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{ "id": 19829, "url": "https://patchwork.libcamera.org/api/1.1/patches/19829/?format=api", "web_url": "https://patchwork.libcamera.org/patch/19829/", "project": { "id": 1, "url": "https://patchwork.libcamera.org/api/1.1/projects/1/?format=api", "name": "libcamera", "link_name": "libcamera", "list_id": "libcamera_core", "list_email": "libcamera-devel@lists.libcamera.org", "web_url": "", "scm_url": "", "webscm_url": "" }, "msgid": "<20240404084657.353464-10-mzamazal@redhat.com>", "date": "2024-04-04T08:46:46", "name": "[v7,09/18] libcamera: software_isp: Add DebayerCpu class", "commit_ref": null, "pull_url": null, "state": "superseded", "archived": false, "hash": "405e1e1682cc38e4f85a6ec9efd728ce96e0fbce", "submitter": { "id": 177, "url": "https://patchwork.libcamera.org/api/1.1/people/177/?format=api", "name": "Milan Zamazal", "email": "mzamazal@redhat.com" }, "delegate": null, "mbox": "https://patchwork.libcamera.org/patch/19829/mbox/", "series": [ { "id": 4246, "url": "https://patchwork.libcamera.org/api/1.1/series/4246/?format=api", "web_url": "https://patchwork.libcamera.org/project/libcamera/list/?series=4246", "date": "2024-04-04T08:46:37", "name": "libcamera: introduce Software ISP and Software IPA", "version": 7, "mbox": "https://patchwork.libcamera.org/series/4246/mbox/" } ], "comments": "https://patchwork.libcamera.org/api/patches/19829/comments/", "check": "pending", "checks": "https://patchwork.libcamera.org/api/patches/19829/checks/", "tags": {}, "headers": { "Return-Path": "<libcamera-devel-bounces@lists.libcamera.org>", "X-Original-To": "parsemail@patchwork.libcamera.org", "Delivered-To": "parsemail@patchwork.libcamera.org", "Received": [ "from lancelot.ideasonboard.com (lancelot.ideasonboard.com\n\t[92.243.16.209])\n\tby patchwork.libcamera.org (Postfix) with ESMTPS id D6F1AC327C\n\tfor <parsemail@patchwork.libcamera.org>;\n\tThu, 4 Apr 2024 08:47:47 +0000 (UTC)", "from lancelot.ideasonboard.com (localhost [IPv6:::1])\n\tby lancelot.ideasonboard.com (Postfix) with ESMTP id 8BC866338E;\n\tThu, 4 Apr 2024 10:47:47 +0200 (CEST)", "from us-smtp-delivery-124.mimecast.com\n\t(us-smtp-delivery-124.mimecast.com [170.10.133.124])\n\tby lancelot.ideasonboard.com (Postfix) with ESMTPS id 963C96337B\n\tfor <libcamera-devel@lists.libcamera.org>;\n\tThu, 4 Apr 2024 10:47:46 +0200 (CEST)", "from mimecast-mx02.redhat.com (mx-ext.redhat.com [66.187.233.73])\n\tby relay.mimecast.com with ESMTP with STARTTLS (version=TLSv1.3,\n\tcipher=TLS_AES_256_GCM_SHA384) id us-mta-496-FIbD7W2SPcOjVxJZwB33xA-1;\n\tThu, 04 Apr 2024 04:47:41 -0400", "from smtp.corp.redhat.com\n\t(int-mx05.intmail.prod.int.rdu2.redhat.com [10.11.54.5])\n\t(using TLSv1.3 with cipher TLS_AES_256_GCM_SHA384 (256/256 bits)\n\tkey-exchange X25519 server-signature RSA-PSS (2048 bits)\n\tserver-digest SHA256) (No client certificate requested)\n\tby mimecast-mx02.redhat.com (Postfix) with ESMTPS id AEDF33C12635;\n\tThu, 4 Apr 2024 08:47:40 +0000 (UTC)", "from nuthatch.brq.redhat.com (unknown [10.43.17.39])\n\tby smtp.corp.redhat.com (Postfix) with ESMTP id 3C85D8173;\n\tThu, 4 Apr 2024 08:47:39 +0000 (UTC)" ], "Authentication-Results": "lancelot.ideasonboard.com; dkim=pass (1024-bit key;\n\tunprotected) header.d=redhat.com header.i=@redhat.com\n\theader.b=\"ZNdINBuI\"; dkim-atps=neutral", "DKIM-Signature": "v=1; a=rsa-sha256; c=relaxed/relaxed; d=redhat.com;\n\ts=mimecast20190719; t=1712220465;\n\th=from:from:reply-to:subject:subject:date:date:message-id:message-id:\n\tto:to:cc:cc:mime-version:mime-version:content-type:content-type:\n\tcontent-transfer-encoding:content-transfer-encoding:\n\tin-reply-to:in-reply-to:references:references;\n\tbh=lFLFtpEhrGl/59Iw+NpQC1UTdkgpXIjI0XHtDnvF/q8=;\n\tb=ZNdINBuI+q7kOCpPcFIK7xRY9IDcBLP5Tpl9pAr/wBHT9YOkjlx89SUZuzNRpMfw7c9rdc\n\tLp3gLvNPldWjE4VeWcwhjJP9dEMPhURNNKGnpIF+9RuHcNzp9K+WxEAO52/qx04ZFQ6AZB\n\tFFtUARALtzGjZPUrfFiS9sloNAb5EDY=", "X-MC-Unique": "FIbD7W2SPcOjVxJZwB33xA-1", "From": "Milan Zamazal <mzamazal@redhat.com>", "To": "libcamera-devel@lists.libcamera.org", "Cc": "Hans de Goede <hdegoede@redhat.com>,\n\tAndrei Konovalov <andrey.konovalov.ynk@gmail.com>,\n\tBryan O'Donoghue <bryan.odonoghue@linaro.org>,\n\tMaxime Ripard <mripard@redhat.com>, Milan Zamazal <mzamazal@redhat.com>, \n\tPavel Machek <pavel@ucw.cz>,\n\tKieran Bingham <kieran.bingham@ideasonboard.com>,\n\tLaurent Pinchart <laurent.pinchart@ideasonboard.com>,\n\tDennis Bonke <admin@dennisbonke.com>,\n\tAndrey Konovalov <andrey.konovalov@linaro.org>", "Subject": "[PATCH v7 09/18] libcamera: software_isp: Add DebayerCpu class", "Date": "Thu, 4 Apr 2024 10:46:46 +0200", "Message-ID": "<20240404084657.353464-10-mzamazal@redhat.com>", "In-Reply-To": "<20240404084657.353464-1-mzamazal@redhat.com>", "References": "<20240404084657.353464-1-mzamazal@redhat.com>", "MIME-Version": "1.0", "X-Scanned-By": "MIMEDefang 3.4.1 on 10.11.54.5", "X-Mimecast-Spam-Score": "0", "X-Mimecast-Originator": "redhat.com", "Content-Transfer-Encoding": "8bit", "Content-Type": "text/plain; charset=\"US-ASCII\"; x-default=true", "X-BeenThere": "libcamera-devel@lists.libcamera.org", "X-Mailman-Version": "2.1.29", "Precedence": "list", "List-Id": "<libcamera-devel.lists.libcamera.org>", "List-Unsubscribe": "<https://lists.libcamera.org/options/libcamera-devel>,\n\t<mailto:libcamera-devel-request@lists.libcamera.org?subject=unsubscribe>", "List-Archive": "<https://lists.libcamera.org/pipermail/libcamera-devel/>", "List-Post": "<mailto:libcamera-devel@lists.libcamera.org>", "List-Help": "<mailto:libcamera-devel-request@lists.libcamera.org?subject=help>", "List-Subscribe": "<https://lists.libcamera.org/listinfo/libcamera-devel>,\n\t<mailto:libcamera-devel-request@lists.libcamera.org?subject=subscribe>", "Errors-To": "libcamera-devel-bounces@lists.libcamera.org", "Sender": "\"libcamera-devel\" <libcamera-devel-bounces@lists.libcamera.org>" }, "content": "From: Hans de Goede <hdegoede@redhat.com>\n\nAdd CPU based debayering implementation. This initial implementation\nonly supports debayering packed 10 bits per pixel bayer data in\nthe 4 standard bayer orders.\n\nDoxygen documentation by Dennis Bonke.\n\nTested-by: Bryan O'Donoghue <bryan.odonoghue@linaro.org> # sc8280xp Lenovo x13s\nTested-by: Pavel Machek <pavel@ucw.cz>\nReviewed-by: Pavel Machek <pavel@ucw.cz>\nCo-developed-by: Dennis Bonke <admin@dennisbonke.com>\nSigned-off-by: Dennis Bonke <admin@dennisbonke.com>\nCo-developed-by: Andrey Konovalov <andrey.konovalov@linaro.org>\nSigned-off-by: Andrey Konovalov <andrey.konovalov@linaro.org>\nCo-developed-by: Pavel Machek <pavel@ucw.cz>\nSigned-off-by: Pavel Machek <pavel@ucw.cz>\nSigned-off-by: Hans de Goede <hdegoede@redhat.com>\nReviewed-by: Milan Zamazal <mzamazal@redhat.com>\n---\n src/libcamera/software_isp/TODO | 73 +++\n src/libcamera/software_isp/debayer_cpu.cpp | 640 +++++++++++++++++++++\n src/libcamera/software_isp/debayer_cpu.h | 143 +++++\n src/libcamera/software_isp/meson.build | 1 +\n 4 files changed, 857 insertions(+)\n create mode 100644 src/libcamera/software_isp/debayer_cpu.cpp\n create mode 100644 src/libcamera/software_isp/debayer_cpu.h", "diff": "diff --git a/src/libcamera/software_isp/TODO b/src/libcamera/software_isp/TODO\nindex 7929e73e..29be5386 100644\n--- a/src/libcamera/software_isp/TODO\n+++ b/src/libcamera/software_isp/TODO\n@@ -100,3 +100,76 @@ representation in the implementation of process() before using them ?\n \n Possibly something to address later, by storing ISP parameters in\n per-frame buffers like we do for hardware ISPs.\n+\n+---\n+\n+6. Input buffer copying configuration\n+\n+> DebayerCpu::DebayerCpu(std::unique_ptr<SwStatsCpu> stats)\n+> \t: stats_(std::move(stats)), gammaCorrection_(1.0)\n+> {\n+> \tenableInputMemcpy_ = true;\n+\n+Set this appropriately and/or make it configurable.\n+\n+---\n+\n+7. Performance measurement configuration\n+\n+> void DebayerCpu::process(FrameBuffer *input, FrameBuffer *output, DebayerParams params)\n+> /* Measure before emitting signals */\n+> if (measuredFrames_ < DebayerCpu::kLastFrameToMeasure &&\n+> ++measuredFrames_ > DebayerCpu::kFramesToSkip) {\n+> \ttimespec frameEndTime = {};\n+> \tclock_gettime(CLOCK_MONOTONIC_RAW, &frameEndTime);\n+> \tframeProcessTime_ += timeDiff(frameEndTime, frameStartTime);\n+> \tif (measuredFrames_ == DebayerCpu::kLastFrameToMeasure) {\n+> \t\tconst unsigned int measuredFrames = DebayerCpu::kLastFrameToMeasure -\n+> \t\t\t\t\t\t DebayerCpu::kFramesToSkip;\n+> \t\tLOG(Debayer, Info)\n+> \t\t\t<< \"Processed \" << measuredFrames\n+> \t\t\t<< \" frames in \" << frameProcessTime_ / 1000 << \"us, \"\n+> \t\t\t<< frameProcessTime_ / (1000 * measuredFrames)\n+> \t\t\t<< \" us/frame\";\n+> \t}\n+> }\n+\n+I wonder if there would be a way to control at runtime when/how to\n+perform those measurements. Maybe that's a bit overkill.\n+\n+---\n+\n+8. DebayerCpu cleanups\n+\n+> >> class DebayerCpu : public Debayer, public Object\n+> >> const SharedFD &getStatsFD() { return stats_->getStatsFD(); }\n+> >\n+> > This,\n+>\n+> Note the statistics pass-through stuff is sort of a necessary evil\n+> since we want one main loop going over the data line by line and\n+> doing both debayering as well as stats while the line is still\n+> hot in the l2 cache. And things like the process2() and process4()\n+> loops are highly CPU debayering specific so I don't think we should\n+> move those out of the CpuDebayer code.