def getOutput(fileName):
'Export a gcode linear move file.'
if fileName == '':
return None
repository = ExportRepository()
settings.getReadRepository(repository)
startTime = time.time()
print('File ' + archive.getSummarizedFileName(fileName.encode('ascii', 'replace')) + ' is being chain exported.')
gcodeText = gcodec.getGcodeFileText(fileName, '')
procedures = skeinforge_craft.getProcedures('export', gcodeText)
gcodeText = skeinforge_craft.getChainTextFromProcedures(fileName, procedures[: -1], gcodeText)
if gcodeText == '':
return None
fileNamePenultimate = fileName[: fileName.rfind('.')] + '_penultimate.gcode'
if repository.savePenultimateGcode.value:
archive.writeFileText(fileNamePenultimate, gcodeText)
print('The penultimate file is saved as ' + archive.getSummarizedFileName(fileNamePenultimate))
exportGcode = getCraftedTextFromText(gcodeText, repository)
replaceableExportGcode = None
selectedPluginModule = getSelectedPluginModule(repository.exportPlugins)
if selectedPluginModule is None:
replaceableExportGcode = exportGcode
else:
if selectedPluginModule.globalIsReplaceable:
replaceableExportGcode = selectedPluginModule.getOutput(exportGcode)
#else:
# selectedPluginModule.writeOutput(outputFilename, exportGcode)
if replaceableExportGcode is not None:
replaceableExportGcode = getReplaceableExportGcode(repository.nameOfReplaceFile.value, replaceableExportGcode)
if repository.alsoSendOutputTo.value != '':
if replaceableExportGcode == None:
replaceableExportGcode = selectedPluginModule.getOutput(exportGcode)
sendOutputTo(repository.alsoSendOutputTo.value, replaceableExportGcode)
print('It took %s to export the file.' % euclidean.getDurationString(time.time() - startTime))
return replaceableExportGcode
def getWindowAnalyzeFile(fileName):
"Get file interpretion."
startTime = time.time()
carving = getCarving(fileName)
if carving is None:
return None
interpretGcode = str( carving )
if interpretGcode == '':
return None
repository = settings.getReadRepository( InterpretRepository() )
if repository.printInterpretion.value:
print( interpretGcode )
suffixFileName = fileName[ : fileName.rfind('.') ] + '_interpret.' + carving.getInterpretationSuffix()
suffixDirectoryName = os.path.dirname(suffixFileName)
suffixReplacedBaseName = os.path.basename(suffixFileName).replace(' ', '_')
suffixFileName = os.path.join( suffixDirectoryName, suffixReplacedBaseName )
archive.writeFileText( suffixFileName, interpretGcode )
print('The interpret file is saved as ' + archive.getSummarizedFileName(suffixFileName) )
print('It took %s to interpret the file.' % euclidean.getDurationString( time.time() - startTime ) )
textProgram = repository.textProgram.value
if textProgram == '':
return None
if textProgram == 'webbrowser':
settings.openWebPage(suffixFileName)
return None
textFilePath = '"' + os.path.normpath(suffixFileName) + '"' # " to send in file name with spaces
shellCommand = textProgram + ' ' + textFilePath
print('Sending the shell command:')
print(shellCommand)
commandResult = os.system(shellCommand)
if commandResult != 0:
print('It may be that the system could not find the %s program.' % textProgram )
print('If so, try installing the %s program or look for another one, like Open Office which can be found at:' % textProgram )
print('http://www.openoffice.org/')
print('Open office writer can then be started from the command line with the command "soffice -writer".')
def writeOutput(fileName, shouldAnalyze=True):
"Export a gcode linear move file."
if fileName == "":
return None
repository = ExportRepository()
settings.getReadRepository(repository)
startTime = time.time()
print("File " + archive.getSummarizedFileName(fileName) + " is being chain exported.")
fileNameSuffix = fileName[: fileName.rfind(".")]
if repository.addExportSuffix.value:
fileNameSuffix += "_export"
gcodeText = gcodec.getGcodeFileText(fileName, "")
if repository.addProfileExtension.value:
profileName = skeinforge_profile.getProfileName(skeinforge_profile.getCraftTypeName())
if profileName:
fileNameSuffix += "." + string.replace(profileName, " ", "_")
if repository.addDescriptiveExtension.value:
fileNameSuffix += getDescriptiveExtension(gcodeText)
if repository.addTimestampExtension.value:
fileNameSuffix += "." + getFirstValue(gcodeText, "(<timeStampPreface>")
fileNameSuffix += "." + repository.fileExtension.value
procedures = skeinforge_craft.getProcedures("export", gcodeText)
gcodeText = skeinforge_craft.getChainTextFromProcedures(fileName, procedures[:-1], gcodeText)
if gcodeText == "":
return None
fileNamePenultimate = fileName[: fileName.rfind(".")] + "_penultimate.gcode"
filePenultimateWritten = False
if repository.savePenultimateGcode.value:
archive.writeFileText(fileNamePenultimate, gcodeText)
filePenultimateWritten = True
print("The penultimate file is saved as " + archive.getSummarizedFileName(fileNamePenultimate))
exportGcode = getCraftedTextFromText(gcodeText, repository)
window = None
if shouldAnalyze:
window = skeinforge_analyze.writeOutput(
fileName, fileNamePenultimate, fileNameSuffix, filePenultimateWritten, gcodeText
)
replaceableExportGcode = None
selectedPluginModule = getSelectedPluginModule(repository.exportPlugins)
if selectedPluginModule == None:
replaceableExportGcode = exportGcode
else:
if selectedPluginModule.globalIsReplaceable:
replaceableExportGcode = selectedPluginModule.getOutput(exportGcode)
else:
selectedPluginModule.writeOutput(fileNameSuffix, exportGcode)
if replaceableExportGcode != None:
replaceableExportGcode = getReplaceableExportGcode(repository.nameOfReplaceFile.value, replaceableExportGcode)
archive.writeFileText(fileNameSuffix, replaceableExportGcode)
print("The exported file is saved as " + archive.getSummarizedFileName(fileNameSuffix))
if repository.alsoSendOutputTo.value != "":
if replaceableExportGcode == None:
replaceableExportGcode = selectedPluginModule.getOutput(exportGcode)
sendOutputTo(repository.alsoSendOutputTo.value, replaceableExportGcode)
print("It took %s to export the file." % euclidean.getDurationString(time.time() - startTime))
return window
def writeOutput(fileName, shouldAnalyze=True):
'Export a gcode linear move file.'
if fileName == '':
return None
repository = ExportRepository()
settings.getReadRepository(repository)
startTime = time.time()
print('File ' + archive.getSummarizedFileName(fileName) + ' is being chain exported.')
fileNameSuffix = fileName[: fileName.rfind('.')]
if repository.addExportSuffix.value:
fileNameSuffix += '_export'
gcodeText = gcodec.getGcodeFileText(fileName, '')
procedures = skeinforge_craft.getProcedures('export', gcodeText)
gcodeText = skeinforge_craft.getChainTextFromProcedures(fileName, procedures[: -1], gcodeText)
if gcodeText == '':
return None
if repository.addProfileExtension.value:
fileNameSuffix += '.' + getFirstValue(gcodeText, '(<profileName>')
if repository.addDescriptiveExtension.value:
print( 'getDescriptiveExtension(gcodeText)')
print( getDescriptiveExtension(gcodeText))
fileNameSuffix += getDescriptiveExtension(gcodeText)
if repository.addTimestampExtension.value:
fileNameSuffix += '.' + getFirstValue(gcodeText, '(<timeStampPreface>')
fileNameSuffix += '.' + repository.fileExtension.value
fileNamePenultimate = fileName[: fileName.rfind('.')] + '_penultimate.gcode'
filePenultimateWritten = False
if repository.savePenultimateGcode.value:
archive.writeFileText(fileNamePenultimate, gcodeText)
filePenultimateWritten = True
print('The penultimate file is saved as ' + archive.getSummarizedFileName(fileNamePenultimate))
exportGcode = getCraftedTextFromText(gcodeText, repository)
window = None
if shouldAnalyze and repository.analyzeGcode.value:
window = skeinforge_analyze.writeOutput(fileName, fileNamePenultimate, fileNameSuffix, filePenultimateWritten, gcodeText)
replaceableExportGcode = None
selectedPluginModule = getSelectedPluginModule(repository.exportPlugins)
if selectedPluginModule == None:
replaceableExportGcode = exportGcode
else:
if selectedPluginModule.globalIsReplaceable:
replaceableExportGcode = selectedPluginModule.getOutput(exportGcode)
else:
selectedPluginModule.writeOutput(fileNameSuffix, exportGcode)
if replaceableExportGcode != None:
replaceableExportGcode = getReplaceableExportGcode(repository.nameOfReplaceFile.value, replaceableExportGcode)
archive.writeFileText( fileNameSuffix, replaceableExportGcode )
print('The exported file is saved as ' + archive.getSummarizedFileName(fileNameSuffix))
if repository.alsoSendOutputTo.value != '':
if replaceableExportGcode == None:
replaceableExportGcode = selectedPluginModule.getOutput(exportGcode)
sendOutputTo(repository.alsoSendOutputTo.value, replaceableExportGcode)
print('It took %s to export the file.' % euclidean.getDurationString(time.time() - startTime))
return window
def getChainTextFromProcedures( fileName, procedures, text ):
"Get a crafted shape file from a list of procedures."
