__version__ = "3.1" import json from meshroom.core import desc from meshroom.core.utils import COLORSPACES, VERBOSE_LEVEL def findMetadata(d, keys, defaultValue): v = None for key in keys: v = d.get(key, None) k = key.lower() if v is not None: return v for dk, dv in d.items(): dkm = dk.lower().replace(" ", "") if dkm == key.lower(): return dv dkm = dkm.split(":")[-1] dkm = dkm.split("/")[-1] if dkm == k: return dv return defaultValue class LdrToHdrCalibration(desc.AVCommandLineNode): commandLine = 'aliceVision_LdrToHdrCalibration {allParams}' size = desc.DynamicNodeSize('input') cpu = desc.Level.INTENSIVE ram = desc.Level.NORMAL category = 'Panorama HDR' documentation = ''' Calibrate LDR to HDR response curve from samples. ''' inputs = [ desc.File( name="input", label="SfMData", description="Input SfMData file.", value="", ), desc.File( name="samples", label="Samples Folder", description="Samples folder.", value=desc.Node.internalFolder, ), desc.IntParam( name="userNbBrackets", label="Number Of Brackets", description="Number of exposure brackets per HDR image (0 for automatic detection).", value=0, range=(0, 15, 1), invalidate=False, group="user", # not used directly on the command line errorMessage="The set number of brackets is not a multiple of the number of input images.\n" "Errors will occur during the computation.", exposed=True, ), desc.IntParam( name="nbBrackets", label="Automatic Nb Brackets", description="Number of exposure brackets used per HDR image.\n" "It is detected automatically from input Viewpoints metadata if 'userNbBrackets' is 0,\n" "else it is equal to 'userNbBrackets'.", value=0, range=(0, 15, 1), group="bracketsParams", ), desc.BoolParam( name="byPass", label="Bypass", description="Bypass HDR creation and use the medium bracket as the source for the next steps.", value=False, enabled=lambda node: node.nbBrackets.value != 1, exposed=True, ), desc.ChoiceParam( name="calibrationMethod", label="Calibration Method", description="Method used for camera calibration:\n" " - Auto: If RAW images are detected, the 'Linear' calibration method will be used. Otherwise, the 'Debevec' calibration method will be used.\n" " - Linear: Disables the calibration and assumes a linear Camera Response Function. If images are encoded in a known colorspace (like sRGB for JPEG), they will be automatically converted to linear.\n" " - Debevec: Standard method for HDR calibration.\n" " - Grossberg: Based on a learned database of cameras, allows to reduce the Camera Response Function to a few parameters while keeping all the precision.\n" " - Laguerre: Simple but robust method estimating the minimal number of parameters.", values=["auto", "linear", "debevec", "grossberg", "laguerre"], value="auto", enabled=lambda node: node.byPass.enabled and not node.byPass.value, exposed=True, ), desc.ChoiceParam( name="calibrationWeight", label="Calibration Weight", description="Weight function used to calibrate camera response:\n" " - default (automatically selected according to the calibrationMethod)\n" " - gaussian\n" " - triangle\n" " - plateau", value="default", values=["default", "gaussian", "triangle", "plateau"], enabled=lambda node: node.byPass.enabled and not node.byPass.value, ), desc.IntParam( name="channelQuantizationPower", label="Channel Quantization Power", description="Quantization level like 8 bits or 10 bits.", value=10, range=(8, 14, 1), advanced=True, enabled=lambda node: node.byPass.enabled and not node.byPass.value, exposed=True, ), desc.ChoiceParam( name="workingColorSpace", label="Working Color Space", description="Color space in which the data are processed.\n" "If 'auto' is selected, the working color space will be 'Linear' if RAW images are detected; otherwise, it will be set to 'sRGB'.", values=COLORSPACES, value="AUTO", invalidate=False, group="user", # not used directly on the command line enabled=lambda node: node.byPass.enabled and not node.byPass.value, exposed=True, ), desc.IntParam( name="maxTotalPoints", label="Max Number Of Points", description="Maximum number of points used from the sampling.