\n+\n+Yes, that I understood from the review. \"necessary evil\" is indeed the\n+right term :-) I expect it will take quite some design skills to balance\n+the need for performances and the need for a maintainable architecture.\n+\n+> > plus the fact that this class handles colour gains and gamma,\n+> > makes me thing we have either a naming issue, or an architecture issue.\n+>\n+> I agree that this does a bit more then debayering, although\n+> the debayering really is the main thing it does.\n+>\n+> I guess the calculation of the rgb lookup tables which do the\n+> color gains and gamma could be moved outside of this class,\n+> that might even be beneficial for GPU based debayering assuming\n+> that that is going to use rgb lookup tables too (it could\n+> implement actual color gains + gamma correction in some different\n+> way).\n+>\n+> I think this falls under the lets wait until we have a GPU\n+> based SoftISP MVP/POC and then do some refactoring to see which\n+> bits should go where.\ndiff --git a/src/libcamera/software_isp/debayer_cpu.cpp b/src/libcamera/software_isp/debayer_cpu.cpp\nnew file mode 100644\nindex 00000000..6bc4b167\n--- /dev/null\n+++ b/src/libcamera/software_isp/debayer_cpu.cpp\n@@ -0,0 +1,640 @@\n+/* SPDX-License-Identifier: LGPL-2.1-or-later */\n+/*\n+ * Copyright (C) 2023, Linaro Ltd\n+ * Copyright (C) 2023, Red Hat Inc.\n+ *\n+ * Authors:\n+ * Hans de Goede <hdegoede@redhat.com>\n+ *\n+ * debayer_cpu.cpp - CPU based debayering class\n+ */\n+\n+#include \"debayer_cpu.h\"\n+\n+#include <math.h>\n+#include <stdlib.h>\n+#include <time.h>\n+\n+#include <libcamera/formats.h>\n+\n+#include \"libcamera/internal/bayer_format.h\"\n+#include \"libcamera/internal/framebuffer.h\"\n+#include \"libcamera/internal/mapped_framebuffer.h\"\n+\n+namespace libcamera {\n+\n+/**\n+ * \\class DebayerCpu\n+ * \\brief Class for debayering on the CPU\n+ *\n+ * Implementation for CPU based debayering\n+ */\n+\n+/**\n+ * \\brief Constructs a DebayerCpu object\n+ * \\param[in] stats Pointer to the stats object to use\n+ */\n+DebayerCpu::DebayerCpu(std::unique_ptr<SwStatsCpu> stats)\n+\t: stats_(std::move(stats)), gammaCorrection_(1.0)\n+{\n+\t/*\n+\t * Reading from uncached buffers may be very slow.\n+\t * In such a case, it's better to copy input buffer data to normal memory.\n+\t * But in case of cached buffers, copying the data is unnecessary overhead.\n+\t * enable_input_memcpy_ makes this behavior configurable. At the moment, we\n+\t * always set it to true as the safer choice but this should be changed in\n+\t * future.\n+\t */\n+\tenableInputMemcpy_ = true;\n+\n+\t/* Initialize gamma to 1.0 curve */\n+\tfor (unsigned int i = 0; i < kGammaLookupSize; i++)\n+\t\tgamma_[i] = i / (kGammaLookupSize / kRGBLookupSize);\n+\n+\tfor (unsigned int i = 0; i < kMaxLineBuffers; i++)\n+\t\tlineBuffers_[i] = nullptr;\n+}\n+\n+DebayerCpu::~DebayerCpu()\n+{\n+\tfor (unsigned int i = 0; i < kMaxLineBuffers; i++)\n+\t\tfree(lineBuffers_[i]);\n+}\n+\n+/*\n+ * RGR\n+ * GBG\n+ * RGR\n+ */\n+#define BGGR_BGR888(p, n, div) \\\n+\t*dst++ = blue_[curr[x] / (div)]; \\\n+\t*dst++ = green_[(prev[x] + curr[x - p] + curr[x + n] + next[x]) / (4 * (div))]; \\\n+\t*dst++ = red_[(prev[x - p] + prev[x + n] + next[x - p] + next[x + n]) / (4 * (div))]; \\\n+\tx++;\n+\n+/*\n+ * GBG\n+ * RGR\n+ * GBG\n+ */\n+#define GRBG_BGR888(p, n, div) \\\n+\t*dst++ = blue_[(prev[x] + next[x]) / (2 * (div))]; \\\n+\t*dst++ = green_[curr[x] / (div)]; \\\n+\t*dst++ = red_[(curr[x - p] + curr[x + n]) / (2 * (div))]; \\\n+\tx++;\n+\n+/*\n+ * GRG\n+ * BGB\n+ * GRG\n+ */\n+#define GBRG_BGR888(p, n, div) \\\n+\t*dst++ = blue_[(curr[x - p] + curr[x + n]) / (2 * (div))]; \\\n+\t*dst++ = green_[curr[x] / (div)]; \\\n+\t*dst++ = red_[(prev[x] + next[x]) / (2 * (div))]; \\\n+\tx++;\n+\n+/*\n+ * BGB\n+ * GRG\n+ * BGB\n+ */\n+#define RGGB_BGR888(p, n, div) \\\n+\t*dst++ = blue_[(prev[x - p] + prev[x + n] + next[x - p] + next[x + n]) / (4 * (div))]; \\\n+\t*dst++ = green_[(prev[x] + curr[x - p] + curr[x + n] + next[x]) / (4 * (div))]; \\\n+\t*dst++ = red_[curr[x] / (div)]; \\\n+\tx++;\n+\n+void DebayerCpu::debayer10P_BGBG_BGR888(uint8_t *dst, const uint8_t *src[])\n+{\n+\tconst int widthInBytes = window_.width * 5 / 4;\n+\tconst uint8_t *prev = src[0];\n+\tconst uint8_t *curr = src[1];\n+\tconst uint8_t *next = src[2];\n+\n+\t/*\n+\t * For the first pixel getting a pixel from the previous column uses\n+\t * x - 2 to skip the 5th byte with least-significant bits for 4 pixels.\n+\t * Same for last pixel (uses x + 2) and looking at the next column.