lastProcedureTime = time.time()
for procedure in procedures:
craftModule = getCraftModule(procedure)
if craftModule != None:
text = craftModule.getCraftedText( fileName, text )
if gcodec.isProcedureDone( text, procedure ):
print('%s procedure took %s.' % (procedure.capitalize(), euclidean.getDurationString(time.time() - lastProcedureTime)))
lastProcedureTime = time.time()
return text
def writeOutput( fileName = '' ): "Carve a GNU Triangulated Surface file." startTime = time.time() print( 'File ' + gcodec.getSummarizedFileName( fileName ) + ' is being carved.' ) carveGcode = getCraftedText( fileName ) if carveGcode == '': return suffixFileName = gcodec.getFilePathWithUnderscoredBasename( fileName, '_carve.svg' ) gcodec.writeFileText( suffixFileName, carveGcode ) print( 'The carved file is saved as ' + gcodec.getSummarizedFileName( suffixFileName ) ) print( 'It took %s to carve the file.' % euclidean.getDurationString( time.time() - startTime ) ) settings.openWebPage( suffixFileName )
def writeOutput(fileName=''):
"Carve a GNU Triangulated Surface file."
startTime = time.time()
print('File ' + archive.getSummarizedFileName(fileName) + ' is being carved.')
repository = CarveRepository()
settings.getReadRepository(repository)
carveGcode = getCraftedText( fileName, '', repository )
if carveGcode == '':
return
suffixFileName = archive.getFilePathWithUnderscoredBasename( fileName, '_carve.svg')
archive.writeFileText( suffixFileName, carveGcode )
print('The carved file is saved as ' + archive.getSummarizedFileName(suffixFileName) )
print('It took %s to carve the file.' % euclidean.getDurationString( time.time() - startTime ) )
settings.openSVGPage( suffixFileName, repository.svgViewer.value )
def writeOutput(fileName, shouldAnalyze=True):
"Carve a GNU Triangulated Surface file."
startTime = time.time()
print("File " + archive.getSummarizedFileName(fileName) + " is being carved.")
repository = CarveRepository()
settings.getReadRepository(repository)
carveGcode = getCraftedText(fileName, "", repository)
if carveGcode == "":
return
suffixFileName = archive.getFilePathWithUnderscoredBasename(fileName, "_carve.svg")
archive.writeFileText(suffixFileName, carveGcode)
print("The carved file is saved as " + archive.getSummarizedFileName(suffixFileName))
print("It took %s to carve the file." % euclidean.getDurationString(time.time() - startTime))
if shouldAnalyze:
settings.openSVGPage(suffixFileName, repository.svgViewer.value)
def getChainTextFromProcedures(fileName, procedures, text):
'Get a crafted shape file from a list of procedures.'
lastProcedureTime = time.time()
for procedure in procedures:
craftModule = getCraftModule(procedure)
if craftModule != None:
text = craftModule.getCraftedText(fileName, text)
if text == '':
print('Warning, the text was not recognized in getChainTextFromProcedures in skeinforge_craft for')
print(fileName)
return ''
if gcodec.isProcedureDone( text, procedure ):
print('%s procedure took %s.' % (procedure.capitalize(), euclidean.getDurationString(time.time() - lastProcedureTime)))
lastProcedureTime = time.time()
return text
def writeOutput(fileName=""):
"Chop a GNU Triangulated Surface file. If no fileName is specified, chop the first GNU Triangulated Surface file in this folder."
startTime = time.time()
print("File " + archive.getSummarizedFileName(fileName) + " is being chopped.")
repository = ChopRepository()
settings.getReadRepository(repository)
chopGcode = getCraftedText(fileName, "", repository)
if chopGcode == "":
return
suffixFileName = fileName[: fileName.rfind(".")] + "_chop.svg"
suffixDirectoryName = os.path.dirname(suffixFileName)
suffixReplacedBaseName = os.path.basename(suffixFileName).replace(" ", "_")
suffixFileName = os.path.join(suffixDirectoryName, suffixReplacedBaseName)
archive.writeFileText(suffixFileName, chopGcode)
print("The chopped file is saved as " + archive.getSummarizedFileName(suffixFileName))
print("It took %s to chop the file." % euclidean.getDurationString(time.time() - startTime))
settings.openSVGPage(suffixFileName, repository.svgViewer.value)
def getWindowAnalyzeFileGivenText(fileName, gcodeText, repository=None):
'Write scalable vector graphics for a gcode file given the settings.'
if gcodeText == '':
return None
if repository == None:
repository = settings.getReadRepository(SynopsisRepository())
startTime = time.time()
suffixFileNameWithoutExtension = fileName[: fileName.rfind('.')] + '_synopsis.'
suffixDirectoryPath = os.path.dirname(suffixFileNameWithoutExtension)
suffixReplacedBaseNameWithoutExtension = os.path.basename(suffixFileNameWithoutExtension).replace(' ', '_')
suffixFileNameWithoutExtension = os.path.join(suffixDirectoryPath, suffixReplacedBaseNameWithoutExtension)
abridgedSettings = getAbridgedSettings(gcodeText)
if repository.exportProfileAsCSVFile.value:
exportProfileAsCSVFile(abridgedSettings, suffixFileNameWithoutExtension)
if repository.exportProfileAsZipFile.value:
exportProfileAsZipFile(abridgedSettings, suffixDirectoryPath, suffixFileNameWithoutExtension)
print('It took %s for synopsis to analyze the file.' % euclidean.getDurationString(time.time() - startTime))
def writeOutput( self, fileName = ''):
"Cleave a GNU Triangulated Surface file. If no fileName is specified, cleave the first GNU Triangulated Surface file in this folder."
startTime = time.time()
print('File ' + gcodec.getSummarizedFileName(fileName) + ' is being cleaved.')
repository = CleaveRepository()
settings.getReadRepository(repository)
cleaveGcode = self.getCraftedText( fileName, '', repository )
if cleaveGcode == '':
return
suffixFileName = fileName[ : fileName.rfind('.') ] + '_cleave.svg'
suffixDirectoryName = os.path.dirname(suffixFileName)
suffixReplacedBaseName = os.path.basename(suffixFileName).replace(' ', '_')
suffixFileName = os.path.join( suffixDirectoryName, suffixReplacedBaseName )
gcodec.writeFileText( suffixFileName, cleaveGcode )
print('The cleaved file is saved as ' + gcodec.getSummarizedFileName(suffixFileName) )
print('It took %s to cleave the file.' % euclidean.getDurationString( time.time() - startTime ) )
settings.openSVGPage( suffixFileName, repository.svgViewer.value )
def getWindowAnalyzeFileGivenText( fileName, gcodeText, repository=None):
'Write scalable vector graphics for a gcode file given the settings.'
if gcodeText == '':
return None
if repository == None:
repository = settings.getReadRepository( VectorwriteRepository() )
startTime = time.time()
vectorwriteGcode = VectorwriteSkein().getCarvedSVG( fileName, gcodeText, repository )
if vectorwriteGcode == '':
return None
suffixFileName = fileName[ : fileName.rfind('.') ] + '_vectorwrite.svg'
suffixDirectoryName = os.path.dirname(suffixFileName)
suffixReplacedBaseName = os.path.basename(suffixFileName).replace(' ', '_')
suffixFileName = os.path.join( suffixDirectoryName, suffixReplacedBaseName )
archive.writeFileText( suffixFileName, vectorwriteGcode )
print('The vectorwrite file is saved as ' + archive.getSummarizedFileName(suffixFileName) )
print('It took %s to vectorwrite the file.' % euclidean.getDurationString( time.time() - startTime ) )
settings.openSVGPage( suffixFileName, repository.svgViewer.value )
def writeChainTextWithNounMessage( fileName, procedure ):
"Get and write a crafted shape file."
print('')
print('The %s tool is parsing the file:' % procedure )
print( os.path.basename(fileName) )
print('')
startTime = time.time()
fileNameSuffix = fileName[ : fileName.rfind('.') ] + '_' + procedure + '.gcode'
craftText = getChainText( fileName, procedure )
if craftText == '':
return
archive.writeFileText( fileNameSuffix, craftText )
print('')
print('The %s tool has created the file:' % procedure )
print( fileNameSuffix )
print('')
print('It took %s to craft the file.' % euclidean.getDurationString( time.time() - startTime ) )
skeinforge_analyze.writeOutput( fileName, fileNameSuffix, craftText )
def writeOutput(fileName, shouldAnalyze=True):
"Chop a GNU Triangulated Surface file. If no fileName is specified, chop the first GNU Triangulated Surface file in this folder."
startTime = time.time()
print('File ' + archive.getSummarizedFileName(fileName) + ' is being chopped.')
