# GCode metadata extraction utility # # Copyright (C) 2020 Eric Callahan # # This file may be distributed under the terms of the GNU GPLv3 license. import json import argparse import re import os import sys import base64 import traceback import io from PIL import Image # regex helpers def _regex_find_floats(pattern, data, strict=False): # If strict is enabled, pattern requires a floating point # value, otherwise it can be an integer value fptrn = r'\d+\.\d*' if strict else r'\d+\.?\d*' matches = re.findall(pattern, data) if matches: # return the maximum height value found try: return [float(h) for h in re.findall( fptrn, " ".join(matches))] except Exception: pass return [] def _regex_find_ints(pattern, data): matches = re.findall(pattern, data) if matches: # return the maximum height value found try: return [int(h) for h in re.findall( r'\d+', " ".join(matches))] except Exception: pass return [] def _regex_find_first(pattern, data, cast=float): match = re.search(pattern, data) val = None if match: try: val = cast(match.group(1)) except Exception: return None return val # Slicer parsing implementations class BaseSlicer(object): def __init__(self, file_path): self.path = file_path self.header_data = self.footer_data = self.log = None def set_data(self, header_data, footer_data, log): self.header_data = header_data self.footer_data = footer_data self.log = log def _parse_min_float(self, pattern, data, strict=False): result = _regex_find_floats(pattern, data, strict) if result: return min(result) else: return None def _parse_max_float(self, pattern, data, strict=False): result = _regex_find_floats(pattern, data, strict) if result: return max(result) else: return None def check_identity(self, data): return None def parse_first_layer_height(self): return None def parse_layer_height(self): return None def parse_object_height(self): return None def parse_filament_total(self): return None def parse_estimated_time(self): return None def parse_first_layer_bed_temp(self): return None def parse_first_layer_extr_temp(self): return None def parse_thumbnails(self): return None class UnknownSlicer(BaseSlicer): def check_identity(self, data): return {'slicer': "Unknown"} def parse_first_layer_height(self): return self._parse_min_float(r"G1\sZ\d+\.\d*", self.header_data) def parse_object_height(self): return self._parse_max_float(r"G1\sZ\d+\.\d*", self.footer_data) def parse_first_layer_extr_temp(self): return _regex_find_first( r"M109 S(\d+\.?\d*)", self.header_data) def parse_first_layer_bed_temp(self): return _regex_find_first( r"M190 S(\d+\.?\d*)", self.header_data) class PrusaSlicer(BaseSlicer): def check_identity(self, data): match = re.search(r"PrusaSlicer\s(.*)\son", data) if match: return { 'slicer': "PrusaSlicer", 'slicer_version': match.group(1) } return None def parse_first_layer_height(self): return _regex_find_first( r"; first_layer_height = (\d+\.?\d*)", self.footer_data) def parse_layer_height(self): return _regex_find_first( r"; layer_height = (\d+\.?\d*)", self.footer_data) def parse_object_height(self): matches = re.findall( r";BEFORE_LAYER_CHANGE\n(?:.*\n)?;(\d+\.?\d*)", self.footer_data) if matches: try: matches = [float(m) for m in matches] except Exception: pass else: return max(matches) return self._parse_max_float(r"G1\sZ\d+\.\d*\sF", self.footer_data) def parse_filament_total(self): return _regex_find_first( r"filament\sused\s\[mm\]\s=\s(\d+\.\d*)", self.footer_data) def parse_estimated_time(self): time_match = re.search( r';\sestimated\sprinting\stime.