def _do_analysis(self, high_priority=False):
try:
def throttle():
time.sleep(0.01)
throttle_callback = throttle
if high_priority:
throttle_callback = None
self._gcode = gcodeInterpreter.gcode()
self._gcode.load(self._current.absolute_path, self._current.printer_profile, throttle=throttle_callback)
result = dict()
if self._gcode.totalMoveTimeMinute:
result["estimatedPrintTime"] = self._gcode.totalMoveTimeMinute * 60
if self._gcode.extrusionAmount:
result["filament"] = dict()
for i in range(len(self._gcode.extrusionAmount)):
result["filament"]["tool%d" % i] = {
"length": self._gcode.extrusionAmount[i],
"volume": self._gcode.extrusionVolume[i]
}
return result
finally:
self._gcode = None
def _do_analysis(self, high_priority=False):
try:
def throttle():
time.sleep(0.01)
throttle_callback = throttle
if high_priority:
throttle_callback = None
self._gcode = gcodeInterpreter.gcode()
self._gcode.load(self._current.absolute_path,
self._current.printer_profile,
throttle=throttle_callback)
result = dict()
result["printingArea"] = self._gcode.printing_area
result["dimensions"] = self._gcode.dimensions
if self._gcode.totalMoveTimeMinute:
result[
"estimatedPrintTime"] = self._gcode.totalMoveTimeMinute * 60
if self._gcode.extrusionAmount:
result["filament"] = dict()
for i in range(len(self._gcode.extrusionAmount)):
result["filament"]["tool%d" % i] = {
"length": self._gcode.extrusionAmount[i],
"volume": self._gcode.extrusionVolume[i]
}
return result
finally:
self._gcode = None
def _do_analysis(self, high_priority=False):
try:
throttle = settings().getFloat(["gcodeAnalysis", "throttle_highprio"]) if high_priority else settings().getFloat(["gcodeAnalysis", "throttle_normalprio"])
if throttle > 0:
def throttle_callback():
time.sleep(throttle)
else:
throttle_callback = None
self._gcode = gcodeInterpreter.gcode()
self._gcode.load(self._current.absolute_path, self._current.printer_profile, throttle=throttle_callback)
result = dict()
result["printingArea"] = self._gcode.printing_area
result["dimensions"] = self._gcode.dimensions
if self._gcode.totalMoveTimeMinute:
result["estimatedPrintTime"] = self._gcode.totalMoveTimeMinute * 60
if self._gcode.extrusionAmount:
result["filament"] = dict()
for i in range(len(self._gcode.extrusionAmount)):
result["filament"]["tool%d" % i] = {
"length": self._gcode.extrusionAmount[i],
"volume": self._gcode.extrusionVolume[i]
}
return result
except gcodeInterpreter.AnalysisAborted as ex:
raise AnalysisAborted(reenqueue=ex.reenqueue)
finally:
self._gcode = None
def run(self):
# Send an initial M110 to reset the line counter to zero.
prevLineType = lineType = "CUSTOM"
gcodeList = ["M110"]
filesize = os.stat(self._filename).st_size
with open(self._filename, "r") as file:
for line in file:
if line.startswith(";TYPE:"):
lineType = line[6:].strip()
if ";" in line:
line = line[0 : line.find(";")]
line = line.strip()
if len(line) > 0:
if prevLineType != lineType:
gcodeList.append((line, lineType))
else:
gcodeList.append(line)
prevLineType = lineType
self._onLoadingProgress(float(file.tell()) / float(filesize))
self._gcodeList = gcodeList
if settings().getBoolean("feature", "analyzeGcode"):
self._gcode = gcodeInterpreter.gcode()
self._gcode.progressCallback = self._onParsingProgress
self._gcode.loadList(self._gcodeList)
self._loadedCallback(self._filename, self._gcode, self._gcodeList)
def gcode_command(path, speedx, speedy, speedz, offset, maxt, throttle,
throttle_lines, g90_extruder, progress):
"""Runs a GCODE file analysis."""