repository = ChopRepository()
settings.getReadRepository(repository)
chopGcode = getCraftedText( fileName, '', repository )
if chopGcode == '':
return
suffixFileName = fileName[ : fileName.rfind('.') ] + '_chop.svg'
suffixDirectoryName = os.path.dirname(suffixFileName)
suffixReplacedBaseName = os.path.basename(suffixFileName).replace(' ', '_')
suffixFileName = os.path.join( suffixDirectoryName, suffixReplacedBaseName )
archive.writeFileText( suffixFileName, chopGcode )
print('The chopped file is saved as ' + archive.getSummarizedFileName(suffixFileName) )
print('It took %s to chop the file.' % euclidean.getDurationString( time.time() - startTime ) )
if shouldAnalyze:
settings.openSVGPage( suffixFileName, repository.svgViewer.value )
def analyzeFileGivenText(fileName, gcodeText, repository=None):
"Write scalable vector graphics for a gcode file given the settings."
if gcodeText == "":
return ""
if repository == None:
repository = settings.getReadRepository(VectorwriteRepository())
startTime = time.time()
vectorwriteGcode = VectorwriteSkein().getCarvedSVG(fileName, gcodeText, repository)
if vectorwriteGcode == "":
return
suffixFileName = fileName[: fileName.rfind(".")] + "_vectorwrite.svg"
suffixDirectoryName = os.path.dirname(suffixFileName)
suffixReplacedBaseName = os.path.basename(suffixFileName).replace(" ", "_")
suffixFileName = os.path.join(suffixDirectoryName, suffixReplacedBaseName)
gcodec.writeFileText(suffixFileName, vectorwriteGcode)
print("The vectorwrite file is saved as " + gcodec.getSummarizedFileName(suffixFileName))
print("It took %s to vectorwrite the file." % euclidean.getDurationString(time.time() - startTime))
settings.openWebPage(suffixFileName)
def writeOutput(fileName, shouldAnalyze=True):
"Carve a GNU Triangulated Surface file."
startTime = time.time()
print('File ' + archive.getSummarizedFileName(fileName) +
' is being carved.')
repository = CarveRepository()
settings.getReadRepository(repository)
carveGcode = getCraftedText(fileName, '', repository)
if carveGcode == '':
return
suffixFileName = archive.getFilePathWithUnderscoredBasename(
fileName, '_carve.svg')
archive.writeFileText(suffixFileName, carveGcode)
print('The carved file is saved as ' +
archive.getSummarizedFileName(suffixFileName))
print('It took %s to carve the file.' %
euclidean.getDurationString(time.time() - startTime))
if shouldAnalyze:
settings.openSVGPage(suffixFileName, repository.svgViewer.value)
def writeOutput(fileName=''):
'Export a gcode linear move file.'
fileName = fabmetheus_interpret.getFirstTranslatorFileNameUnmodified(fileName)
if fileName == '':
return
repository = ExportRepository()
settings.getReadRepository(repository)
startTime = time.time()
print('File ' + archive.getSummarizedFileName(fileName) + ' is being chain exported.')
suffixFileName = fileName[: fileName.rfind('.')]
if repository.addExportSuffix.value:
suffixFileName += '_export'
suffixFileName += '.' + repository.fileExtension.value
gcodeText = gcodec.getGcodeFileText(fileName, '')
procedures = skeinforge_craft.getProcedures('export', gcodeText)
gcodeText = skeinforge_craft.getChainTextFromProcedures(fileName, procedures[ : - 1 ], gcodeText)
if gcodeText == '':
return
window = skeinforge_analyze.writeOutput(fileName, suffixFileName, gcodeText)
if repository.savePenultimateGcode.value:
penultimateFileName = fileName[: fileName.rfind('.')] + '_penultimate.gcode'
archive.writeFileText(penultimateFileName, gcodeText)
print('The penultimate file is saved as ' + archive.getSummarizedFileName(penultimateFileName))
exportChainGcode = getCraftedTextFromText(gcodeText, repository)
replaceableExportChainGcode = None
selectedPluginModule = getSelectedPluginModule(repository.exportPlugins)
if selectedPluginModule == None:
replaceableExportChainGcode = exportChainGcode
else:
if selectedPluginModule.globalIsReplaceable:
replaceableExportChainGcode = selectedPluginModule.getOutput(exportChainGcode)
else:
selectedPluginModule.writeOutput(suffixFileName, exportChainGcode)
if replaceableExportChainGcode != None:
replaceableExportChainGcode = getReplaced(replaceableExportChainGcode)
archive.writeFileText( suffixFileName, replaceableExportChainGcode )
print('The exported file is saved as ' + archive.getSummarizedFileName(suffixFileName))
if repository.alsoSendOutputTo.value != '':
if replaceableExportChainGcode == None:
replaceableExportChainGcode = selectedPluginModule.getOutput(exportChainGcode)
exec('print >> ' + repository.alsoSendOutputTo.value + ', replaceableExportChainGcode')
print('It took %s to export the file.' % euclidean.getDurationString(time.time() - startTime))
return window
def writeSVGTextWithNounMessage(fileName, repository):
'Get and write an svg text and print messages.'
print('')
print('The %s tool is parsing the file:' % repository.lowerName)
print(os.path.basename(fileName))
print('')
startTime = time.time()
fileNameSuffix = fileName[: fileName.rfind('.')] + '_' + repository.lowerName + '.svg'
craftText = getChainText(fileName, repository.lowerName)
if craftText == '':
return
archive.writeFileText(fileNameSuffix, craftText)
print('')
print('The %s tool has created the file:' % repository.lowerName)
print(fileNameSuffix)
print('')
print('It took %s to craft the file.' % euclidean.getDurationString(time.time() - startTime))
settings.getReadRepository(repository)
settings.openSVGPage(fileNameSuffix, repository.svgViewer.value)
def writeOutput(fileName=''):
"Chop a GNU Triangulated Surface file. If no fileName is specified, chop the first GNU Triangulated Surface file in this folder."
startTime = time.time()
print('File ' + archive.getSummarizedFileName(fileName) +
' is being chopped.')
repository = ChopRepository()
settings.getReadRepository(repository)
chopGcode = getCraftedText(fileName, '', repository)
if chopGcode == '':
return
suffixFileName = fileName[:fileName.rfind('.')] + '_chop.svg'
suffixDirectoryName = os.path.dirname(suffixFileName)
suffixReplacedBaseName = os.path.basename(suffixFileName).replace(' ', '_')
suffixFileName = os.path.join(suffixDirectoryName, suffixReplacedBaseName)
archive.writeFileText(suffixFileName, chopGcode)
print('The chopped file is saved as ' +
archive.getSummarizedFileName(suffixFileName))
print('It took %s to chop the file.' %
euclidean.getDurationString(time.time() - startTime))
settings.openSVGPage(suffixFileName, repository.svgViewer.value)
def writeSVGTextWithNounMessage(fileName, repository, shouldAnalyze=True):
"Get and write an svg text and print messages."
print("")
print("The %s tool is parsing the file:" % repository.lowerName)
print(os.path.basename(fileName))
print("")
startTime = time.time()
fileNameSuffix = fileName[: fileName.rfind(".")] + "_" + repository.lowerName + ".svg"
craftText = getChainText(fileName, repository.lowerName)
if craftText == "":
return
archive.writeFileText(fileNameSuffix, craftText)
print("")
print("The %s tool has created the file:" % repository.lowerName)
print(fileNameSuffix)
print("")
print("It took %s to craft the file." % euclidean.getDurationString(time.time() - startTime))
if shouldAnalyze:
settings.getReadRepository(repository)
settings.openSVGPage(fileNameSuffix, repository.svgViewer.value)
def writeOutput(fileName=''):
"Bottom the carving of a gcode file."
print('')
print('The bottom tool is parsing the file:')
print(os.path.basename(fileName))
print('')
startTime = time.time()
fileNameSuffix = fileName[: fileName.rfind('.')] + '_bottom.svg'
craftText = skeinforge_craft.getChainText(fileName, 'bottom')
if craftText == '':
return
archive.writeFileText(fileNameSuffix, craftText)
print('')
print('The bottom tool has created the file:')
print(fileNameSuffix)
print('')
print('It took %s to craft the file.' % euclidean.getDurationString(time.time() - startTime))
repository = BottomRepository()
settings.getReadRepository(repository)
settings.openSVGPage(fileNameSuffix, repository.svgViewer.value)
def writeChainTextWithNounMessage(fileName, procedure):
'Get and write a crafted shape file.'
print('')
print('The %s tool is parsing the file:' % procedure)
print(os.path.basename(fileName))
print('')
startTime = time.time()
fileNameSuffix = fileName[: fileName.rfind('.')] + '_' + procedure + '.gcode'
craftText = getChainText(fileName, procedure)
if craftText == '':
print('Warning, there was no text output in writeChainTextWithNounMessage in skeinforge_craft for:')
print(fileName)
return
archive.writeFileText(fileNameSuffix, craftText)
print('')
print('The %s tool has created the file:' % procedure)
print(fileNameSuffix)
print('')
print('It took %s to craft the file.' % euclidean.getDurationString(time.time() - startTime))
return skeinforge_analyze.writeOutput(fileName, fileNameSuffix, craftText)
def getChainTextFromProcedures(fileName, procedures, text):
'Get a crafted shape file from a list of procedures.'