*', self.footer_data) if not time_match: return None total_time = 0 time_match = time_match.group() time_patterns = [(r"(\d+)d", 24*60*60), (r"(\d+)h", 60*60), (r"(\d+)m", 60), (r"(\d+)s", 1)] try: for pattern, multiplier in time_patterns: t = re.search(pattern, time_match) if t: total_time += int(t.group(1)) * multiplier except Exception: return None return round(total_time, 2) def parse_thumbnails(self): thumb_matches = re.findall( r"; thumbnail begin[;/\+=\w\s]+?; thumbnail end", self.header_data) if not thumb_matches: return None parsed_matches = [] for match in thumb_matches: lines = re.split(r"\r?\n", match.replace('; ', '')) info = _regex_find_ints(r".*", lines[0]) data = "".join(lines[1:-1]) if len(info) != 3: self.log.append( f"MetadataError: Error parsing thumbnail" f" header: {lines[0]}") continue if len(data) != info[2]: self.log.append( f"MetadataError: Thumbnail Size Mismatch: " f"detected {info[2]}, actual {len(data)}") continue parsed_matches.append({ 'width': info[0], 'height': info[1], 'size': info[2], 'data': data}) return parsed_matches def parse_first_layer_extr_temp(self): return _regex_find_first( r"; first_layer_temperature = (\d+\.?\d*)", self.footer_data) def parse_first_layer_bed_temp(self): return _regex_find_first( r"; first_layer_bed_temperature = (\d+\.?\d*)", self.footer_data) class Slic3rPE(PrusaSlicer): def check_identity(self, data): match = re.search(r"Slic3r\sPrusa\sEdition\s(.*)\son", data) if match: return { 'slicer': "Slic3r PE", 'slicer_version': match.group(1) } return None def parse_filament_total(self): return _regex_find_first( r"filament\sused\s=\s(\d+\.\d+)mm", self.footer_data) def parse_thumbnails(self): return None class Slic3r(Slic3rPE): def check_identity(self, data): match = re.search(r"Slic3r\s(\d.*)\son", data) if match: return { 'slicer': "Slic3r", 'slicer_version': match.group(1) } return None def parse_estimated_time(self): return None class SuperSlicer(PrusaSlicer): def check_identity(self, data): match = re.search(r"SuperSlicer\s(.*)\son", data) if match: return { 'slicer': "SuperSlicer", 'slicer_version': match.group(1) } return None class Cura(BaseSlicer): def check_identity(self, data): match = re.search(r"Cura_SteamEngine\s(.*)", data) if match: return { 'slicer': "Cura", 'slicer_version': match.group(1) } return None def parse_first_layer_height(self): return _regex_find_first(r";MINZ:(\d+\.?\d*)", self.header_data) def parse_layer_height(self): return _regex_find_first( r";Layer\sheight:\s(\d+\.?\d*)", self.header_data) def parse_object_height(self): return _regex_find_first(r";MAXZ:(\d+\.?\d*)", self.header_data) def parse_filament_total(self): filament = _regex_find_first( r";Filament\sused:\s(\d+\.?\d*)m", self.header_data) if filament is not None: filament *= 1000 return filament def parse_estimated_time(self): return self._parse_max_float(r";TIME:.*", self.header_data) def parse_first_layer_extr_temp(self): return _regex_find_first( r"M109 S(\d+\.?\d*)", self.header_data) def parse_first_layer_bed_temp(self): return _regex_find_first( r"M190 S(\d+\.?\d*)", self.header_data) def parse_thumbnails(self): thumbName = os.path.splitext( os.path.basename(self.path))[0] + ".png" thumbPath = os.path.join( os.path.dirname(self.path), "thumbs", thumbName) if not os.path.isfile(thumbPath): return None # read file thumbs = [] try: with open(thumbPath, 'rb') as thumbFile: fbytes = thumbFile.read() with Image.open(io.BytesIO(fbytes)) as im: thumbFull = base64.b64encode(fbytes).decode() thumbs.append({ 'width': im.width, 'height': im.height, 'size': len(thumbFull), 'data': thumbFull }) # Create 32x32 thumbnail im.thumbnail((32, 32), Image.ANTIALIAS) tmpThumb = io.BytesIO() im.save(tmpThumb, format="PNG") thumbSmall = base64.b64encode( tmpThumb.getbuffer()).decode() tmpThumb.close() thumbs.insert(0, { 'width': im.width, 'height': im.height, 'size': len(thumbSmall), 'data': thumbSmall }) except Exception as e: self.log.append(str(e)) return None return thumbs class Simplify3D(BaseSlicer): def check_identity(self, data): match = re.search(r"Simplify3D\(R\)\sVersion\s(.