import time
import yaml
from octoprint.util import monotonic_time
from octoprint.util.gcodeInterpreter import gcode
throttle_callback = None
if throttle:
def throttle_callback(filePos, readBytes):
if filePos % throttle_lines == 0:
# only apply throttle every $throttle_lines lines
time.sleep(throttle)
offsets = offset
if offsets is None:
offsets = []
elif isinstance(offset, tuple):
offsets = list(offsets)
offsets = [(0, 0)] + offsets
if len(offsets) < maxt:
offsets += [(0, 0)] * (maxt - len(offsets))
start_time = monotonic_time()
progress_callback = None
if progress:
def progress_callback(percentage):
click.echo("PROGRESS:{}".format(percentage))
interpreter = gcode(progress_callback=progress_callback)
interpreter.load(path,
speedx=speedx,
speedy=speedy,
offsets=offsets,
throttle=throttle_callback,
max_extruders=maxt,
g90_extruder=g90_extruder)
click.echo("DONE:{}s".format(monotonic_time() - start_time))
click.echo("RESULTS:")
click.echo(
yaml.safe_dump(interpreter.get_result(),
default_flow_style=False,
indent=4,
allow_unicode=True))
def _do_analysis(self):
try:
self._gcode = gcodeInterpreter.gcode()
self._gcode.load(self._current.absolute_path, self._current.printer_profile)
result = dict()
if self._gcode.totalMoveTimeMinute:
result["estimatedPrintTime"] = self._gcode.totalMoveTimeMinute * 60
if self._gcode.extrusionAmount:
result["filament"] = dict()
for i in range(len(self._gcode.extrusionAmount)):
result["filament"]["tool%d" % i] = {
"length": self._gcode.extrusionAmount[i],
"volume": self._gcode.extrusionVolume[i]
}
return result
finally:
self._gcode = None
def _analyzeGcode(self, filename):
path = self._getPathCallback(filename)
if path is None:
return
self._currentFile = filename
self._currentProgress = 0
try:
self._logger.debug("Starting analysis of file %s" % filename)
self._gcode = gcodeInterpreter.gcode()
self._gcode.progressCallback = self._onParsingProgress
self._gcode.load(path)
self._logger.debug("Analysis of file %s finished, notifying callback" % filename)
self._loadedCallback(self._currentFile, self._gcode)
finally:
self._gcode = None
self._currentProgress = None
self._currentFile = None
def _analyzeGcode(self, filename):
path = self._getPathCallback(filename)
if path is None:
return
self._currentFile = filename
self._currentProgress = 0
try:
self._logger.debug("Starting analysis of file %s" % filename)
self._gcode = gcodeInterpreter.gcode()
self._gcode.progressCallback = self._onParsingProgress
self._gcode.load(path)
self._logger.debug("Analysis of file %s finished, notifying callback" % filename)
self._loadedCallback(self._currentFile, self._gcode)
finally:
self._gcode = None
self._currentProgress = None
self._currentFile = None
def gcode_command(path, speedx, speedy, speedz, offset, maxt, throttle, throttle_lines, g90_extruder, progress):
"""Runs a GCODE file analysis."""