lastProcedureTime = time.time()
for procedure in procedures:
craftModule = getCraftModule(procedure)
if craftModule != None:
text = craftModule.getCraftedText(fileName, text)
if text == '':
print(
'Warning, the text was not recognized in getChainTextFromProcedures in skeinforge_craft for'
)
print(fileName)
return ''
if gcodec.isProcedureDone(text, procedure):
print('%s procedure took %s.' %
(procedure.capitalize(),
euclidean.getDurationString(time.time() -
lastProcedureTime)))
lastProcedureTime = time.time()
return text
def writeSVGTextWithNounMessage(fileName, repository, shouldAnalyze=True):
'Get and write an svg text and print messages.'
print('')
print('The %s tool is parsing the file:' % repository.lowerName)
print(os.path.basename(fileName))
print('')
startTime = time.time()
fileNameSuffix = fileName[: fileName.rfind('.')] + '_' + repository.lowerName + '.svg'
craftText = getChainText(fileName, repository.lowerName)
if craftText == '':
return
archive.writeFileText(fileNameSuffix, craftText)
print('')
print('The %s tool has created the file:' % repository.lowerName)
print(fileNameSuffix)
print('')
print('It took %s to craft the file.' % euclidean.getDurationString(time.time() - startTime))
if shouldAnalyze:
settings.getReadRepository(repository)
settings.openSVGPage(fileNameSuffix, repository.svgViewer.value)
def writeOutput( fileName = '' ): "Chop a GNU Triangulated Surface file. If no fileName is specified, chop the first GNU Triangulated Surface file in this folder." if fileName == '': unmodified = gcodec.getFilesWithFileTypesWithoutWords( fabmetheus_interpret.getImportPluginFileNames() ) if len( unmodified ) == 0: print( "There are no carvable files in this folder." ) return fileName = unmodified[ 0 ] startTime = time.time() print( 'File ' + gcodec.getSummarizedFileName( fileName ) + ' is being chopped.' ) chopGcode = getCraftedText( fileName ) if chopGcode == '': return suffixFileName = fileName[ : fileName.rfind( '.' ) ] + '_chop.svg' suffixDirectoryName = os.path.dirname( suffixFileName ) suffixReplacedBaseName = os.path.basename( suffixFileName ).replace( ' ', '_' ) suffixFileName = os.path.join( suffixDirectoryName, suffixReplacedBaseName ) gcodec.writeFileText( suffixFileName, chopGcode ) print( 'The chopped file is saved as ' + gcodec.getSummarizedFileName( suffixFileName ) ) print( 'It took %s to chop the file.' % euclidean.getDurationString( time.time() - startTime ) ) settings.openWebPage( suffixFileName )
def writeOutput(fileName, shouldAnalyze=True):
"Cleave a GNU Triangulated Surface file."
startTime = time.time()
print('File ' + archive.getSummarizedFileName(fileName) +
' is being cleaved.')
repository = CleaveRepository()
settings.getReadRepository(repository)
cleaveGcode = getCraftedText(fileName, '', repository)
if cleaveGcode == '':
return
suffixFileName = fileName[:fileName.rfind('.')] + '_cleave.svg'
suffixDirectoryName = os.path.dirname(suffixFileName)
suffixReplacedBaseName = os.path.basename(suffixFileName).replace(' ', '_')
suffixFileName = os.path.join(suffixDirectoryName, suffixReplacedBaseName)
archive.writeFileText(suffixFileName, cleaveGcode)
print('The cleaved file is saved as ' +
archive.getSummarizedFileName(suffixFileName))
print('It took %s to cleave the file.' %
euclidean.getDurationString(time.time() - startTime))
if shouldAnalyze:
settings.openSVGPage(suffixFileName, repository.svgViewer.value)
def getWindowAnalyzeFileGivenText(fileName, gcodeText, repository=None):
"Write scalable vector graphics for a gcode file given the settings."
if gcodeText == '':
return None
if repository == None:
repository = settings.getReadRepository(VectorwriteRepository())
startTime = time.time()
vectorwriteGcode = VectorwriteSkein().getCarvedSVG(fileName, gcodeText,
repository)
if vectorwriteGcode == '':
return None
suffixFileName = fileName[:fileName.rfind('.')] + '_vectorwrite.svg'
suffixDirectoryName = os.path.dirname(suffixFileName)
suffixReplacedBaseName = os.path.basename(suffixFileName).replace(' ', '_')
suffixFileName = os.path.join(suffixDirectoryName, suffixReplacedBaseName)
archive.writeFileText(suffixFileName, vectorwriteGcode)
print('The vectorwrite file is saved as ' +
archive.getSummarizedFileName(suffixFileName))
print('It took %s to vectorwrite the file.' %
euclidean.getDurationString(time.time() - startTime))
settings.openSVGPage(suffixFileName, repository.svgViewer.value)
def writeOutput(fileName=''):
'Export a gcode linear move file.'
fileName = fabmetheus_interpret.getFirstTranslatorFileNameUnmodified(fileName)
if fileName == '':
return
repository = ExportRepository()
settings.getReadRepository(repository)
startTime = time.time()
print('File ' + archive.getSummarizedFileName(fileName) + ' is being chain exported.')
suffixFileName = fileName[: fileName.rfind('.')] + '_export.' + repository.fileExtension.value
gcodeText = gcodec.getGcodeFileText(fileName, '')
procedures = skeinforge_craft.getProcedures('export', gcodeText)
gcodeText = skeinforge_craft.getChainTextFromProcedures(fileName, procedures[ : - 1 ], gcodeText)
if gcodeText == '':
return
window = skeinforge_analyze.writeOutput(fileName, suffixFileName, gcodeText)
if repository.savePenultimateGcode.value:
penultimateFileName = fileName[: fileName.rfind('.')] + '_penultimate.gcode'
archive.writeFileText(penultimateFileName, gcodeText)
print('The penultimate file is saved as ' + archive.getSummarizedFileName(penultimateFileName))
exportChainGcode = getCraftedTextFromText(gcodeText, repository)
replaceableExportChainGcode = None
selectedPluginModule = getSelectedPluginModule(repository.exportPlugins)
if selectedPluginModule == None:
replaceableExportChainGcode = exportChainGcode
else:
if selectedPluginModule.globalIsReplaceable:
replaceableExportChainGcode = selectedPluginModule.getOutput(exportChainGcode)
else:
selectedPluginModule.writeOutput(suffixFileName, exportChainGcode)
if replaceableExportChainGcode != None:
replaceableExportChainGcode = getReplaced(replaceableExportChainGcode)
archive.writeFileText( suffixFileName, replaceableExportChainGcode )
print('The exported file is saved as ' + archive.getSummarizedFileName(suffixFileName))
if repository.alsoSendOutputTo.value != '':
if replaceableExportChainGcode == None:
replaceableExportChainGcode = selectedPluginModule.getOutput(exportChainGcode)
exec('print >> ' + repository.alsoSendOutputTo.value + ', replaceableExportChainGcode')
print('It took %s to export the file.' % euclidean.getDurationString(time.time() - startTime))
return window
def writeChainTextWithNounMessage(fileName, procedure, shouldAnalyze=True):
"Get and write a crafted shape file."
print("")
print("The %s tool is parsing the file:" % procedure)
print(os.path.basename(fileName))
print("")
startTime = time.time()
fileNameSuffix = fileName[: fileName.rfind(".")] + "_" + procedure + ".gcode"
craftText = getChainText(fileName, procedure)
if craftText == "":
print("Warning, there was no text output in writeChainTextWithNounMessage in skeinforge_craft for:")
print(fileName)
return
archive.writeFileText(fileNameSuffix, craftText)
window = None
if shouldAnalyze:
window = skeinforge_analyze.writeOutput(fileName, fileNameSuffix, craftText)
print("")
print("The %s tool has created the file:" % procedure)
print(fileNameSuffix)
print("")
print("It took %s to craft the file." % euclidean.getDurationString(time.time() - startTime))
return window
def writeChainTextWithNounMessage(fileName, procedure, shouldAnalyze=True):
'Get and write a crafted shape file.'
print('')
print('The %s tool is parsing the file:' % procedure)
print(os.path.basename(fileName))
print('')
startTime = time.time()
fileNameSuffix = fileName[: fileName.rfind('.')] + '_' + procedure + '.gcode'
craftText = getChainText(fileName, procedure)
if craftText == '':
print('Warning, there was no text output in writeChainTextWithNounMessage in skeinforge_craft for:')
print(fileName)
return
archive.writeFileText(fileNameSuffix, craftText)
window = None
if shouldAnalyze:
window = skeinforge_analyze.writeOutput(fileName, fileNameSuffix, fileNameSuffix, True, craftText)
print('')
print('The %s tool has created the file:' % procedure)
print(fileNameSuffix)
print('')
print('It took %s to craft the file.' % euclidean.getDurationString(time.time() - startTime))
return window
def getWindowAnalyzeFileGivenText(fileName, gcodeText, repository=None):
'Write scalable vector graphics for a gcode file given the settings.'
if gcodeText == '':
return None
if repository == None:
repository = settings.getReadRepository(SynopsisRepository())
startTime = time.time()
suffixFileNameWithoutExtension = fileName[:fileName.rfind('.'
