Commit c5de6439 authored by Guillaume Seguin's avatar Guillaume Seguin

More translation strings for pronsole.py

parent 9f9b8d05
......@@ -19,6 +19,7 @@ import cmd, sys
import glob, os, time, datetime
import sys, subprocess
import math, codecs
import shlex
from math import sqrt
import argparse
......@@ -863,7 +864,7 @@ class pronsole(cmd.Cmd):
print "Bed: %s/%s" % (self.status.bed_temp, self.status.bed_temp_target)
def help_gettemp(self):
self.log("Read the extruder and bed temperature.")
self.log(_("Read the extruder and bed temperature."))
def do_settemp(self, l):
try:
......@@ -873,22 +874,22 @@ class pronsole(cmd.Cmd):
f = float(l)
if f>=0:
if f > 250:
print f, " is a high temperature to set your extruder to. Are you sure you want to do that?"
print _("%s is a high temperature to set your extruder to. Are you sure you want to do that?") % f
if not confirm():
return
if self.p.online:
self.p.send_now("M104 S"+l)
self.log("Setting hotend temperature to ", f, " degrees Celsius.")
self.log(_("Setting hotend temperature to %s degrees Celsius.") % f)
else:
self.log("printer is not online.")
self.log(_("Printer is not online."))
else:
self.log("You cannot set negative temperatures. To turn the hotend off entirely, set its temperature to 0.")
self.log(_("You cannot set negative temperatures. To turn the hotend off entirely, set its temperature to 0."))
except:
self.log("You must enter a temperature.")
self.log(_("You must enter a temperature."))
def help_settemp(self):
self.log("Sets the hotend temperature to the value entered.")
self.log("Enter either a temperature in celsius or one of the following keywords")
self.log(_("Sets the hotend temperature to the value entered."))
self.log(_("Enter either a temperature in celsius or one of the following keywords"))
self.log(", ".join([i+"("+self.temps[i]+")" for i in self.temps.keys()]))
def complete_settemp(self, text, line, begidx, endidx):
......@@ -904,17 +905,17 @@ class pronsole(cmd.Cmd):
if f>=0:
if self.p.online:
self.p.send_now("M140 S"+l)
self.log("Setting bed temperature to ", f, " degrees Celsius.")
self.log(_("Setting bed temperature to %s degrees Celsius.") % f)
else:
self.log("printer is not online.")
self.log(_("Printer is not online."))
else:
self.log("You cannot set negative temperatures. To turn the bed off entirely, set its temperature to 0.")
self.log(_("You cannot set negative temperatures. To turn the bed off entirely, set its temperature to 0."))
except:
self.log("You must enter a temperature.")
self.log(_("You must enter a temperature."))
def help_bedtemp(self):
self.log("Sets the bed temperature to the value entered.")
self.log("Enter either a temperature in celsius or one of the following keywords")
self.log(_("Sets the bed temperature to the value entered."))
self.log(_("Enter either a temperature in celsius or one of the following keywords"))
self.log(", ".join([i+"("+self.bedtemps[i]+")" for i in self.bedtemps.keys()]))
def complete_bedtemp(self, text, line, begidx, endidx):
......@@ -923,13 +924,13 @@ class pronsole(cmd.Cmd):
def do_move(self, l):
if(len(l.split())<2):
self.log("No move specified.")
self.log(_("No move specified."))
return
if self.p.printing:
self.log("printer is currently printing. Please pause the print before you issue manual commands.")
self.log(_("Printer is currently printing. Please pause the print before you issue manual commands."))
return
if not self.p.online:
self.log("printer is not online. Unable to move.")
self.log(_("Printer is not online. Unable to move."))
return
l = l.split()
if(l[0].lower()=="x"):
......@@ -945,13 +946,13 @@ class pronsole(cmd.Cmd):
feed = self.settings.e_feedrate
axis = "E"
else:
self.log("Unknown axis.")
self.log(_("Unknown axis."))