*)", data) if match: return { 'slicer': "Simplify3D", 'slicer_version': match.group(1) } return None def parse_first_layer_height(self): return self._parse_min_float(r"G1\sZ\d+\.\d*", self.header_data) def parse_layer_height(self): return _regex_find_first( r";\s+layerHeight,(\d+\.?\d*)", self.header_data) def parse_object_height(self): return self._parse_max_float(r"G1\sZ\d+\.\d*", self.footer_data) def parse_filament_total(self): return _regex_find_first( r";\s+Filament\slength:\s(\d+\.?\d*)\smm", self.footer_data) def parse_estimated_time(self): time_match = re.search( r';\s+Build time:.*', self.footer_data) if not time_match: return None total_time = 0 time_match = time_match.group() time_patterns = [(r"(\d+)\shours", 60*60), (r"(\d+)\smin", 60), (r"(\d+)\ssec", 1)] try: for pattern, multiplier in time_patterns: t = re.search(pattern, time_match) if t: total_time += int(t.group(1)) * multiplier except Exception: return None return round(total_time, 2) def _get_temp_items(self, pattern): match = re.search(pattern, self.header_data) if match is None: return [] return match.group().split(",")[1:] def _get_first_layer_temp(self, heater): heaters = self._get_temp_items(r"temperatureName.*") temps = self._get_temp_items(r"temperatureSetpointTemperatures.*") for h, temp in zip(heaters, temps): if h == heater: try: return float(temp) except Exception: return None return None def parse_first_layer_extr_temp(self): return self._get_first_layer_temp("Extruder 1") def parse_first_layer_bed_temp(self): return self._get_first_layer_temp("Heated Bed") class KISSlicer(BaseSlicer): def check_identity(self, data): match = re.search(r";\sKISSlicer", data) if match: ident = {'slicer': "KISSlicer"} vmatch = re.search(r";\sversion\s(.*)", data) if vmatch: version = vmatch.group(1).replace(" ", "-") ident['slicer_version'] = version return ident return None def parse_first_layer_height(self): return _regex_find_first( r";\s+first_layer_thickness_mm\s=\s(\d+\.?\d*)", self.header_data) def parse_layer_height(self): return _regex_find_first( r";\s+max_layer_thickness_mm\s=\s(\d+\.?\d*)", self.header_data) def parse_object_height(self): return self._parse_max_float( r";\sEND_LAYER_OBJECT\sz.*", self.footer_data) def parse_filament_total(self): filament = _regex_find_floats( r";\s+Ext\s.*mm", self.footer_data, strict=True) if filament: return sum(filament) return None def parse_estimated_time(self): time = _regex_find_first( r";\sCalculated.*Build\sTime:\s(\d+\.?\d*)\sminutes", self.footer_data) if time is not None: time *= 60 return round(time, 2) return None def parse_first_layer_extr_temp(self): return _regex_find_first( r"; first_layer_C = (\d+\.?\d*)", self.header_data) def parse_first_layer_bed_temp(self): return _regex_find_first( r"; bed_C = (\d+\.?\d*)", self.header_data) class IdeaMaker(BaseSlicer): def check_identity(self, data): match = re.search(r"\sideaMaker\s(.*),", data) if match: return { 'slicer': "IdeaMaker", 'slicer_version': match.group(1) } return None def parse_first_layer_height(self): layer_info = _regex_find_floats( r";LAYER:0\s*.*\s*;HEIGHT.*", self.header_data) if len(layer_info) >= 3: return layer_info[2] return None def parse_layer_height(self): layer_info = _regex_find_floats( r";LAYER:1\s*.*\s*;HEIGHT.