)] + '_synopsis.'
suffixDirectoryPath = os.path.dirname(suffixFileNameWithoutExtension)
suffixReplacedBaseNameWithoutExtension = os.path.basename(
suffixFileNameWithoutExtension).replace(' ', '_')
suffixFileNameWithoutExtension = os.path.join(
suffixDirectoryPath, suffixReplacedBaseNameWithoutExtension)
abridgedSettings = getAbridgedSettings(gcodeText)
if repository.exportProfileAsCSVFile.value:
exportProfileAsCSVFile(abridgedSettings,
suffixFileNameWithoutExtension)
if repository.exportProfileAsZipFile.value:
exportProfileAsZipFile(abridgedSettings, suffixDirectoryPath,
suffixFileNameWithoutExtension)
print('It took %s for synopsis to analyze the file.' %
euclidean.getDurationString(time.time() - startTime))
def getCraftedGcode(self, gcodeText, repository):
"""Parse gcode text and store the statistics."""
self.absolutePerimeterWidth = 0.4
self.characters = 0
self.cornerMaximum = Vector3(-987654321.0, -987654321.0, -987654321.0)
self.cornerMinimum = Vector3(987654321.0, 987654321.0, 987654321.0)
self.extruderActive = False
self.extruderSpeed = None
self.extruderToggled = 0
self.feedRateMinute = 600.0
self.extrusionHeight = 0.4
self.numberOfLines = 0
self.procedures = []
self.repository = repository
self.totalBuildTime = 0.0
self.totalDistanceExtruded = 0.0
self.totalDistanceTraveled = 0.0
lines = archive.getTextLines(gcodeText)
for line in lines:
self.parseLine(line)
averageFeedRate = self.totalDistanceTraveled / self.totalBuildTime
self.characters += self.numberOfLines
kilobytes = round( self.characters / 1024.0 )
halfPerimeterWidth = 0.5 * self.absolutePerimeterWidth
halfExtrusionCorner = Vector3( halfPerimeterWidth, halfPerimeterWidth, halfPerimeterWidth )
self.cornerMaximum += halfExtrusionCorner
self.cornerMinimum -= halfExtrusionCorner
extent = self.cornerMaximum - self.cornerMinimum
roundedHigh = euclidean.getRoundedPoint( self.cornerMaximum )
roundedLow = euclidean.getRoundedPoint( self.cornerMinimum )
roundedExtent = euclidean.getRoundedPoint( extent )
axisString = " axis extrusion starts at "
crossSectionArea = 0.9 * self.absolutePerimeterWidth * self.extrusionHeight # 0.9 if from the typical fill density
if self.extrusionDiameter is not None:
crossSectionArea = math.pi / 4.0 * self.extrusionDiameter * self.extrusionDiameter
volumeExtruded = 0.001 * crossSectionArea * self.totalDistanceExtruded
mass = volumeExtruded / repository.density.value
machineTimeCost = repository.machineTime.value * self.totalBuildTime / 3600.0
materialCost = repository.material.value * mass
self.addLine(' ')
self.addLine('Cost')
self.addLine( "Machine time cost is %s$." % round( machineTimeCost, 2 ) )
self.addLine( "Material cost is %s$." % round( materialCost, 2 ) )
self.addLine( "Total cost is %s$." % round( machineTimeCost + materialCost, 2 ) )
self.addLine(' ')
self.addLine('Extent')
self.addLine( "X%s%s mm and ends at %s mm, for a width of %s mm." % ( axisString, int( roundedLow.x ), int( roundedHigh.x ), int( extent.x ) ) )
self.addLine( "Y%s%s mm and ends at %s mm, for a depth of %s mm." % ( axisString, int( roundedLow.y ), int( roundedHigh.y ), int( extent.y ) ) )
self.addLine( "Z%s%s mm and ends at %s mm, for a height of %s mm." % ( axisString, int( roundedLow.z ), int( roundedHigh.z ), int( extent.z ) ) )
self.addLine(' ')
self.addLine('Extruder')
self.addLine( "Build time is %s." % euclidean.getDurationString( self.totalBuildTime ) )
self.addLine( "Distance extruded is %s mm." % euclidean.getThreeSignificantFigures( self.totalDistanceExtruded ) )
self.addLine( "Distance traveled is %s mm." % euclidean.getThreeSignificantFigures( self.totalDistanceTraveled ) )
if self.extruderSpeed is not None:
self.addLine( "Extruder speed is %s" % euclidean.getThreeSignificantFigures( self.extruderSpeed ) )
self.addLine( "Extruder was extruding %s percent of the time." % euclidean.getThreeSignificantFigures( 100.0 * self.totalDistanceExtruded / self.totalDistanceTraveled ) )
self.addLine( "Extruder was toggled %s times." % self.extruderToggled )
if self.operatingFeedRatePerSecond is not None:
flowRate = crossSectionArea * self.operatingFeedRatePerSecond
self.addLine( "Operating flow rate is %s mm3/s." % euclidean.getThreeSignificantFigures( flowRate ) )
self.addLine( "Feed rate average is %s mm/s, (%s mm/min)." % ( euclidean.getThreeSignificantFigures( averageFeedRate ), euclidean.getThreeSignificantFigures( 60.0 * averageFeedRate ) ) )
self.addLine(' ')
self.addLine('Filament')
self.addLine( "Cross section area is %s mm2." % euclidean.getThreeSignificantFigures( crossSectionArea ) )
if self.extrusionDiameter is not None:
self.addLine( "Extrusion diameter is %s mm." % euclidean.getThreeSignificantFigures( self.extrusionDiameter ) )
self.addLine('Extrusion fill density ratio is %s' % euclidean.getThreeSignificantFigures( crossSectionArea / self.absolutePerimeterWidth / self.extrusionHeight ) )
self.addLine(' ')
self.addLine('Material')
self.addLine( "Mass extruded is %s grams." % euclidean.getThreeSignificantFigures( 1000.0 * mass ) )
self.addLine( "Volume extruded is %s cc." % euclidean.getThreeSignificantFigures( volumeExtruded ) )
self.addLine(' ')
self.addLine('Meta')
self.addLine( "Text has %s lines and a size of %s KB." % ( self.numberOfLines, kilobytes ) )
if self.version is not None:
self.addLine( "Version is " + self.version )
self.addLine(' ')
self.addLine( "Procedures" )
for procedure in self.procedures:
self.addLine(procedure)
if self.profileName is not None:
self.addLine(' ')
self.addLine( 'Profile' )
self.addLine(self.profileName)
self.addLine(' ')
self.addLine('Slice')
self.addLine( "Layer thickness is %s mm." % euclidean.getThreeSignificantFigures( self.extrusionHeight ) )
self.addLine( "Perimeter width is %s mm." % euclidean.getThreeSignificantFigures( self.absolutePerimeterWidth ) )
self.addLine(' ')
return self.output.getvalue()
def getCraftedGcode(self, gcodeText, repository):
"Parse gcode text and store the statistics."