return
dist = 0
try:
dist = float(l[1])
except:
self.log("Invalid distance")
self.log(_("Invalid distance"))
return
try:
feed = int(l[2])
......@@ -962,11 +963,11 @@ class pronsole(cmd.Cmd):
self.p.send_now("G90")
def help_move(self):
self.log("Move an axis. Specify the name of the axis and the amount. ")
self.log("move X 10 will move the X axis forward by 10mm at ", self.settings.xy_feedrate, "mm/min (default XY speed)")
self.log("move Y 10 5000 will move the Y axis forward by 10mm at 5000mm/min")
self.log("move Z -1 will move the Z axis down by 1mm at ", self.settings.z_feedrate, "mm/min (default Z speed)")
self.log("Common amounts are in the tabcomplete list.")
self.log(_("Move an axis. Specify the name of the axis and the amount. "))
self.log(_("move X 10 will move the X axis forward by 10mm at %s mm/min (default XY speed)") % self.settings.xy_feedrate)
self.log(_("move Y 10 5000 will move the Y axis forward by 10mm at 5000mm/min"))
self.log(_("move Z -1 will move the Z axis down by 1mm at %s mm/min (default Z speed)") % self.settings.z_feedrate)
self.log(_("Common amounts are in the tabcomplete list."))
def complete_move(self, text, line, begidx, endidx):
if (len(line.split()) == 2 and line[-1] != " ") or (len(line.split()) == 1 and line[-1]==" "):
......@@ -986,70 +987,70 @@ class pronsole(cmd.Cmd):
length = 5#default extrusion length
feed = self.settings.e_feedrate#default speed
if not self.p.online:
self.log("printer is not online. Unable to move.")
self.log("Printer is not online. Unable to extrude.")
return
if self.p.printing:
self.log("printer is currently printing. Please pause the print before you issue manual commands.")
self.log("Printer is currently printing. Please pause the print before you issue manual commands.")
return
ls = l.split()
if len(ls):
try:
length = float(ls[0])
except:
self.log("Invalid length given.")
self.log(_("Invalid length given."))
if len(ls)>1:
try:
feed = int(ls[1])
except:
self.log("Invalid speed given.")
self.log(_("Invalid speed given."))
if override is not None:
length = override
feed = overridefeed
if length > 0:
self.log("Extruding %fmm of filament."%(length,))
elif length <0:
self.log("Reversing %fmm of filament."%(-1*length,))
self.log(_("Extruding %fmm of filament.") % (length,))
elif length < 0:
self.log(_("Reversing %fmm of filament.") % (-1*length,))
else:
"Length is 0, not doing anything."
self.log(_("Length is 0, not doing anything."))
self.p.send_now("G91")
self.p.send_now("G1 E"+str(length)+" F"+str(feed))
self.p.send_now("G90")
def help_extrude(self):
self.log("Extrudes a length of filament, 5mm by default, or the number of mm given as a parameter")
self.log("extrude - extrudes 5mm of filament at 300mm/min (5mm/s)")
self.log("extrude 20 - extrudes 20mm of filament at 300mm/min (5mm/s)")
self.log("extrude -5 - REVERSES 5mm of filament at 300mm/min (5mm/s)")
self.log("extrude 10 210 - extrudes 10mm of filament at 210mm/min (3.5mm/s)")
self.log(_("Extrudes a length of filament, 5mm by default, or the number of mm given as a parameter"))
self.log(_("extrude - extrudes 5mm of filament at 300mm/min (5mm/s)"))
self.log(_("extrude 20 - extrudes 20mm of filament at 300mm/min (5mm/s)"))
self.log(_("extrude -5 - REVERSES 5mm of filament at 300mm/min (5mm/s)"))
self.log(_("extrude 10 210 - extrudes 10mm of filament at 210mm/min (3.5mm/s)"))
def do_reverse(self, l):
length = 5#default extrusion length
feed = self.settings.e_feedrate#default speed
if not self.p.online:
self.log("printer is not online. Unable to move.")
self.log(_("Printer is not online. Unable to reverse."))
return
if self.p.printing:
self.log("printer is currently printing. Please pause the print before you issue manual commands.")