\n+\t */\n+\tfor (int x = 0; x < widthInBytes;) {\n+\t\t/* First pixel */\n+\t\tBGGR_BGR888(2, 1, 1)\n+\t\t/* Second pixel BGGR -> GBRG */\n+\t\tGBRG_BGR888(1, 1, 1)\n+\t\t/* Same thing for third and fourth pixels */\n+\t\tBGGR_BGR888(1, 1, 1)\n+\t\tGBRG_BGR888(1, 2, 1)\n+\t\t/* Skip 5th src byte with 4 x 2 least-significant-bits */\n+\t\tx++;\n+\t}\n+}\n+\n+void DebayerCpu::debayer10P_GRGR_BGR888(uint8_t *dst, const uint8_t *src[])\n+{\n+\tconst int widthInBytes = window_.width * 5 / 4;\n+\tconst uint8_t *prev = src[0];\n+\tconst uint8_t *curr = src[1];\n+\tconst uint8_t *next = src[2];\n+\n+\tfor (int x = 0; x < widthInBytes;) {\n+\t\t/* First pixel */\n+\t\tGRBG_BGR888(2, 1, 1)\n+\t\t/* Second pixel GRBG -> RGGB */\n+\t\tRGGB_BGR888(1, 1, 1)\n+\t\t/* Same thing for third and fourth pixels */\n+\t\tGRBG_BGR888(1, 1, 1)\n+\t\tRGGB_BGR888(1, 2, 1)\n+\t\t/* Skip 5th src byte with 4 x 2 least-significant-bits */\n+\t\tx++;\n+\t}\n+}\n+\n+void DebayerCpu::debayer10P_GBGB_BGR888(uint8_t *dst, const uint8_t *src[])\n+{\n+\tconst int widthInBytes = window_.width * 5 / 4;\n+\tconst uint8_t *prev = src[0];\n+\tconst uint8_t *curr = src[1];\n+\tconst uint8_t *next = src[2];\n+\n+\tfor (int x = 0; x < widthInBytes;) {\n+\t\t/* Even pixel */\n+\t\tGBRG_BGR888(2, 1, 1)\n+\t\t/* Odd pixel GBGR -> BGGR */\n+\t\tBGGR_BGR888(1, 1, 1)\n+\t\t/* Same thing for next 2 pixels */\n+\t\tGBRG_BGR888(1, 1, 1)\n+\t\tBGGR_BGR888(1, 2, 1)\n+\t\t/* Skip 5th src byte with 4 x 2 least-significant-bits */\n+\t\tx++;\n+\t}\n+}\n+\n+void DebayerCpu::debayer10P_RGRG_BGR888(uint8_t *dst, const uint8_t *src[])\n+{\n+\tconst int widthInBytes = window_.width * 5 / 4;\n+\tconst uint8_t *prev = src[0];\n+\tconst uint8_t *curr = src[1];\n+\tconst uint8_t *next = src[2];\n+\n+\tfor (int x = 0; x < widthInBytes;) {\n+\t\t/* Even pixel */\n+\t\tRGGB_BGR888(2, 1, 1)\n+\t\t/* Odd pixel RGGB -> GRBG */\n+\t\tGRBG_BGR888(1, 1, 1)\n+\t\t/* Same thing for next 2 pixels */\n+\t\tRGGB_BGR888(1, 1, 1)\n+\t\tGRBG_BGR888(1, 2, 1)\n+\t\t/* Skip 5th src byte with 4 x 2 least-significant-bits */\n+\t\tx++;\n+\t}\n+}\n+\n+static bool isStandardBayerOrder(BayerFormat::Order order)\n+{\n+\treturn order == BayerFormat::BGGR || order == BayerFormat::GBRG ||\n+\t order == BayerFormat::GRBG || order == BayerFormat::RGGB;\n+}\n+\n+/*\n+ * Setup the Debayer object according to the passed in parameters.\n+ * Return 0 on success, a negative errno value on failure\n+ * (unsupported parameters).\n+ */\n+int DebayerCpu::getInputConfig(PixelFormat inputFormat, DebayerInputConfig &config)\n+{\n+\tBayerFormat bayerFormat =\n+\t\tBayerFormat::fromPixelFormat(inputFormat);\n+\n+\tif (bayerFormat.bitDepth == 10 &&\n+\t bayerFormat.packing == BayerFormat::Packing::CSI2 &&\n+\t isStandardBayerOrder(bayerFormat.order)) {\n+\t\tconfig.bpp = 10;\n+\t\tconfig.patternSize.width = 4; /* 5 bytes per *4* pixels */\n+\t\tconfig.patternSize.height = 2;\n+\t\tconfig.outputFormats = std::vector<PixelFormat>({ formats::RGB888 });\n+\t\treturn 0;\n+\t}\n+\n+\tLOG(Debayer, Info)\n+\t\t<< \"Unsupported input format \" << inputFormat.toString();\n+\treturn -EINVAL;\n+}\n+\n+int DebayerCpu::getOutputConfig(PixelFormat outputFormat, DebayerOutputConfig &config)\n+{\n+\tif (outputFormat == formats::RGB888) {\n+\t\tconfig.bpp = 24;\n+\t\treturn 0;\n+\t}\n+\n+\tLOG(Debayer, Info)\n+\t\t<< \"Unsupported output format \" << outputFormat.toString();\n+\treturn -EINVAL;\n+}\n+\n+/* \\todo This ignores outputFormat since there is only 1 supported outputFormat\n+ for now */\n+int DebayerCpu::setDebayerFunctions(PixelFormat inputFormat, [[maybe_unused]] PixelFormat outputFormat)\n+{\n+\tBayerFormat bayerFormat =\n+\t\tBayerFormat::fromPixelFormat(inputFormat);\n+\n+\tif (bayerFormat.bitDepth == 10 &&\n+\t bayerFormat.packing == BayerFormat::Packing::CSI2) {\n+\t\tswitch (bayerFormat.order) {\n+\t\tcase BayerFormat::BGGR:\n+\t\t\tdebayer0_ = &DebayerCpu::debayer10P_BGBG_BGR888;\n+\t\t\tdebayer1_ = &DebayerCpu::debayer10P_GRGR_BGR888;\n+\t\t\treturn 0;\n+\t\tcase BayerFormat::GBRG:\n+\t\t\tdebayer0_ = &DebayerCpu::debayer10P_GBGB_BGR888;\n+\t\t\tdebayer1_ = &DebayerCpu::debayer10P_RGRG_BGR888;\n+\t\t\treturn 0;\n+\t\tcase BayerFormat::GRBG:\n+\t\t\tdebayer0_ = &DebayerCpu::debayer10P_GRGR_BGR888;\n+\t\t\tdebayer1_ = &DebayerCpu::debayer10P_BGBG_BGR888;\n+\t\t\treturn 0;\n+\t\tcase BayerFormat::RGGB:\n+\t\t\tdebayer0_ = &DebayerCpu::debayer10P_RGRG_BGR888;\n+\t\t\tdebayer1_ = &DebayerCpu::debayer10P_GBGB_BGR888;\n+\t\t\treturn 0;\n+\t\tdefault:\n+\t\t\tbreak;\n+\t\t}\n+\t}\n+\n+\tLOG(Debayer, Error) << \"Unsupported input output format combination\";\n+\treturn -EINVAL;\n+}\n+\n+int DebayerCpu::configure(const StreamConfiguration &inputCfg,\n+\t\t\t const