*", self.header_data) if len(layer_info) >= 3: return layer_info[2] return None def parse_object_height(self): bounds = _regex_find_floats( r";Bounding Box:.*", self.header_data) if len(bounds) >= 6: return bounds[5] return None def parse_filament_total(self): filament = _regex_find_floats( r";Material.\d\sUsed:.*", self.header_data, strict=True) if filament: return sum(filament) return None def parse_estimated_time(self): return _regex_find_first( r";Print\sTime:\s(\d+\.?\d*)", self.footer_data) def parse_first_layer_extr_temp(self): return _regex_find_first( r"M109 T0 S(\d+\.?\d*)", self.header_data) def parse_first_layer_bed_temp(self): return _regex_find_first( r"M190 S(\d+\.?\d*)", self.header_data) class IceSL(BaseSlicer): def check_identity(self, data): match = re.search(r"; ", data) if match: return {'slicer': "IceSL"} return None def parse_first_layer_height(self): return _regex_find_first( r"; z_layer_height_first_layer_mm :\s+(\d+\.\d+)", self.header_data, float) def parse_layer_height(self): return _regex_find_first( r"; z_layer_height_mm :\s+(\d+\.\d+)", self.header_data, float) def parse_object_height(self): return self._parse_max_float( r"G0 F\d+ Z\d+\.\d+", self.footer_data, strict=True) def parse_first_layer_extr_temp(self): return _regex_find_first( r"; extruder_temp_degree_c_0 :\s+(\d+\.?\d*)", self.header_data) def parse_first_layer_bed_temp(self): return _regex_find_first( r"; bed_temp_degree_c :\s+(\d+\.?\d*)", self.header_data) READ_SIZE = 512 * 1024 SUPPORTED_SLICERS = [ PrusaSlicer, Slic3rPE, Slic3r, SuperSlicer, Cura, Simplify3D, KISSlicer, IdeaMaker, IceSL] SUPPORTED_DATA = [ 'first_layer_height', 'layer_height', 'object_height', 'filament_total', 'estimated_time', 'thumbnails', 'first_layer_bed_temp', 'first_layer_extr_temp'] def extract_metadata(file_path, log): metadata = {} slicers = [s(file_path) for s in SUPPORTED_SLICERS] header_data = footer_data = slicer = None size = os.path.getsize(file_path) metadata['size'] = size metadata['modified'] = os.path.getmtime(file_path) with open(file_path, 'r') as f: # read the default size, which should be enough to # identify the slicer header_data = f.read(READ_SIZE) for s in slicers: ident = s.check_identity(header_data) if ident is not None: slicer = s metadata.update(ident) break if slicer is None: slicer = UnknownSlicer(file_path) metadata['slicer'] = "Unknown" if size > READ_SIZE * 2: f.seek(size - READ_SIZE) footer_data = f.read() elif size > READ_SIZE: remaining = size - READ_SIZE footer_data = header_data[remaining - READ_SIZE:] + f.read() else: footer_data = header_data slicer.set_data(header_data, footer_data, log) for key in SUPPORTED_DATA: func = getattr(slicer, "parse_" + key) result = func() if result is not None: metadata[key] = result return metadata def main(path, filename): file_path = os.path.join(path, filename) log = [] metadata = {} if not os.path.isfile(file_path): log.append(f"File Not Found: {file_path}") else: try: metadata = extract_metadata(file_path, log) except Exception: log.append(traceback.format_exc()) fd = sys.stdout.fileno() data = json.dumps( {'file': filename, 'log': log, 'metadata': metadata}).encode() while data: try: ret = os.write(fd, data) except OSError: continue data = data[ret:] if __name__ == "__main__": # Parse start arguments parser = argparse.ArgumentParser( description="GCode Metadata Extraction Utility") parser.add_argument( "-f", "--filename", metavar='', help="name gcode file to parse") parser.add_argument( "-p", "--path", default=os.path.abspath(os.path.dirname(__file__)), metavar='', help="optional absolute path for file" ) args = parser.parse_args() main(args.path, args.filename)