self.log(_("Printer is currently printing. Please pause the print before you issue manual commands."))
return
ls = l.split()
if len(ls):
try:
length = float(ls[0])
except:
self.log("Invalid length given.")
self.log(_("Invalid length given."))
if len(ls)>1:
try:
feed = int(ls[1])
except:
self.log("Invalid speed given.")
self.log(_("Invalid speed given."))
self.do_extrude("", length*-1.0, feed)
def help_reverse(self):
self.log("Reverses the extruder, 5mm by default, or the number of mm given as a parameter")
self.log("reverse - reverses 5mm of filament at 300mm/min (5mm/s)")
self.log("reverse 20 - reverses 20mm of filament at 300mm/min (5mm/s)")
self.log("reverse 10 210 - extrudes 10mm of filament at 210mm/min (3.5mm/s)")
self.log("reverse -5 - EXTRUDES 5mm of filament at 300mm/min (5mm/s)")
self.log(_("Reverses the extruder, 5mm by default, or the number of mm given as a parameter"))
self.log(_("reverse - reverses 5mm of filament at 300mm/min (5mm/s)"))
self.log(_("reverse 20 - reverses 20mm of filament at 300mm/min (5mm/s)"))
self.log(_("reverse 10 210 - extrudes 10mm of filament at 210mm/min (3.5mm/s)"))
self.log(_("reverse -5 - EXTRUDES 5mm of filament at 300mm/min (5mm/s)"))
def do_exit(self, l):
if self.status.extruder_temp_target != 0:
......@@ -1066,28 +1067,28 @@ class pronsole(cmd.Cmd):
print "(this will terminate the print)."
if not confirm():
return False
self.log("Exiting program. Goodbye!")
self.log(_("Exiting program. Goodbye!"))
self.p.disconnect()
return True
def help_exit(self):
self.log("Disconnects from the printer and exits the program.")
self.log(_("Disconnects from the printer and exits the program."))
def do_monitor(self, l):
interval = 5
if not self.p.online:
self.log("printer is not online. Please connect first.")
self.log(_("Printer is not online. Please connect to it first."))
return
if not (self.p.printing or self.sdprinting):
self.log("Printer not printing. Please print something before monitoring.")
self.log(_("Printer is not printing. Please print something before monitoring."))
return
self.log("Monitoring printer, use ^C to interrupt.")
self.log(_("Monitoring printer, use ^C to interrupt."))
if len(l):
try:
interval = float(l)
except:
self.log("Invalid period given.")
self.log("Updating values every %f seconds."%(interval,))
self.log(_("Invalid period given."))
self.log(_("Updating values every %f seconds.") % (interval,))
self.monitoring = 1
prev_msg_len = 0
try:
......@@ -1098,10 +1099,10 @@ class pronsole(cmd.Cmd):
time.sleep(interval)
#print (self.tempreadings.replace("\r", "").replace("T", "Hotend").replace("B", "Bed").replace("\n", "").replace("ok ", ""))
if self.p.printing:
preface = "Print progress: "
preface = _("Print progress: ")
progress = 100*float(self.p.queueindex)/len(self.p.mainqueue)
elif self.sdprinting:
preface = "Print progress: "
preface = _("Print progress: ")
progress = self.percentdone
progress = int(progress*10)/10.0 #limit precision
prev_msg = preface + str(progress) + "%"
......@@ -1110,13 +1111,13 @@ class pronsole(cmd.Cmd):
sys.stdout.flush()
prev_msg_len = len(prev_msg)
except KeyboardInterrupt:
if self.silent == False: print "Done monitoring."
if self.silent == False: print _("Done monitoring.")
self.monitoring = 0
def help_monitor(self):
self.log("Monitor a machine's temperatures and an SD print's status.")
self.log("monitor - Reports temperature and SD print status (if SD printing) every 5 seconds")
self.log("monitor 2 - Reports temperature and SD print status (if SD printing) every 2 seconds")
self.log(_("Monitor a machine's temperatures and an SD print's status."))
