!tonemap_.empty()) { - double old_output_val = tonemap_.eval(input_val); - output_val = config.speed * output_val + - (1 - config.speed) * old_output_val; - } - LOG(RPiHdr, Debug) << "q " << q << " input " << input_val - << " output " << want_output_val << " slope " << want_slope - << " slope " << slope << " output " << output_val; - tonemap.append(input_val, output_val); - prev_input_val = input_val; - prev_output_val = output_val; + /* + * If we wanted to build or adjust tonemaps dynamically, this would be the place + * to do it. But for now we seem to be getting by without. + */ + + return true; +} + +static void averageGains(std::vector<double> &src, std::vector<double> &dst, const Size &size) +{ +#define IDX(y, x) ((y)*size.width + (x)) + unsigned int lastCol = size.width - 1; /* index of last column */ + unsigned int preLastCol = lastCol - 1; /* and the column before that */ + unsigned int lastRow = size.height - 1; /* index of last row */ + unsigned int preLastRow = lastRow - 1; /* and the row before that */ + + /* Corners first. */ + dst[IDX(0, 0)] = (src[IDX(0, 0)] + src[IDX(0, 1)] + src[IDX(1, 0)]) / 3; + dst[IDX(0, lastCol)] = (src[IDX(0, lastCol)] + src[IDX(0, preLastCol)] + src[IDX(1, lastCol)]) / 3; + dst[IDX(lastRow, 0)] = (src[IDX(lastRow, 0)] + src[IDX(lastRow, 1)] + src[IDX(preLastRow, 0)]) / 3; + dst[IDX(lastRow, lastCol)] = (src[IDX(lastRow, lastCol)] + src[IDX(lastRow, preLastCol)] + + src[IDX(preLastRow, lastCol)]) / + 3; + + /* Now the edges. */ + for (unsigned int i = 1; i < lastCol; i++) { + dst[IDX(0, i)] = (src[IDX(0, i - 1)] + src[IDX(0, i)] + src[IDX(0, i + 1)] + src[IDX(1, i)]) / 4; + dst[IDX(lastRow, i)] = (src[IDX(lastRow, i - 1)] + src[IDX(lastRow, i)] + + src[IDX(lastRow, i + 1)] + src[IDX(preLastRow, i)]) / + 4; + } + + for (unsigned int i = 1; i < lastRow; i++) { + dst[IDX(i, 0)] = (src[IDX(i - 1, 0)] + src[IDX(i, 0)] + src[IDX(i + 1, 0)] + src[IDX(i, 1)]) / 4; + dst[IDX(i, 31)] = (src[IDX(i - 1, lastCol)] + src[IDX(i, lastCol)] + + src[IDX(i + 1, lastCol)] + src[IDX(i, preLastCol)]) / + 4; + } + + /* Finally the interior. */ + for (unsigned int j = 1; j < lastRow; j++) { + for (unsigned int i = 1; i < lastCol; i++) { + dst[IDX(j, i)] = (src[IDX(j - 1, i)] + src[IDX(j, i - 1)] + src[IDX(j, i)] + + src[IDX(j, i + 1)] + src[IDX(j + 1, i)]) / + 5; } } +} - tonemap.append(65535, 65535); - /* tonemap.debug(); */ - tonemap_ = tonemap; +void Hdr::updateGains(StatisticsPtr &stats, HdrConfig &config) +{ + if (config.spatialGain.empty()) + return; - return true; + /* When alternating exposures, only compute these gains for the short frame. */ + if (delayedStatus_.mode == "MultiExposure" && delayedStatus_.channel != "short") + return; + + for (unsigned int i = 0; i < numRegions_; i++) { + auto ®ion = stats->awbRegions.get(i); + unsigned int counted = region.counted; + counted += (counted == 0); /* avoid div by zero */ + double r = region.val.rSum / counted; + double g = region.val.gSum / counted; + double b = region.val.bSum / counted; + double brightness = std::max({ r, g, b }) / 65535; + gains_[0][i] = config.spatialGain.eval(brightness); + } + + /* Ping-pong between the two gains_ buffers. */ + for (unsigned int i = 0; i < config.diffusion; i++) + averageGains(gains_[i & 1], gains_[(i & 1) ^ 1], regions_); } void Hdr::process(StatisticsPtr &stats, Metadata *imageMetadata) @@ -237,6 +301,9 @@ void Hdr::process(StatisticsPtr &stats, Metadata *imageMetadata) HdrConfig &config = it->second; + /* Update the spatially varying gains. They get written in prepare(). */ + updateGains(stats, config); + if (updateTonemap(stats, config)) { /* Add tonemap.status metadata. */ TonemapStatus tonemapStatus; |