def parseDefineValue(self, ln): m = reDefQS.search(ln) if m: t = m.groups() if len(t) == 2: m = reDefQSm.search(ln) if m: t = m.groups() tt = re.findall(reDefQSm2, t[1]) if len(tt) == 1 and (t[0] in self.cfgNames): self.cfgValues[t[0]] = tt[0], True return True elif len(tt) > 1 and (t[0] in self.cfgNames): self.cfgValues[t[0]] = tt, True return True m = reDefine.search(ln) if m: t = m.groups() if len(t) == 2 and (t[0] in self.cfgNames): if reDefineBL.search(ln): self.cfgValues[t[0]] = t[1], True else: self.cfgValues[t[0]] = t[1], False return True m = reDefBoolBL.search(ln) if m: t = m.groups() if len(t) == 1 and (t[0] in self.cfgNames): self.cfgValues[t[0]] = True return True return False
def parseDefineValue(self, ln): m = reDefQS.search(ln) if m: t = m.groups() if len(t) == 2: m = reDefQSm.search(ln) if m: t = m.groups() tt = re.findall(reDefQSm2, t[1]) if len(tt) == 1 and (t[0] in self.cfgNames): self.cfgValues[t[0]] = tt[0], True return True elif len(tt) > 1 and (t[0] in self.cfgNames): self.cfgValues[t[0]] = tt, True return True m = reDefine.search(ln) if m: t = m.groups() if len(t) == 2 and (t[0] in self.cfgNames): if reDefineBL.search(ln): self.cfgValues[t[0]] = t[1], True else: self.cfgValues[t[0]] = t[1], False return True m = reDefBool.search(ln) if m: t = m.groups() # Accept booleans, but not those for which a value exists already. # Booleans already existing as values are most likely misconfigured # manual edits (or result of a bug). if ( len(t) == 1 and t[0] in self.cfgNames and not ( t[0] in self.cfgValues and isinstance(self.cfgValues[t[0]], tuple) ) ): if reDefBoolBL.search(ln): self.cfgValues[t[0]] = True else: self.cfgValues[t[0]] = False return True return False
def parseDefineValue(self, ln): m = reDefQS.search(ln) if m: t = m.groups() if len(t) == 2: m = reDefQSm.search(ln) if m: t = m.groups() tt = re.findall(reDefQSm2, t[1]) if len(tt) == 1 and (t[0] in self.cfgNames): self.cfgValues[t[0]] = tt[0], True return True elif len(tt) > 1 and (t[0] in self.cfgNames): self.cfgValues[t[0]] = tt, True return True m = reDefine.search(ln) if m: t = m.groups() if len(t) == 2 and (t[0] in self.cfgNames): if reDefineBL.search(ln): self.cfgValues[t[0]] = t[1], True else: self.cfgValues[t[0]] = t[1], False return True m = reDefBool.search(ln) if m: t = m.groups() # Accept booleans, but not those for which a value exists already. # Booleans already existing as values are most likely misconfigured # manual edits (or result of a bug). if ( len(t) == 1 and t[0] in self.cfgNames and not (t[0] in self.cfgValues and isinstance(self.cfgValues[t[0]], tuple)) ): if reDefBoolBL.search(ln): self.cfgValues[t[0]] = True else: self.cfgValues[t[0]] = False return True return False
def loadConfigFile(self, fn): try: self.cfgBuffer = list(open(fn)) except: return False self.configFile = fn self.processors = [] gatheringHelpText = False helpTextString = "" helpKey = None self.cfgValues = {} self.helpText = {} prevLines = "" for ln in self.cfgBuffer: if gatheringHelpText: if reHelpTextEnd.match(ln): gatheringHelpText = False helpTextString = helpTextString.strip() # Keep paragraphs with double-newline. helpTextString = helpTextString.replace("\n\n ", "\n\n") # Keep indented lines, typically a list. helpTextString = helpTextString.replace( "\n\n ", "\n\n ") helpTextString = helpTextString.replace( "\n ", "\n\n ") # Remove all other newlines and indents. helpTextString = helpTextString.replace("\n ", " ") hk = helpKey.split() for k in hk: self.helpText[k] = helpTextString helpTextString = "" helpKey = None continue else: helpTextString += ln continue m = reHelpTextStart.match(ln) if m: t = m.groups() gatheringHelpText = True helpKey = t[0] continue if ln.rstrip().endswith("\\"): prevLines += ln.rstrip()[:-1] continue if prevLines != "": ln = prevLines + ln prevLines = "" if ln.lstrip().startswith("//"): continue if ln.lstrip().startswith("#define"): m = reDefQS.search(ln) if m: t = m.groups() if len(t) == 2: m = reDefQSm.search(ln) if m: t = m.groups() tt = re.findall(reDefQSm2, t[1]) if len(tt) == 1: self.cfgValues[t[0]] = tt[0] continue elif len(tt) > 1: self.cfgValues[t[0]] = tt continue m = reDefine.search(ln) if m: t = m.groups() if len(t) == 2: self.cfgValues[t[0]] = t[1] continue m = reDefBool.search(ln) if m: t = m.groups() if len(t) == 1: self.cfgValues[t[0]] = True if os.path.basename(fn) in protectedFiles: self.parent.enableSavePrinter(False, True) self.protFileLoaded = True else: self.protFileLoaded = False self.parent.enableSavePrinter(True, True) self.parent.setPrinterTabFile(os.path.basename(fn)) for pg in self.pages: pg.insertValues(self.cfgValues) pg.setHelpText(self.helpText) k = 'DC_EXTRUDER' if k in self.cfgValues.keys(): self.pgMiscellaneous.setOriginalHeater(self.cfgValues[k]) else: self.pgMiscellaneous.setOriginalHeater(None) return True
def loadConfigFile(self, fn): try: self.cfgBuffer = list(open(fn)) except: return False self.configFile = fn self.processors = [] gatheringHelpText = False helpTextString = "" helpKey = None self.cfgValues = {} self.helpText = {} prevLines = "" for ln in self.cfgBuffer: if gatheringHelpText: if reHelpTextEnd.match(ln): gatheringHelpText = False helpTextString = helpTextString.strip() # Keep paragraphs with double-newline. helpTextString = helpTextString.replace("\n\n ", "\n\n") # Keep indented lines, typically a list. helpTextString = helpTextString.replace("\n\n ", "\n\n ") helpTextString = helpTextString.replace("\n ", "\n\n ") # Remove all other newlines and indents. helpTextString = helpTextString.replace("\n ", " ") hk = helpKey.split() for k in hk: self.helpText[k] = helpTextString helpTextString = "" helpKey = None continue else: helpTextString += ln continue m = reHelpTextStart.match(ln) if m: t = m.groups() gatheringHelpText = True helpKey = t[0] continue if ln.rstrip().endswith("\\"): prevLines += ln.rstrip()[:-1] continue if prevLines != "": ln = prevLines + ln prevLines = "" if ln.lstrip().startswith("//"): continue if ln.lstrip().startswith("#define"): m = reDefQS.search(ln) if m: t = m.groups() if len(t) == 2: m = reDefQSm.search(ln) if m: t = m.groups() tt = re.findall(reDefQSm2, t[1]) if len(tt) == 1: self.cfgValues[t[0]] = tt[0] continue elif len(tt) > 1: self.cfgValues[t[0]] = tt continue m = reDefine.search(ln) if m: t = m.groups() if len(t) == 2: self.cfgValues[t[0]] = t[1] continue m = reDefBool.search(ln) if m: t = m.groups() if len(t) == 1: self.cfgValues[t[0]] = True if os.path.basename(fn) in protectedFiles: self.parent.enableSavePrinter(False, True) self.protFileLoaded = True else: self.protFileLoaded = False self.parent.enableSavePrinter(True, True) self.parent.setPrinterTabFile(os.path.basename(fn)) for pg in self.pages: pg.insertValues(self.cfgValues) pg.setHelpText(self.helpText) k = 'DC_EXTRUDER' if k in self.cfgValues.keys(): self.pgMiscellaneous.setOriginalHeater(self.cfgValues[k]) else: self.pgMiscellaneous.setOriginalHeater(None) return True