std::vector<std::reference_wrapper<StreamConfiguration>> &outputCfgs)\n+{\n+\tif (getInputConfig(inputCfg.pixelFormat, inputConfig_) != 0)\n+\t\treturn -EINVAL;\n+\n+\tif (stats_->configure(inputCfg) != 0)\n+\t\treturn -EINVAL;\n+\n+\tconst Size &statsPatternSize = stats_->patternSize();\n+\tif (inputConfig_.patternSize.width != statsPatternSize.width ||\n+\t inputConfig_.patternSize.height != statsPatternSize.height) {\n+\t\tLOG(Debayer, Error)\n+\t\t\t<< \"mismatching stats and debayer pattern sizes for \"\n+\t\t\t<< inputCfg.pixelFormat.toString();\n+\t\treturn -EINVAL;\n+\t}\n+\n+\tinputConfig_.stride = inputCfg.stride;\n+\n+\tif (outputCfgs.size() != 1) {\n+\t\tLOG(Debayer, Error)\n+\t\t\t<< \"Unsupported number of output streams: \"\n+\t\t\t<< outputCfgs.size();\n+\t\treturn -EINVAL;\n+\t}\n+\n+\tconst StreamConfiguration &outputCfg = outputCfgs[0];\n+\tSizeRange outSizeRange = sizes(inputCfg.pixelFormat, inputCfg.size);\n+\tstd::tie(outputConfig_.stride, outputConfig_.frameSize) =\n+\t\tstrideAndFrameSize(outputCfg.pixelFormat, outputCfg.size);\n+\n+\tif (!outSizeRange.contains(outputCfg.size) || outputConfig_.stride != outputCfg.stride) {\n+\t\tLOG(Debayer, Error)\n+\t\t\t<< \"Invalid output size/stride: \"\n+\t\t\t<< \"\\n \" << outputCfg.size << \" (\" << outSizeRange << \")\"\n+\t\t\t<< \"\\n \" << outputCfg.stride << \" (\" << outputConfig_.stride << \")\";\n+\t\treturn -EINVAL;\n+\t}\n+\n+\tif (setDebayerFunctions(inputCfg.pixelFormat, outputCfg.pixelFormat) != 0)\n+\t\treturn -EINVAL;\n+\n+\twindow_.x = ((inputCfg.size.width - outputCfg.size.width) / 2) &\n+\t\t ~(inputConfig_.patternSize.width - 1);\n+\twindow_.y = ((inputCfg.size.height - outputCfg.size.height) / 2) &\n+\t\t ~(inputConfig_.patternSize.height - 1);\n+\twindow_.width = outputCfg.size.width;\n+\twindow_.height = outputCfg.size.height;\n+\n+\t/* Don't pass x,y since process() already adjusts src before passing it */\n+\tstats_->setWindow(Rectangle(window_.size()));\n+\n+\t/* pad with patternSize.Width on both left and right side */\n+\tlineBufferPadding_ = inputConfig_.patternSize.width * inputConfig_.bpp / 8;\n+\tlineBufferLength_ = window_.width * inputConfig_.bpp / 8 +\n+\t\t\t 2 * lineBufferPadding_;\n+\tfor (unsigned int i = 0;\n+\t i < (inputConfig_.patternSize.height + 1) && enableInputMemcpy_;\n+\t i++) {\n+\t\tfree(lineBuffers_[i]);\n+\t\tlineBuffers_[i] = (uint8_t *)malloc(lineBufferLength_);\n+\t\tif (!lineBuffers_[i])\n+\t\t\treturn -ENOMEM;\n+\t}\n+\n+\tmeasuredFrames_ = 0;\n+\tframeProcessTime_ = 0;\n+\n+\treturn 0;\n+}\n+\n+/*\n+ * Get width and height at which the bayer-pattern repeats.\n+ * Return pattern-size or an empty Size for an unsupported inputFormat.\n+ */\n+Size DebayerCpu::patternSize(PixelFormat inputFormat)\n+{\n+\tDebayerCpu::DebayerInputConfig config;\n+\n+\tif (getInputConfig(inputFormat, config) != 0)\n+\t\treturn {};\n+\n+\treturn config.patternSize;\n+}\n+\n+std::vector<PixelFormat> DebayerCpu::formats(PixelFormat inputFormat)\n+{\n+\tDebayerCpu::DebayerInputConfig config;\n+\n+\tif (getInputConfig(inputFormat, config) != 0)\n+\t\treturn std::vector<PixelFormat>();\n+\n+\treturn config.outputFormats;\n+}\n+\n+std::tuple<unsigned int, unsigned int>\n+DebayerCpu::strideAndFrameSize(const PixelFormat &outputFormat, const Size &size)\n+{\n+\tDebayerCpu::DebayerOutputConfig config;\n+\n+\tif (getOutputConfig(outputFormat, config) != 0)\n+\t\treturn std::make_tuple(0, 0);\n+\n+\t/* round up to multiple of 8 for 64 bits alignment */\n+\tunsigned int stride = (size.width * config.bpp / 8 + 7) & ~7;\n+\n+\treturn std::make_tuple(stride, stride * size.height);\n+}\n+\n+void DebayerCpu::setupInputMemcpy(const uint8_t *linePointers[])\n+{\n+\tconst unsigned int patternHeight = inputConfig_.patternSize.height;\n+\n+\tif (!enableInputMemcpy_)\n+\t\treturn;\n+\n+\tfor (unsigned int i = 0; i < patternHeight; i++) {\n+\t\tmemcpy(lineBuffers_[i], linePointers[i + 1] - lineBufferPadding_,\n+\t\t lineBufferLength_);\n+\t\tlinePointers[i + 1] = lineBuffers_[i] + lineBufferPadding_;\n+\t}\n+\n+\t/* Point lineBufferIndex_ to first unused lineBuffer */\n+\tlineBufferIndex_ = patternHeight;\n+}\n+\n+void DebayerCpu::shiftLinePointers(const uint8_t *linePointers[], const uint8_t *src)\n+{\n+\tconst unsigned int patternHeight = inputConfig_.patternSize.height;\n+\n+\tfor (unsigned int i = 0; i < patternHeight; i++)\n+\t\tlinePointers[i] = linePointers[i + 1];\n+\n+\tlinePointers[patternHeight] = src +\n+\t\t\t\t (patternHeight / 2) * (int)inputConfig_.stride;\n+}\n+\n+void DebayerCpu::memcpyNextLine(const uint8_t *linePointers[])\n+{\n+\tconst unsigned int patternHeight = inputConfig_.patternSize.height;\n+\n+\tif (!enableInputMemcpy_)\n+\t\treturn;\n+\n+\tmemcpy(lineBuffers_[lineBufferIndex_], linePointers[patternHeight] - lineBufferPadding_,\n+\t lineBufferLength_);\n+\tlinePointers[patternHeight] = lineBuffers_[lineBufferIndex_] + lineBufferPadding_;\n+\n+\tlineBufferIndex_ = (lineBufferIndex_ + 1) % (patternHeight + 1);\n+}\n+\n+void DebayerCpu::process2(const uint8_t *src, uint8_t *dst)\n+{\n+\tunsigned int yEnd = window_.y + window_.height;\n+\t/* Holds [0] previous- [1] current- [2] next-line */\n+\tconst uint8_t *linePointers[3];\n+\n+\t/* Adjust src to top left corner of the window */\n+\tsrc += window_.y * inputConfig_.stride + window_.x * inputConfig_.bpp / 8;\n+\n+\t/* [x] becomes [x - 1] after initial shiftLinePointers() call */\n+\tif (window_.y) {\n+\t\tlinePointers[1] = src - inputConfig_.stride; /* previous-line */\n+\t\tlinePointers[2] = src;\n+\t} else {\n+\t\t/* window_.y == 0, use the next line as prev line */\n+\t\tlinePointers[1] = src + inputConfig_.stride;\n+\t\tlinePointers[2] = src;\n+\t\t/* Last 2 lines also need special handling */\n+\t\tyEnd -= 2;\n+\t}\n+\n+\tsetupInputMemcpy(linePointers);\n+\n+\tfor (unsigned int y = window_.y; y < yEnd; y += 2) {\n+\t\tshiftLinePointers(linePointers, src);\n+\t\tmemcpyNextLine(linePointers);\n+\t\tstats_->processLine0(y, linePointers);\n+\t\t(this->*debayer0_)(dst, linePointers);\n+\t\tsrc += inputConfig_.stride;\n+\t\tdst += outputConfig_.stride;\n+\n+\t\tshiftLinePointers(linePointers, src);\n+\t\tmemcpyNextLine(linePointers);\n+\t\t(this->*debayer1_)(dst, linePointers);\n+\t\tsrc += inputConfig_.stride;\n+\t\tdst += outputConfig_.stride;\n+\t}\n+\n+\tif (window_.y == 0) {\n+\t\tshiftLinePointers(linePointers, src);\n+\t\tmemcpyNextLine(linePointers);\n+\t\tstats_->processLine0(yEnd, linePointers);\n+\t\t(this->*debayer0_)(dst, linePointers);\n+\t\tsrc += inputConfig_.stride;\n+\t\tdst += outputConfig_.stride;\n+\n+\t\tshiftLinePointers(linePointers, src);\n+\t\t/* next line may point outside of src, use prev. */\n+\t\tlinePointers[2] = linePointers[0];\n+\t\t(this->*debayer1_)(dst, linePointers);\n+\t\tsrc += inputConfig_.stride;\n+\t\tdst += outputConfig_.stride;\n+\t}\n+}\n+\n+void DebayerCpu::process4(const uint8_t *src, uint8_t *dst)\n+{\n+\tconst unsigned int yEnd = window_.y + window_.height;\n+\t/*\n+\t * This holds pointers to [0] 2-lines-up [1] 1-line-up [2] current-line\n+\t * [3] 1-line-down [4] 2-lines-down.\n+\t */\n+\tconst uint8_t *linePointers[5];\n+\n+\t/* Adjust src to top left corner of the window */\n+\tsrc += window_.y * inputConfig_.stride + window_.x * inputConfig_.bpp / 8;\n+\n+\t/* [x] becomes [x - 1] after initial shiftLinePointers() call */\n+\tlinePointers[1] = src - 2 * inputConfig_.stride;\n+\tlinePointers[2] = src - inputConfig_.stride;\n+\tlinePointers[3] = src;\n+\tlinePointers[4] = src + inputConfig_.stride;\n+\n+\tsetupInputMemcpy(linePointers);\n+\n+\tfor (unsigned int y = window_.y; y < yEnd; y += 4) {\n+\t\tshiftLinePointers(linePointers, src);\n+\t\tmemcpyNextLine(linePointers);\n+\t\tstats_->processLine0(y, linePointers);\n+\t\t(this->*debayer0_)(dst, linePointers);\n+\t\tsrc += inputConfig_.stride;\n+\t\tdst += outputConfig_.stride;\n+\n+\t\tshiftLinePointers(linePointers, src);\n+\t\tmemcpyNextLine(linePointers);\n+\t\t(this->*debayer1_)(dst, linePointers);\n+\t\tsrc += inputConfig_.stride;\n+\t\tdst += outputConfig_.stride;\n+\n+\t\tshiftLinePointers(linePointers, src);\n+\t\tmemcpyNextLine(linePointers);\n+\t\tstats_->processLine2(y, linePointers);\n+\t\t(this->*debayer2_)(dst, linePointers);\n+\t\tsrc += inputConfig_.stride;\n+\t\tdst += outputConfig_.stride;\n+\n+\t\tshiftLinePointers(linePointers, src);\n+\t\tmemcpyNextLine(linePointers);\n+\t\t(this->*debayer3_)(dst, linePointers);\n+\t\tsrc += inputConfig_.stride;\n+\t\tdst += outputConfig_.stride;\n+\t}\n+}\n+\n+static inline int64_t timeDiff(timespec &after, timespec &before)\n+{\n+\treturn (after.tv_sec - before.tv_sec) * 1000000000LL +\n+\t (int64_t)after.tv_nsec - (int64_t)before.tv_nsec;\n+}\n+\n+void DebayerCpu::process(FrameBuffer *input, FrameBuffer *output, DebayerParams params)\n+{\n+\ttimespec frameStartTime;\n+\n+\tif (measuredFrames_ < DebayerCpu::kLastFrameToMeasure) {\n+\t\tframeStartTime = {};\n+\t\tclock_gettime(CLOCK_MONOTONIC_RAW, &frameStartTime);\n+\t}\n+\n+\t/* Apply DebayerParams */\n+\tif (params.gamma != gammaCorrection_) {\n+\t\tfor (unsigned int i = 0; i < kGammaLookupSize; i++)\n+\t\t\tgamma_[i] = UINT8_MAX * powf(i / (kGammaLookupSize - 1.0), params.gamma);\n+\n+\t\tgammaCorrection_ = params.gamma;\n+\t}\n+\n+\tfor (unsigned int i = 0; i < kRGBLookupSize; i++) {\n+\t\tconstexpr unsigned int div =\n+\t\t\tkRGBLookupSize * DebayerParams::kGain10 / kGammaLookupSize;\n+\t\tunsigned int idx;\n+\n+\t\t/* Apply gamma after gain! */\n+\t\tidx = std::min({ i * params.gainR / div, (kGammaLookupSize - 1) });\n+\t\tred_[i] = gamma_[idx];\n+\n+\t\tidx = std::min({ i * params.gainG / div, (kGammaLookupSize - 1) });\n+\t\tgreen_[i] = gamma_[idx];\n+\n+\t\tidx = std::min({ i * params.gainB / div, (kGammaLookupSize - 1) });\n+\t\tblue_[i] = gamma_[idx];\n+\t}\n+\n+\t/* Copy metadata from the input buffer */\n+\tFrameMetadata &metadata = output->_d()->metadata();\n+\tmetadata.status = input->metadata().status;\n+\tmetadata.sequence = input->metadata().sequence;\n+\tmetadata.timestamp = input->metadata().timestamp;\n+\n+\tMappedFrameBuffer in(input, MappedFrameBuffer::MapFlag::Read);\n+\tMappedFrameBuffer out(output, MappedFrameBuffer::MapFlag::Write);\n+\tif (!in.isValid() || !out.isValid()) {\n+\t\tLOG(Debayer, Error) << \"mmap-ing buffer(s) failed\";\n+\t\tmetadata.status = FrameMetadata::FrameError;\n+\t\treturn;\n+\t}\n+\n+\tstats_->startFrame();\n+\n+\tif (inputConfig_.patternSize.height == 2)\n+\t\tprocess2(in.planes()[0].data(), out.planes()[0].data());\n+\telse\n+\t\tprocess4(in.planes()[0].data(), out.planes()[0].data());\n+\n+\tmetadata.planes()[0].bytesused = out.planes()[0].size();\n+\n+\t/* Measure before emitting signals */\n+\tif (measuredFrames_ < DebayerCpu::kLastFrameToMeasure &&\n+\t ++measuredFrames_ > DebayerCpu::kFramesToSkip) {\n+\t\ttimespec frameEndTime = {};\n+\t\tclock_gettime(CLOCK_MONOTONIC_RAW, &frameEndTime);\n+\t\tframeProcessTime_ += timeDiff(frameEndTime, frameStartTime);\n+\t\tif (measuredFrames_ == DebayerCpu::kLastFrameToMeasure) {\n+\t\t\tconst unsigned int measuredFrames = DebayerCpu::kLastFrameToMeasure -\n+\t\t\t\t\t\t\t DebayerCpu::kFramesToSkip;\n+\t\t\tLOG(Debayer, Info)\n+\t\t\t\t<< \"Processed \" << measuredFrames\n+\t\t\t\t<< \" frames in \" << frameProcessTime_ / 1000 << \"us, \"\n+\t\t\t\t<< frameProcessTime_ / (1000 * measuredFrames)\n+\t\t\t\t<< \" us/frame\";\n+\t\t}\n+\t}\n+\n+\tstats_->finishFrame();\n+\toutputBufferReady.emit(output);\n+\tinputBufferReady.emit(input);\n+}\n+\n+SizeRange DebayerCpu::sizes(PixelFormat inputFormat, const Size &inputSize)\n+{\n+\tSize patternSize = this->patternSize(inputFormat);\n+\tunsigned int borderHeight = patternSize.height;\n+\n+\tif (patternSize.isNull())\n+\t\treturn {};\n+\n+\t/* No need for top/bottom border with a pattern height of 2 */\n+\tif (patternSize.height == 2)\n+\t\tborderHeight = 0;\n+\n+\t/*\n+\t * For debayer interpolation a border is kept around the entire image\n+\t * and the minimum output size is pattern-height x pattern-width.\n+\t */\n+\tif (inputSize.width < (3 * patternSize.width) ||\n+\t inputSize.height < (2 * borderHeight + patternSize.height)) {\n+\t\tLOG(Debayer, Warning)\n+\t\t\t<< \"Input format size too small: \" << inputSize.toString();\n+\t\treturn {};\n+\t}\n+\n+\treturn SizeRange(Size(patternSize.width, patternSize.height),\n+\t\t\t Size((inputSize.width - 2 * patternSize.width) & ~(patternSize.width - 1),\n+\t\t\t (inputSize.height - 2 * borderHeight) & ~(patternSize.height - 1)),\n+\t\t\t patternSize.width, patternSize.height);\n+}\n+\n+} /* namespace libcamera */\ndiff --git a/src/libcamera/software_isp/debayer_cpu.h b/src/libcamera/software_isp/debayer_cpu.h\nnew file mode 100644\nindex 00000000..1b5ad984\n--- /dev/null\n+++ b/src/libcamera/software_isp/debayer_cpu.h\n@@ -0,0 +1,143 @@\n+/* SPDX-License-Identifier: LGPL-2.1-or-later */\n+/*\n+ * Copyright (C) 2023, Linaro Ltd\n+ * Copyright (C) 2023, Red Hat Inc.\n+ *\n+ * Authors:\n+ * Hans de Goede <hdegoede@redhat.com>\n+ *\n+ * debayer_cpu.h - CPU based debayering header\n+ */\n+\n+#pragma once\n+\n+#include <memory>\n+#include <stdint.h>\n+#include <vector>\n+\n+#include <libcamera/base/object.h>\n+\n+#include \"debayer.h\"\n+#include \"swstats_cpu.h\"\n+\n+namespace libcamera {\n+\n+class DebayerCpu : public Debayer, public Object\n+{\n+public:\n+\tDebayerCpu(std::unique_ptr<SwStatsCpu> stats);\n+\t~DebayerCpu();\n+\n+\tint configure(const StreamConfiguration &inputCfg,\n+\t\t const std::vector<std::reference_wrapper<StreamConfiguration>> &outputCfgs);\n+\tSize patternSize(PixelFormat inputFormat);\n+\tstd::vector<PixelFormat> formats(PixelFormat input);\n+\tstd::tuple<unsigned int, unsigned int>\n+\tstrideAndFrameSize(const PixelFormat &outputFormat, const Size &size);\n+\tvoid process(FrameBuffer *input, FrameBuffer *output, DebayerParams params);\n+\tSizeRange sizes(PixelFormat inputFormat, const Size &inputSize);\n+\n+\t/**\n+\t * \\brief Get the file descriptor for the statistics\n+\t *\n+\t * \\return the file descriptor pointing to the statistics\n+\t */\n+\tconst SharedFD &getStatsFD() { return stats_->getStatsFD(); }\n+\n+\t/**\n+\t * \\brief Get the output frame size\n+\t *\n+\t * \\return The output frame size\n+\t */\n+\tunsigned int frameSize() { return outputConfig_.frameSize; }\n+\n+private:\n+\t/**\n+\t * \\brief Called to debayer 1 line of Bayer input data to output format\n+\t * \\param[out] dst Pointer to the start of the output line to write\n+\t * \\param[in] src The input data\n+\t *\n+\t * Input data is an array of (patternSize_.height + 1) src\n+\t * pointers each pointing to a line in the Bayer source. The middle\n+\t * element of the array will point to the actual line being processed.