self.absolutePerimeterWidth = 0.4
self.characters = 0
self.cornerMaximum = Vector3(-987654321.0, -987654321.0, -987654321.0)
self.cornerMinimum = Vector3(987654321.0, 987654321.0, 987654321.0)
self.extruderActive = False
self.extruderSpeed = None
self.extruderToggled = 0
self.feedRateMinute = 600.0
self.layerThickness = 0.4
self.numberOfLines = 0
self.procedures = []
self.repository = repository
self.totalBuildTime = 0.0
self.totalDistanceExtruded = 0.0
self.totalDistanceTraveled = 0.0
self.numberOfLines = 1
lines = archive.getTextLines(gcodeText)
for line in lines:
self.parseLine(line)
averageFeedRate = self.totalDistanceTraveled / self.totalBuildTime
self.characters += self.numberOfLines
kilobytes = round( self.characters / 1024.0 )
halfPerimeterWidth = 0.5 * self.absolutePerimeterWidth
halfExtrusionCorner = Vector3( halfPerimeterWidth, halfPerimeterWidth, halfPerimeterWidth )
self.cornerMaximum += halfExtrusionCorner
self.cornerMinimum -= halfExtrusionCorner
extent = self.cornerMaximum - self.cornerMinimum
roundedHigh = euclidean.getRoundedPoint( self.cornerMaximum )
roundedLow = euclidean.getRoundedPoint( self.cornerMinimum )
roundedExtent = euclidean.getRoundedPoint( extent )
axisString = " axis extrusion starts at "
crossSectionArea = 0.9 * self.absolutePerimeterWidth * self.layerThickness # 0.9 if from the typical fill density
FilamentRadius = repository.FilamentDiameter.value /2
filamentCrossSectionArea = (FilamentRadius * FilamentRadius)*math.pi
extrusionXSection =(((self.layerThickness+self.perimeterWidth)/4)**2)*math.pi
volumeExtruded = extrusionXSection * self.totalDistanceExtruded / 1000
mass = (volumeExtruded /1000)* repository.density.value
self.delay = (repository.realPrintTime.value - repository.calculatedPrintTime.value ) / repository.totalCommandsEntered.value
buildQuadraticVolume = int( extent.x )*int( extent.y )*int( extent.z )
self.estimatedBuildTime = (self.totalDistanceTraveled / self.totalCommandcount / averageFeedRate +((averageFeedRate*0.75/ repository.accelerationRate.value) /2))*self.totalCommandcount/60 # self.delay * self.totalCommandcount + self.totalBuildTime
machineTimeCost = repository.machineTime.value * self.estimatedBuildTime / 3600.0
self.filamentInOutRatio = filamentCrossSectionArea / ((((self.layerThickness+self.perimeterWidth)/4)*((self.layerThickness+self.perimeterWidth)/4)*math.pi))
self.totalDistanceFilament = self.totalDistanceExtruded
averageFeedRate = self.totalDistanceTraveled / self.totalBuildTime
averageFeedRateEst = self.totalDistanceTraveled / self.estimatedBuildTime
materialCost = repository.material.value * mass /1000
self.addLine(' ')
self.addLine( "Procedures used (in sequence.." )
for procedure in self.procedures:
self.addLine(procedure)
self.addLine(' ')
self.addLine('Extent')
self.addLine( "X%s%s mm and ends at %s mm, for a width of %s mm." % ( axisString, int( roundedLow.x ), int( roundedHigh.x ), int( extent.x ) ) )
self.addLine( "Y%s%s mm and ends at %s mm, for a depth of %s mm." % ( axisString, int( roundedLow.y ), int( roundedHigh.y ), int( extent.y ) ) )
self.addLine( "Z%s%s mm and ends at %s mm, for a height of %s mm." % ( axisString, int( roundedLow.z ), int( roundedHigh.z ), int( extent.z ) ) )
self.addLine(' ')
self.addLine('Statistics')
self.addLine( "Distance traveled is %s m." % euclidean.getThreeSignificantFigures( self.totalDistanceTraveled/1000 ) )
self.addLine( "Distance extruded is %s m." % euclidean.getThreeSignificantFigures( self.totalDistanceExtruded/1000 ) )
if self.extruderSpeed != None:
self.addLine( "Extruder speed is %s" % euclidean.getThreeSignificantFigures( self.extruderSpeed ) )
self.addLine( "Extruder was extruding %s percent of the time." % euclidean.getThreeSignificantFigures( 100.0 * self.totalDistanceExtruded / self.totalDistanceTraveled ) )
self.addLine( "Extruder was toggled %s times." % self.extruderToggled )
self.addLine( "Feed rate average is %s mm/s, (%s mm/min)." % ( euclidean.getThreeSignificantFigures(averageFeedRateEst ), euclidean.getThreeSignificantFigures( 60.0 * averageFeedRateEst ) ) )
self.addLine( "A Total of %s commands will be executed." % self.totalCommandcount)
self.addLine(' ')
self.addLine('Time')
self.addLine( "Calculated Build time is %s." % euclidean.getDurationString(self.totalBuildTime))
self.addLine( "Corrected Build time is %s." % euclidean.getDurationString( self.estimatedBuildTime))
self.addLine( "Delay is %s seconds per command ." % self.delay )
self.addLine(' ')
self.addLine('Consumption')
self.addLine( "Extrusion Cross section area is %s mm2." % euclidean.getThreeSignificantFigures( extrusionXSection))
self.addLine( "Mass extruded is %s grams." % euclidean.getThreeSignificantFigures( mass ) )
self.addLine( "Volume extruded is %s cc." % euclidean.getThreeSignificantFigures( volumeExtruded) )
self.addLine( "Filament used is %s m." % euclidean.getThreeSignificantFigures( self.totalDistanceFilament /100000 ))
self.addLine(' ')
self.addLine('Cost')
self.addLine( "Machine time cost is %s$." % round( machineTimeCost, 2 ) )
self.addLine( "Material cost is %s$." % round( materialCost, 2 ) )
self.addLine( "Total cost is %s$." % round( machineTimeCost + materialCost, 2 ) )
self.addLine(' ')
if self.profileName != None:
self.addLine(' ')
self.addLine( 'Profile' )
self.addLine(self.profileName)
self.addLine(' ')
self.addLine('Info')
self.addLine( "Layer thickness is %s mm." % euclidean.getThreeSignificantFigures( self.layerThickness ) )
self.addLine( "Perimeter width is %s mm." % euclidean.getThreeSignificantFigures( self.absolutePerimeterWidth ) )
self.addLine( "Filament Cross section area is %s mm2." % euclidean.getThreeSignificantFigures( filamentCrossSectionArea ) )
self.addLine('Filament In / Out ratio is %s' % euclidean.getThreeSignificantFigures (self.filamentInOutRatio))
self.addLine( "Text has %s lines and a size of %s KB." % ( self.numberOfLines, kilobytes ) )
self.addLine('')
if self.profileName is not None:
self.addLine(' ')
self.addLine( "Profile used to Skein: " )
self.addLine(self.profileName)
self.addLine( ' ' )
if self.version is not None:
self.addLine( "You are using SFACT Version " + self.version )
self.addLine(' ')
return self.output.getvalue()
def writeOutput(fileName, shouldAnalyze=True):
'Export a gcode linear move file.'
if fileName == '':
return None
repository = ExportRepository()
settings.getReadRepository(repository)
startTime = time.time()
print('File ' + archive.getSummarizedFileName(fileName) +
' is being chain exported.')
fileNameSuffix = fileName[:fileName.rfind('.')]
if repository.addExportSuffix.value:
fileNameSuffix += '_export'
gcodeText = gcodec.getGcodeFileText(fileName, '')
procedures = skeinforge_craft.getProcedures('export', gcodeText)
gcodeText = skeinforge_craft.getChainTextFromProcedures(
fileName, procedures[:-1], gcodeText)
if gcodeText == '':
return None
if repository.addProfileExtension.value:
fileNameSuffix += '.' + getFirstValue(gcodeText, '(<profileName>')
if repository.addDescriptiveExtension.value:
fileNameSuffix += getDescriptiveExtension(gcodeText)
if repository.addTimestampExtension.value:
fileNameSuffix += '.' + getFirstValue(gcodeText, '(<timeStampPreface>')
fileNameSuffix += '.' + repository.fileExtension.value
fileNamePenultimate = fileName[:fileName.rfind('.')] + '_penultimate.gcode'
filePenultimateWritten = False
if repository.savePenultimateGcode.value:
archive.writeFileText(fileNamePenultimate, gcodeText)
filePenultimateWritten = True
print('The penultimate file is saved as ' +
archive.getSummarizedFileName(fileNamePenultimate))
exportGcode = getCraftedTextFromText(gcodeText, repository)
window = None
if shouldAnalyze and repository.analyzeGcode.value:
window = skeinforge_analyze.writeOutput(fileName, fileNamePenultimate,
fileNameSuffix,
filePenultimateWritten,
gcodeText)
replaceableExportGcode = None
selectedPluginModule = getSelectedPluginModule(repository.exportPlugins)
if selectedPluginModule == None:
replaceableExportGcode = exportGcode
else:
if selectedPluginModule.globalIsReplaceable:
replaceableExportGcode = selectedPluginModule.getOutput(
exportGcode)
else:
selectedPluginModule.writeOutput(fileNameSuffix, exportGcode)
if replaceableExportGcode != None:
replaceableExportGcode = getReplaceableExportGcode(
repository.nameOfReplaceFile.value, replaceableExportGcode)
archive.writeFileText(fileNameSuffix, replaceableExportGcode)
print('The exported file is saved as ' +
archive.getSummarizedFileName(fileNameSuffix))
if repository.alsoSendOutputTo.value != '':
if replaceableExportGcode == None:
replaceableExportGcode = selectedPluginModule.getOutput(
exportGcode)
sendOutputTo(repository.alsoSendOutputTo.value, replaceableExportGcode)
print('It took %s to export the file.' %
euclidean.getDurationString(time.time() - startTime))
return window
def writeOutput(fileName, shouldAnalyze=True):
"""Export a gcode linear move file."""
if fileName == '':
return None
repository = ExportRepository()
settings.getReadRepository(repository)
startTime = time.time()
print('File ' + archive.getSummarizedFileName(fileName) + ' is being chain exported.')
fileNameSuffix = fileName[: fileName.rfind('.')]