def loadConfigFile(self, fn): try: self.cfgBuffer = list(open(fn)) except: return False self.configFile = fn self.processors = [] self.sensors = [] self.heaters = [] self.candHeatPins = [] self.candThermPins = [] self.candProcessors = [] self.candClocks = [] tempTables = {} gatheringHelpText = False helpTextString = "" helpKey = None self.cfgValues = {} self.helpText = {} prevLines = "" for ln in self.cfgBuffer: if gatheringHelpText: if reHelpTextEnd.match(ln): gatheringHelpText = False helpTextString = helpTextString.strip() # Keep paragraphs with double-newline. helpTextString = helpTextString.replace("\n\n ", "\n\n") # Keep indented lines, typically a list. helpTextString = helpTextString.replace("\n\n ", "\n\n ") helpTextString = helpTextString.replace("\n ", "\n\n ") # Remove all other newlines and indents. helpTextString = helpTextString.replace("\n ", " ") hk = helpKey.split() for k in hk: self.helpText[k] = helpTextString helpTextString = "" helpKey = None continue else: helpTextString += ln continue m = reHelpTextStart.match(ln) if m: t = m.groups() gatheringHelpText = True helpKey = t[0] continue if ln.rstrip().endswith("\\"): prevLines += ln.rstrip()[:-1] continue if prevLines != "": ln = prevLines + ln prevLines = "" if ln.lstrip().startswith("//"): m = reCandThermPins.match(ln) if m: t = m.groups() if len(t) == 1: self.candThermPins.append(t[0]) continue m = reCandHeatPins.match(ln) if m: t = m.groups() if len(t) == 1: self.candHeatPins.append(t[0]) continue m = reCandProcessors.match(ln) if m: t = m.groups() if len(t) == 1: self.candProcessors.append(t[0]) continue m = reCandCPUClocks.match(ln) if m: t = m.groups() if len(t) == 1: self.candClocks.append(t[0]) continue m = reDefTT.match(ln) if m: t = m.groups() if len(t) == 2: s = self.parseTempTable(t[1]) if s: tempTables[t[0]] = s continue continue if ln.lstrip().startswith("#define"): m = reDefQS.search(ln) if m: t = m.groups() if len(t) == 2: m = reDefQSm.search(ln) if m: t = m.groups() tt = re.findall(reDefQSm2, t[1]) if len(tt) == 1: self.cfgValues[t[0]] = tt[0] continue elif len(tt) > 1: self.cfgValues[t[0]] = tt continue m = reDefine.search(ln) if m: t = m.groups() if len(t) == 2: self.cfgValues[t[0]] = t[1] if reFloatAttr.search(ln): pass continue m = reDefBool.search(ln) if m: t = m.groups() if len(t) == 1: self.cfgValues[t[0]] = True else: m = reDefTS.search(ln) if m: t = m.groups() if len(t) == 1: s = self.parseSensor(t[0]) if s: self.sensors.append(s) continue m = reDefHT.search(ln) if m: t = m.groups() if len(t) == 1: s = self.parseHeater(t[0]) if s: self.heaters.append(s) continue for k in range(len(self.sensors)): tn = self.sensors[k][0].upper() if tn in tempTables.keys(): self.sensors[k][3] = tempTables[tn] else: self.sensors[k][3] = None if os.path.basename(fn) in protectedFiles: self.parent.enableSaveBoard(False, True) self.protFileLoaded = True else: self.protFileLoaded = False self.parent.enableSaveBoard(True, True) self.parent.setBoardTabFile(os.path.basename(fn)) self.pgHeaters.setCandidatePins(self.candHeatPins) self.pgSensors.setCandidatePins(self.candThermPins) self.pgCpu.setCandidateProcessors(self.candProcessors) self.pgCpu.setCandidateClocks(self.candClocks) for pg in self.pages: pg.insertValues(self.cfgValues) pg.setHelpText(self.helpText) self.pgSensors.setSensors(self.sensors) self.pgHeaters.setHeaters(self.heaters) return True