self.log(_("monitor - Reports temperature and SD print status (if SD printing) every 5 seconds"))
self.log(_("monitor 2 - Reports temperature and SD print status (if SD printing) every 2 seconds"))
def expandcommand(self, c):
return c.replace("$python", sys.executable)
......@@ -1124,31 +1125,30 @@ class pronsole(cmd.Cmd):
def do_skein(self, l):
l = l.split()
if len(l) == 0:
self.log("No file name given.")
self.log(_("No file name given."))
return
settings = 0
if(l[0]=="set"):
settings = 1
else:
self.log("Skeining file:"+l[0])
self.log(_("Skeining file: %s") % l[0])
if not(os.path.exists(l[0])):
self.log("File not found!")
self.log(_("File not found!"))
return
try:
import shlex
if(settings):
if settings:
param = self.expandcommand(self.settings.sliceoptscommand).replace("\\", "\\\\").encode()
self.log("Entering slicer settings: ", param)
self.log(_("Entering slicer settings: %s") % param)
subprocess.call(shlex.split(param))
else:
param = self.expandcommand(self.settings.slicecommand).encode()
self.log("Slicing: ", param)
self.log(_("Slicing: ") % param)
params = [i.replace("$s", l[0]).replace("$o", l[0].replace(".stl", "_export.gcode").replace(".STL", "_export.gcode")).encode() for i in shlex.split(param.replace("\\", "\\\\").encode())]
subprocess.call(params)
self.log("Loading sliced file.")
self.log(_("Loading sliced file."))
self.do_load(l[0].replace(".stl", "_export.gcode"))
except Exception, e:
self.log("Skeinforge execution failed: ", e)
self.log(_("Skeinforge execution failed: %s") % e)
def complete_skein(self, text, line, begidx, endidx):
s = line.split()
......@@ -1161,18 +1161,17 @@ class pronsole(cmd.Cmd):
return glob.glob("*/")+glob.glob("*.stl")
def help_skein(self):
self.log("Creates a gcode file from an stl model using the slicer (with tab-completion)")
self.log("skein filename.stl - create gcode file")
self.log("skein filename.stl view - create gcode file and view using skeiniso")
self.log("skein set - adjust slicer settings")
self.log(_("Creates a gcode file from an stl model using the slicer (with tab-completion)"))
self.log(_("skein filename.stl - create gcode file"))
self.log(_("skein filename.stl view - create gcode file and view using skeiniso"))
self.log(_("skein set - adjust slicer settings"))
def do_home(self, l):
if not self.p.online:
self.log("printer is not online. Unable to move.")
self.log(_("Printer is not online. Unable to move."))
return
if self.p.printing:
self.log("printer is currently printing. Please pause the print before you issue manual commands.")
self.log(_("Printer is currently printing. Please pause the print before you issue manual commands."))
return
if "x" in l.lower():
self.p.send_now("G28 X0")
......@@ -1187,12 +1186,12 @@ class pronsole(cmd.Cmd):
self.p.send_now("G92 E0")
def help_home(self):
self.log("Homes the printer")
self.log("home - homes all axes and zeroes the extruder(Using G28 and G92)")
self.log("home xy - homes x and y axes (Using G28)")
self.log("home z - homes z axis only (Using G28)")
self.log("home e - set extruder position to zero (Using G92)")
self.log("home xyze - homes all axes and zeroes the extruder (Using G28 and G92)")
self.log(_("Homes the printer"))
self.log(_("home - homes all axes and zeroes the extruder(Using G28 and G92)"))
self.log(_("home xy - homes x and y axes (Using G28)"))
self.log(_("home z - homes z axis only (Using G28)"))
self.log(_("home e - set extruder position to zero (Using G92)"))
self.log(_("home xyze - homes all axes and zeroes the extruder (Using G28 and G92)"))
def add_cmdline_arguments(self, parser):
parser.add_argument('-c','--conf','--config', help = _("load this file on startup instead of .pronsolerc ; you may chain config files, if so settings auto-save will use the last specified file"), action = "append", default = [])
......
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