\n" "This ensures that the number of pixels values extracted by the sampling\n" "can be managed by the calibration step (in term of computation time and memory usage).", value=1000000, range=(8, 10000000, 1000), advanced=True, enabled=lambda node: node.byPass.enabled and not node.byPass.value, ), desc.ChoiceParam( name="verboseLevel", label="Verbose Level", description="Verbosity level (fatal, error, warning, info, debug, trace).", values=VERBOSE_LEVEL, value="info", ), ] outputs = [ desc.File( name="response", label="Response File", description="Path to the output response file.", value=desc.Node.internalFolder + "response_.csv", ), ] def processChunk(self, chunk): if chunk.node.nbBrackets.value == 1: return # Trick to avoid sending --nbBrackets to the command line when the bracket detection is automatic. # Otherwise, the AliceVision executable has no way of determining whether the bracket detection was automatic # or if it was hard-set by the user. self.commandLine = "aliceVision_LdrToHdrCalibration {allParams}" if chunk.node.userNbBrackets.value == chunk.node.nbBrackets.value: self.commandLine += "{bracketsParams}" super(LdrToHdrCalibration, self).processChunk(chunk) @classmethod def update(cls, node): from pyalicevision import hdr as avhdr if not isinstance(node.nodeDesc, cls): raise ValueError("Node {} is not an instance of type {}".format(node, cls)) # TODO: use Node version for this test if "userNbBrackets" not in node.getAttributes().keys(): # Old version of the node return node.userNbBrackets.validValue = True # Reset the status of "userNbBrackets" cameraInitOutput = node.input.getLinkParam(recursive=True) if not cameraInitOutput: node.nbBrackets.value = 0 return if node.userNbBrackets.value != 0: # The number of brackets has been manually forced: check whether it is valid or not if cameraInitOutput and cameraInitOutput.node and cameraInitOutput.node.hasAttribute("viewpoints"): viewpoints = cameraInitOutput.node.viewpoints.value # The number of brackets should be a multiple of the number of input images if (len(viewpoints) % node.userNbBrackets.value != 0): node.userNbBrackets.validValue = False else: node.userNbBrackets.validValue = True node.nbBrackets.value = node.userNbBrackets.value return if not cameraInitOutput.node.hasAttribute("viewpoints"): if cameraInitOutput.node.hasAttribute("input"): cameraInitOutput = cameraInitOutput.node.input.getLinkParam(recursive=True) if cameraInitOutput and cameraInitOutput.node and cameraInitOutput.node.hasAttribute("viewpoints"): viewpoints = cameraInitOutput.node.viewpoints.value else: # No connected CameraInit node.nbBrackets.value = 0 return inputs = avhdr.vectorli() for viewpoint in viewpoints: jsonMetadata = viewpoint.metadata.value if not jsonMetadata: # no metadata, we cannot find the number of brackets node.nbBrackets.value = 0 return d = json.loads(jsonMetadata) # Find Fnumber fnumber = findMetadata(d, ["FNumber"], "") if fnumber == "": aperture = findMetadata(d, ["Exif:ApertureValue", "ApertureValue", "Aperture"], "") if aperture == "": fnumber = -1.0 else: fnumber = pow(2.0, aperture / 2.0) # Get shutter speed and ISO shutterSpeed = findMetadata(d, ["ExposureTime", "Exif:ShutterSpeedValue", "ShutterSpeedValue", "ShutterSpeed"], -1.0) iso = findMetadata(d, ["Exif:PhotographicSensitivity", "PhotographicSensitivity", "Photographic Sensitivity", "ISO"], -1.0) if not fnumber and not shutterSpeed: # If one image without shutter or fnumber, we cannot found the number of brackets. # We assume that there is no multi-bracketing, so nothing to do. node.nbBrackets.value = 1 return # Get timestamp ymdhms = findMetadata(d, ["Exif:DateTimeOriginal", "DateTimeOriginal", "DateTime", "Date Time", "Create Date", "ctime"], "") timestamp = -1 if ymdhms != "": timestamp = LdrToHdrCalibration.getTimestamp(ymdhms) exposure = LdrToHdrCalibration.getExposure((float(fnumber), float(shutterSpeed), float(iso))) obj = avhdr.LuminanceInfo(viewpoint.viewId.value,viewpoint.path.value, exposure, timestamp) inputs.append(obj) obj = avhdr.estimateGroups(inputs) if len(obj) == 0: node.nbBrackets.value = 0 return node.nbBrackets.value = len(obj[0]) @staticmethod def getExposure(exp, refIso = 100.0, refFnumber = 1.0): from pyalicevision import sfmData as avsfmdata fnumber, shutterSpeed, iso = exp obj = avsfmdata.ExposureSetting(shutterSpeed, fnumber, iso) return obj.getExposure() @staticmethod def getTimestamp(ymdhms): import re timecode = -1 if re.search("([\d]+):([\d]+):([\d]+) ([\d]+):([\d]+):([\d]+)", ymdhms) != None: t = re.findall("([\d]+)(:| |)", ymdhms) years = int(t[0][0]) months = int(t[1][0]) days = int(t[2][0]) hours = int(t[3][0]) minutes = int(t[4][0]) seconds = int(t[5][0]) timecode = ((((((((years * 12) + months) * 31) + days) * 24) + hours) * 60) + minutes) * 60 + seconds return timecode