\n+\t * Earlier element(s) will point to the previous line(s) and later\n+\t * element(s) to the next line(s).\n+\t *\n+\t * These functions take an array of src pointers, rather than\n+\t * a single src pointer + a stride for the source, so that when the src\n+\t * is slow uncached memory it can be copied to faster memory before\n+\t * debayering. Debayering a standard 2x2 Bayer pattern requires access\n+\t * to the previous and next src lines for interpolating the missing\n+\t * colors. To allow copying the src lines only once 3 temporary buffers\n+\t * each holding a single line are used, re-using the oldest buffer for\n+\t * the next line and the pointers are swizzled so that:\n+\t * src[0] = previous-line, src[1] = currrent-line, src[2] = next-line.\n+\t * This way the 3 pointers passed to the debayer functions form\n+\t * a sliding window over the src avoiding the need to copy each\n+\t * line more than once.\n+\t *\n+\t * Similarly for bayer patterns which repeat every 4 lines, 5 src\n+\t * pointers are passed holding: src[0] = 2-lines-up, src[1] = 1-line-up\n+\t * src[2] = current-line, src[3] = 1-line-down, src[4] = 2-lines-down.\n+\t */\n+\tusing debayerFn = void (DebayerCpu::*)(uint8_t *dst, const uint8_t *src[]);\n+\n+\t/* CSI-2 packed 10-bit raw bayer format (all the 4 orders) */\n+\tvoid debayer10P_BGBG_BGR888(uint8_t *dst, const uint8_t *src[]);\n+\tvoid debayer10P_GRGR_BGR888(uint8_t *dst, const uint8_t *src[]);\n+\tvoid debayer10P_GBGB_BGR888(uint8_t *dst, const uint8_t *src[]);\n+\tvoid debayer10P_RGRG_BGR888(uint8_t *dst, const uint8_t *src[]);\n+\n+\tstruct DebayerInputConfig {\n+\t\tSize patternSize;\n+\t\tunsigned int bpp; /* Memory used per pixel, not precision */\n+\t\tunsigned int stride;\n+\t\tstd::vector<PixelFormat> outputFormats;\n+\t};\n+\n+\tstruct DebayerOutputConfig {\n+\t\tunsigned int bpp; /* Memory used per pixel, not precision */\n+\t\tunsigned int stride;\n+\t\tunsigned int frameSize;\n+\t};\n+\n+\tint getInputConfig(PixelFormat inputFormat, DebayerInputConfig &config);\n+\tint getOutputConfig(PixelFormat outputFormat, DebayerOutputConfig &config);\n+\tint setDebayerFunctions(PixelFormat inputFormat, PixelFormat outputFormat);\n+\tvoid setupInputMemcpy(const uint8_t *linePointers[]);\n+\tvoid shiftLinePointers(const uint8_t *linePointers[], const uint8_t *src);\n+\tvoid memcpyNextLine(const uint8_t *linePointers[]);\n+\tvoid process2(const uint8_t *src, uint8_t *dst);\n+\tvoid process4(const uint8_t *src, uint8_t *dst);\n+\n+\tstatic constexpr unsigned int kGammaLookupSize = 1024;\n+\tstatic constexpr unsigned int kRGBLookupSize = 256;\n+\t/* Max. supported Bayer pattern height is 4, debayering this requires 5 lines */\n+\tstatic constexpr unsigned int kMaxLineBuffers = 5;\n+\n+\tstd::array<uint8_t, kGammaLookupSize> gamma_;\n+\tstd::array<uint8_t, kRGBLookupSize> red_;\n+\tstd::array<uint8_t, kRGBLookupSize> green_;\n+\tstd::array<uint8_t, kRGBLookupSize> blue_;\n+\tdebayerFn debayer0_;\n+\tdebayerFn debayer1_;\n+\tdebayerFn debayer2_;\n+\tdebayerFn debayer3_;\n+\tRectangle window_;\n+\tDebayerInputConfig inputConfig_;\n+\tDebayerOutputConfig outputConfig_;\n+\tstd::unique_ptr<SwStatsCpu> stats_;\n+\tuint8_t *lineBuffers_[kMaxLineBuffers];\n+\tunsigned int lineBufferLength_;\n+\tunsigned int lineBufferPadding_;\n+\tunsigned int lineBufferIndex_;\n+\tbool enableInputMemcpy_;\n+\tfloat gammaCorrection_;\n+\tunsigned int measuredFrames_;\n+\tint64_t frameProcessTime_;\n+\t/* Skip 30 frames for things to stabilize then measure 30 frames */\n+\tstatic constexpr unsigned int kFramesToSkip = 30;\n+\tstatic constexpr unsigned int kLastFrameToMeasure = 60;\n+};\n+\n+} /* namespace libcamera */\ndiff --git a/src/libcamera/software_isp/meson.build b/src/libcamera/software_isp/meson.build\nindex 6068a418..b63f077f 100644\n--- a/src/libcamera/software_isp/meson.build\n+++ b/src/libcamera/software_isp/meson.build\n@@ -9,5 +9,6 @@ endif\n \n libcamera_sources += files([\n 'debayer.cpp',\n+ 'debayer_cpu.cpp',\n 'swstats_cpu.cpp',\n ])\n", "prefixes": [ "v7", "09/18" ] }