if repository.addExportSuffix.value:
fileNameSuffix += '_export'
if repository.profileFileExtension.value:
profileName = skeinforge_profile.getProfileName(skeinforge_profile.getCraftTypeName())
if profileName:
fileNameSuffix += '.' + string.replace(profileName, ' ', '_')
if repository.descriptiveExtension.value:
fileNameSuffix += descriptiveExtension()
if repository.timestampExtension.value:
fileNameSuffix += '.'+strftime("%Y%m%d_%H%M%S")
if repository.archiveProfile.value:
profileName = skeinforge_profile.getProfileName(skeinforge_profile.getCraftTypeName())
if profileName:
profileZipFileName = fileNameSuffix + '.zip'
zipper(archive.getProfilesPath(skeinforge_profile.getProfileDirectory()), profileName+'/', profileZipFileName)
print('Profile archived to ' + profileZipFileName)
if repository.exportProfileAsCsv.value:
csvExportFilename = fileNameSuffix + '.csv'
archive.writeFileText(csvExportFilename, Condenser().readSettings())
fileNameSuffix += '.' + repository.fileExtension.value
gcodeText = gcodec.getGcodeFileText(fileName, '')
procedures = skeinforge_craft.getProcedures('export', gcodeText)
gcodeText = skeinforge_craft.getChainTextFromProcedures(fileName, procedures[ : - 1 ], gcodeText)
if gcodeText == '':
return None
fileNamePenultimate = fileName[: fileName.rfind('.')] + '_penultimate.gcode'
filePenultimateWritten = False
if repository.savePenultimateGcode.value:
archive.writeFileText(fileNamePenultimate, gcodeText)
filePenultimateWritten = True
print('The penultimate file is saved as ' + archive.getSummarizedFileName(fileNamePenultimate))
exportGcode = getCraftedTextFromText(gcodeText, repository)
window = None
if shouldAnalyze:
window = skeinforge_analyze.writeOutput(fileName, fileNamePenultimate, fileNameSuffix,
filePenultimateWritten, gcodeText)
replaceableExportGcode = None
selectedPluginModule = getSelectedPluginModule(repository.exportPlugins)
if selectedPluginModule is None:
replaceableExportGcode = exportGcode
else:
if selectedPluginModule.globalIsReplaceable:
replaceableExportGcode = selectedPluginModule.getOutput(exportGcode)
else:
selectedPluginModule.writeOutput(fileNameSuffix, exportGcode)
if replaceableExportGcode is not None:
replaceableExportGcode = getReplaceableExportGcode(repository.nameOfReplaceFile.value, replaceableExportGcode)
archive.writeFileText( fileNameSuffix, replaceableExportGcode )
print('The exported file is saved as ' + archive.getSummarizedFileName(fileNameSuffix))
if repository.alsoSendOutputTo.value != '':
if replaceableExportGcode is None:
replaceableExportGcode = selectedPluginModule.getOutput(exportGcode)
sendOutputTo(replaceableExportGcode, repository.alsoSendOutputTo.value)
print('It took %s to export the file.' % euclidean.getDurationString(time.time() - startTime))
return window
def writeOutput(fileName, shouldAnalyze=True):
'Export a gcode linear move file.'
if fileName == '':
return None
repository = ExportRepository()
settings.getReadRepository(repository)
startTime = time.time()
print('File ' + archive.getSummarizedFileName(fileName) +
' is being chain exported.')
fileNameSuffix = fileName[:fileName.rfind('.')]
if repository.addExportSuffix.value:
fileNameSuffix += '_export'
if (repository.profileFileExtension.value == True):
profileName = skeinforge_profile.getProfileName(
skeinforge_profile.getCraftTypeName())
if profileName:
fileNameSuffix += '.' + string.replace(profileName, ' ', '_')
if (repository.descriptiveExtension.value == True):
fileNameSuffix += descriptiveExtension()
if (repository.timestampExtension.value == True):
fileNameSuffix += '.' + strftime("%Y%m%d_%H%M%S")
if (repository.archiveProfile.value == True):
profileName = skeinforge_profile.getProfileName(
skeinforge_profile.getCraftTypeName())
if profileName:
profileZipFileName = fileNameSuffix + '.zip'
zipper(
archive.getProfilesPath(
skeinforge_profile.getProfileDirectory()),
profileName + '/', profileZipFileName)
print('Profile archived to ' + profileZipFileName)
if (repository.exportProfileAsCsv.value == True):
csvExportFilename = fileNameSuffix + '.csv'
archive.writeFileText(csvExportFilename, Condenser().readSettings())
fileNameSuffix += '.' + repository.fileExtension.value
gcodeText = gcodec.getGcodeFileText(fileName, '')
procedures = skeinforge_craft.getProcedures('export', gcodeText)
gcodeText = skeinforge_craft.getChainTextFromProcedures(
fileName, procedures[:-1], gcodeText)
if gcodeText == '':
return None
if repository.savePenultimateGcode.value:
penultimateFileName = fileName[:fileName.
rfind('.')] + '_penultimate.gcode'
archive.writeFileText(penultimateFileName, gcodeText)
print('The penultimate file is saved as ' +
archive.getSummarizedFileName(penultimateFileName))
exportGcode = getCraftedTextFromText(gcodeText, repository)
window = None
if shouldAnalyze:
window = skeinforge_analyze.writeOutput(fileName, fileNameSuffix,
gcodeText)
replaceableExportGcode = None
selectedPluginModule = getSelectedPluginModule(repository.exportPlugins)
if selectedPluginModule == None:
replaceableExportGcode = exportGcode
else:
if selectedPluginModule.globalIsReplaceable:
replaceableExportGcode = selectedPluginModule.getOutput(
exportGcode)
else:
selectedPluginModule.writeOutput(fileNameSuffix, exportGcode)
if replaceableExportGcode != None:
replaceableExportGcode = getReplaceableExportGcode(
repository.nameOfReplaceFile.value, replaceableExportGcode)
archive.writeFileText(fileNameSuffix, replaceableExportGcode)
print('The exported file is saved as ' +
archive.getSummarizedFileName(fileNameSuffix))
if repository.alsoSendOutputTo.value != '':
if replaceableExportGcode == None:
replaceableExportGcode = selectedPluginModule.getOutput(
exportGcode)
sendOutputTo(replaceableExportGcode, repository.alsoSendOutputTo.value)
print('It took %s to export the file.' %
euclidean.getDurationString(time.time() - startTime))
return window
def getCraftedGcode(self, gcodeText, repository):
"Parse gcode text and store the statistics."
self.absoluteEdgeWidth = 0.4
self.characters = 0
self.cornerMaximum = Vector3(-987654321.0, -987654321.0, -987654321.0)
self.cornerMinimum = Vector3(987654321.0, 987654321.0, 987654321.0)
self.extruderActive = False
self.extruderSpeed = None
self.extruderToggled = 0
self.feedRateMinute = 600.0
self.layerHeight = 0.4
self.numberOfLines = 0
self.procedures = []
self.repository = repository
self.totalBuildTime = 0.0
self.totalDistanceExtruded = 0.0
self.totalDistanceTraveled = 0.0
lines = archive.getTextLines(gcodeText)
for line in lines:
self.parseLine(line)
averageFeedRate = self.totalDistanceTraveled / self.totalBuildTime
self.characters += self.numberOfLines
kilobytes = round(self.characters / 1024.0)
halfEdgeWidth = 0.5 * self.absoluteEdgeWidth
halfExtrusionCorner = Vector3(halfEdgeWidth, halfEdgeWidth,
halfEdgeWidth)
self.cornerMaximum += halfExtrusionCorner
self.cornerMinimum -= halfExtrusionCorner
extent = self.cornerMaximum - self.cornerMinimum
roundedHigh = euclidean.getRoundedPoint(self.cornerMaximum)
roundedLow = euclidean.getRoundedPoint(self.cornerMinimum)
roundedExtent = euclidean.getRoundedPoint(extent)
axisString = " axis extrusion starts at "
crossSectionArea = self.absoluteEdgeWidth * self.layerHeight
if self.volumeFraction != None:
crossSectionArea *= self.volumeFraction
self.extrusionDiameter = math.sqrt(4.0 * crossSectionArea / math.pi)
volumeExtruded = 0.001 * crossSectionArea * self.totalDistanceExtruded
mass = volumeExtruded / repository.density.value
machineTimeCost = repository.machineTime.value * self.totalBuildTime / 3600.0
materialCost = repository.material.value * mass
self.addLine(' ')
self.addLine('Cost')
self.addLine("Machine time cost is %s$." % round(machineTimeCost, 2))
self.addLine("Material cost is %s$." % round(materialCost, 2))
self.addLine("Total cost is %s$." %
round(machineTimeCost + materialCost, 2))
self.addLine(' ')
self.addLine('Extent')
self.addLine(
"X%s%s mm and ends at %s mm, for a width of %s mm." %
(axisString, int(roundedLow.x), int(roundedHigh.x), int(extent.x)))
self.addLine(
"Y%s%s mm and ends at %s mm, for a depth of %s mm." %
(axisString, int(roundedLow.y), int(roundedHigh.y), int(extent.y)))
self.addLine(
"Z%s%s mm and ends at %s mm, for a height of %s mm." %
(axisString, int(roundedLow.z), int(roundedHigh.z), int(extent.z)))
self.addLine(' ')
self.addLine('Extruder')
self.addLine("Build time is %s." %
euclidean.getDurationString(self.totalBuildTime))
self.addLine(
"Distance extruded is %s mm." %
euclidean.getThreeSignificantFigures(self.totalDistanceExtruded))
self.addLine(
"Distance traveled is %s mm." %
euclidean.getThreeSignificantFigures(self.totalDistanceTraveled))
if self.extruderSpeed != None:
self.addLine(
"Extruder speed is %s" %
euclidean.getThreeSignificantFigures(self.extruderSpeed))
self.addLine("Extruder was extruding %s percent of the time." %
euclidean.getThreeSignificantFigures(
100.0 * self.totalDistanceExtruded /
self.totalDistanceTraveled))
self.addLine("Extruder was toggled %s times." % self.extruderToggled)
if self.operatingFeedRatePerSecond != None:
flowRate = crossSectionArea * self.operatingFeedRatePerSecond
self.addLine("Operating flow rate is %s mm3/s." %
euclidean.getThreeSignificantFigures(flowRate))
self.addLine(
"Feed rate average is %s mm/s, (%s mm/min)." %
(euclidean.getThreeSignificantFigures(averageFeedRate),
euclidean.getThreeSignificantFigures(60.0 * averageFeedRate)))
self.addLine(' ')
self.addLine('Filament')
self.addLine("Cross section area is %s mm2." %
euclidean.getThreeSignificantFigures(crossSectionArea))
self.addLine(
'Extrusion diameter is %s mm.' %
euclidean.getThreeSignificantFigures(self.extrusionDiameter))
if self.volumeFraction != None:
self.addLine(
'Volume fraction is %s.' %
euclidean.getThreeSignificantFigures(self.volumeFraction))
self.addLine(' ')
self.addLine('Material')
self.addLine("Mass extruded is %s grams." %
euclidean.getThreeSignificantFigures(1000.0 * mass))
self.addLine("Volume extruded is %s cc." %
euclidean.getThreeSignificantFigures(volumeExtruded))
self.addLine(' ')
self.addLine('Meta')
self.addLine("Text has %s lines and a size of %s KB." %
(self.numberOfLines, kilobytes))
if self.version != None:
self.addLine("Version is " + self.version)
self.addLine(' ')
self.addLine("Procedures")
for procedure in self.procedures:
self.addLine(procedure)
if self.profileName != None:
self.addLine(' ')
self.addLine('Profile')
self.addLine(self.profileName)
self.addLine(' ')
self.addLine('Slice')
self.addLine(
"Edge width is %s mm." %
euclidean.getThreeSignificantFigures(self.absoluteEdgeWidth))
self.addLine("Layer height is %s mm." %
euclidean.getThreeSignificantFigures(self.layerHeight))
self.addLine(' ')
return self.output.getvalue()
def getCraftedGcode(self, gcodeText, repository):
"Parse gcode text and store the statistics."