import time
import yaml
from octoprint.util.gcodeInterpreter import gcode
throttle_callback = None
if throttle:
def throttle_callback(filePos, readBytes):
if filePos % throttle_lines == 0:
# only apply throttle every $throttle_lines lines
time.sleep(throttle)
offsets = offset
if offsets is None:
offsets = []
elif isinstance(offset, tuple):
offsets = list(offsets)
offsets = [(0, 0)] + offsets
if len(offsets) < maxt:
offsets += [(0, 0)] * (maxt - len(offsets))
start_time = time.time()
progress_callback = None
if progress:
def progress_callback(percentage):
click.echo("PROGRESS:{}".format(percentage))
interpreter = gcode(progress_callback=progress_callback)
interpreter.load(path,
speedx=speedx,
speedy=speedy,
offsets=offsets,
throttle=throttle_callback,
max_extruders=maxt,
g90_extruder=g90_extruder)
click.echo("DONE:{}s".format(time.time() - start_time))
click.echo("RESULTS:")
click.echo(yaml.safe_dump(interpreter.get_result(), default_flow_style=False, indent=" ", allow_unicode=True))
def _analyzeGcode(self, filename):
path = self._getPathCallback(filename)
if path is None or not os.path.exists(path):
return
self._currentFile = filename
self._currentProgress = 0
try:
self._logger.debug("Starting analysis of file %s" % filename)
eventManager().fire(Events.METADATA_ANALYSIS_STARTED, {"file": filename})
self._gcode = gcodeInterpreter.gcode()
self._gcode.progressCallback = self._onParsingProgress
self._gcode.load(path)
self._logger.debug("Analysis of file %s finished, notifying callback" % filename)
self._loadedCallback(self._currentFile, self._gcode)
finally:
self._gcode = None
self._currentProgress = None
self._currentFile = None
def _do_analysis(self):
try:
self._gcode = gcodeInterpreter.gcode()
self._gcode.load(self._current.absolute_path,
self._current.printer_profile)
result = dict()
if self._gcode.totalMoveTimeMinute:
result[
"estimatedPrintTime"] = self._gcode.totalMoveTimeMinute * 60
if self._gcode.extrusionAmount:
result["filament"] = dict()
for i in range(len(self._gcode.extrusionAmount)):
result["filament"]["tool%d" % i] = {
"length": self._gcode.extrusionAmount[i],
"volume": self._gcode.extrusionVolume[i]
}
return result
finally:
self._gcode = None
def _analyzeGcode(self, filename):
path = self._getPathCallback(filename)
if path is None or not os.path.exists(path):
return
self._currentFile = filename
self._currentProgress = 0
try:
self._logger.debug("Starting analysis of file %s" % filename)
eventManager().fire(Events.METADATA_ANALYSIS_STARTED,
{"file": filename})
self._gcode = gcodeInterpreter.gcode()
self._gcode.progressCallback = self._onParsingProgress
self._gcode.load(path)
self._logger.debug(
"Analysis of file %s finished, notifying callback" % filename)
self._loadedCallback(self._currentFile, self._gcode)
finally:
self._gcode = None
self._currentProgress = None
self._currentFile = None
def gcode_command(
path,
speedx,
speedy,
speedz,
offset,
maxt,
throttle,
throttle_lines,
g90_extruder,
bedz,
progress,
layers,
):
"""Runs a GCODE file analysis."""
import time
import yaml
from octoprint.util import monotonic_time
from octoprint.util.gcodeInterpreter import gcode
throttle_callback = None
if throttle:
def throttle_callback(filePos, readBytes):
if filePos % throttle_lines == 0:
# only apply throttle every $throttle_lines lines
time.sleep(throttle)
offsets = offset
if offsets is None:
offsets = []
elif isinstance(offset, tuple):
offsets = list(offsets)
offsets = [(0, 0)] + offsets
if len(offsets) < maxt:
offsets += [(0, 0)] * (maxt - len(offsets))
start_time = monotonic_time()
progress_callback = None
if progress:
def progress_callback(percentage):
click.echo("PROGRESS:{}".format(percentage))
interpreter = gcode(progress_callback=progress_callback,
incl_layers=layers)
interpreter.load(
path,
speedx=speedx,
speedy=speedy,
offsets=offsets,
throttle=throttle_callback,
max_extruders=maxt,
g90_extruder=g90_extruder,
bed_z=bedz,
)
click.echo("DONE:{}s".format(monotonic_time() - start_time))
result = interpreter.get_result()
if empty_result(result):
click.echo(
"EMPTY:There are no extrusions in the file, nothing to analyse")
sys.exit(0)
if not validate_result(result):
click.echo(
"ERROR:Invalid analysis result, please create a bug report in OctoPrint's "
"issue tracker and be sure to also include the GCODE file with which this "
"happened")
sys.exit(-1)
click.echo("RESULTS:")
click.echo(
yaml.safe_dump(
interpreter.get_result(),
default_flow_style=False,
indent=2,
allow_unicode=True,
))