self.absolutePerimeterWidth = 0.4
self.characters = 0
self.cornerMaximum = Vector3(-987654321.0, -987654321.0, -987654321.0)
self.cornerMinimum = Vector3(987654321.0, 987654321.0, 987654321.0)
self.extruderActive = False
self.extruderSpeed = None
self.extruderToggled = 0
self.feedRateMinute = 600.0
self.layerThickness = 0.4
self.numberOfLines = 0
self.procedures = []
self.repository = repository
self.totalBuildTime = 0.0
self.totalDistanceExtruded = 0.0
self.totalDistanceTraveled = 0.0
self.numberOfLines = 1
lines = archive.getTextLines(gcodeText)
for line in lines:
self.parseLine(line)
averageFeedRate = self.totalDistanceTraveled / self.totalBuildTime
self.characters += self.numberOfLines
kilobytes = round(self.characters / 1024.0)
halfPerimeterWidth = 0.5 * self.absolutePerimeterWidth
halfExtrusionCorner = Vector3(halfPerimeterWidth, halfPerimeterWidth,
halfPerimeterWidth)
self.cornerMaximum += halfExtrusionCorner
self.cornerMinimum -= halfExtrusionCorner
extent = self.cornerMaximum - self.cornerMinimum
roundedHigh = euclidean.getRoundedPoint(self.cornerMaximum)
roundedLow = euclidean.getRoundedPoint(self.cornerMinimum)
roundedExtent = euclidean.getRoundedPoint(extent)
axisString = " axis extrusion starts at "
crossSectionArea = 0.9 * self.absolutePerimeterWidth * self.layerThickness # 0.9 if from the typical fill density
FilamentRadius = repository.FilamentDiameter.value / 2
filamentCrossSectionArea = (FilamentRadius * FilamentRadius) * math.pi
extrusionXSection = ((
(self.layerThickness + self.perimeterWidth) / 4)**2) * math.pi
volumeExtruded = extrusionXSection * self.totalDistanceExtruded / 1000
mass = (volumeExtruded / 1000) * repository.density.value
self.delay = (repository.realPrintTime.value -
repository.calculatedPrintTime.value
) / repository.totalCommandsEntered.value
buildQuadraticVolume = int(extent.x) * int(extent.y) * int(extent.z)
self.estimatedBuildTime = (
self.totalDistanceTraveled / self.totalCommandcount /
averageFeedRate +
((averageFeedRate * 0.75 / repository.accelerationRate.value) / 2)
) * self.totalCommandcount / 60 # self.delay * self.totalCommandcount + self.totalBuildTime
machineTimeCost = repository.machineTime.value * self.estimatedBuildTime / 3600.0
self.filamentInOutRatio = filamentCrossSectionArea / (
(((self.layerThickness + self.perimeterWidth) / 4) *
((self.layerThickness + self.perimeterWidth) / 4) * math.pi))
self.totalDistanceFilament = self.totalDistanceExtruded
averageFeedRate = self.totalDistanceTraveled / self.totalBuildTime
averageFeedRateEst = self.totalDistanceTraveled / self.estimatedBuildTime
materialCost = repository.material.value * mass / 1000
self.addLine(' ')
self.addLine("Procedures used (in sequence..")
for procedure in self.procedures:
self.addLine(procedure)
self.addLine(' ')
self.addLine('Extent')
self.addLine(
"X%s%s mm and ends at %s mm, for a width of %s mm." %
(axisString, int(roundedLow.x), int(roundedHigh.x), int(extent.x)))
self.addLine(
"Y%s%s mm and ends at %s mm, for a depth of %s mm." %
(axisString, int(roundedLow.y), int(roundedHigh.y), int(extent.y)))
self.addLine(
"Z%s%s mm and ends at %s mm, for a height of %s mm." %
(axisString, int(roundedLow.z), int(roundedHigh.z), int(extent.z)))
self.addLine(' ')
self.addLine('Statistics')
self.addLine("Distance traveled is %s m." %
euclidean.getThreeSignificantFigures(
self.totalDistanceTraveled / 1000))
self.addLine("Distance extruded is %s m." %
euclidean.getThreeSignificantFigures(
self.totalDistanceExtruded / 1000))
if self.extruderSpeed != None:
self.addLine(
"Extruder speed is %s" %
euclidean.getThreeSignificantFigures(self.extruderSpeed))
self.addLine("Extruder was extruding %s percent of the time." %
euclidean.getThreeSignificantFigures(
100.0 * self.totalDistanceExtruded /
self.totalDistanceTraveled))
self.addLine("Extruder was toggled %s times." % self.extruderToggled)
self.addLine(
"Feed rate average is %s mm/s, (%s mm/min)." %
(euclidean.getThreeSignificantFigures(averageFeedRateEst),
euclidean.getThreeSignificantFigures(60.0 * averageFeedRateEst)))
self.addLine("A Total of %s commands will be executed." %
self.totalCommandcount)
self.addLine(' ')
self.addLine('Time')
self.addLine("Calculated Build time is %s." %
euclidean.getDurationString(self.totalBuildTime))
self.addLine("Corrected Build time is %s." %
euclidean.getDurationString(self.estimatedBuildTime))
self.addLine("Delay is %s seconds per command ." % self.delay)
self.addLine(' ')
self.addLine('Consumption')
self.addLine("Extrusion Cross section area is %s mm2." %
euclidean.getThreeSignificantFigures(extrusionXSection))
self.addLine("Mass extruded is %s grams." %
euclidean.getThreeSignificantFigures(mass))
self.addLine("Volume extruded is %s cc." %
euclidean.getThreeSignificantFigures(volumeExtruded))
self.addLine("Filament used is %s m." %
euclidean.getThreeSignificantFigures(
self.totalDistanceFilament / 100000))
self.addLine(' ')
self.addLine('Cost')
self.addLine("Machine time cost is %s$." % round(machineTimeCost, 2))
self.addLine("Material cost is %s$." % round(materialCost, 2))
self.addLine("Total cost is %s$." %
round(machineTimeCost + materialCost, 2))
self.addLine(' ')
if self.profileName != None:
self.addLine(' ')
self.addLine('Profile')
self.addLine(self.profileName)
self.addLine(' ')
self.addLine('Info')
self.addLine("Layer thickness is %s mm." %
euclidean.getThreeSignificantFigures(self.layerThickness))
self.addLine(
"Perimeter width is %s mm." %
euclidean.getThreeSignificantFigures(self.absolutePerimeterWidth))
self.addLine(
"Filament Cross section area is %s mm2." %
euclidean.getThreeSignificantFigures(filamentCrossSectionArea))
self.addLine(
'Filament In / Out ratio is %s' %
euclidean.getThreeSignificantFigures(self.filamentInOutRatio))
self.addLine("Text has %s lines and a size of %s KB." %
(self.numberOfLines, kilobytes))
self.addLine('')
if self.profileName is not None:
self.addLine(' ')
self.addLine("Profile used to Skein: ")
self.addLine(self.profileName)
self.addLine(' ')
if self.version is not None:
self.addLine("You are using SFACT Version " + self.version)
self.addLine(' ')
return self.output.getvalue()
