def __init__(self, parent):
super(preferencesDialog, self).__init__(None, title="Project Planner Preferences", style=wx.DEFAULT_DIALOG_STYLE)
self.parent = parent
wx.EVT_CLOSE(self, self.OnClose)
self.panel = configBase.configPanelBase(self)
extruderAmount = int(profile.getPreference('extruder_amount'))
left, right, main = self.panel.CreateConfigPanel(self)
configBase.TitleRow(left, 'Machine head size')
c = configBase.SettingRow(left, 'Head size - X towards home (mm)', 'extruder_head_size_min_x', '0', 'Size of your printer head in the X direction, on the Ultimaker your fan is in this direction.', type = 'preference')
validators.validFloat(c, 0.1)
c = configBase.SettingRow(left, 'Head size - X towards end (mm)', 'extruder_head_size_max_x', '0', 'Size of your printer head in the X direction.', type = 'preference')
validators.validFloat(c, 0.1)
c = configBase.SettingRow(left, 'Head size - Y towards home (mm)', 'extruder_head_size_min_y', '0', 'Size of your printer head in the Y direction.', type = 'preference')
validators.validFloat(c, 0.1)
c = configBase.SettingRow(left, 'Head size - Y towards end (mm)', 'extruder_head_size_max_y', '0', 'Size of your printer head in the Y direction.', type = 'preference')
validators.validFloat(c, 0.1)
c = configBase.SettingRow(left, 'Head gantry height (mm)', 'extruder_head_size_height', '0', 'The tallest object height that will always fit under your printers gantry system when the printer head is at the lowest Z position.', type = 'preference')
validators.validFloat(c)
self.okButton = wx.Button(left, -1, 'Ok')
left.GetSizer().Add(self.okButton, (left.GetSizer().GetRows(), 1))
self.okButton.Bind(wx.EVT_BUTTON, self.OnClose)
self.MakeModal(True)
main.Fit()
self.Fit()
def __init__(self, parent, callback = None):
super(normalSettingsPanel, self).__init__(parent)
#Main tabs
self.nb = wx.Notebook(self)
self.SetSizer(wx.BoxSizer(wx.HORIZONTAL))
self.GetSizer().Add(self.nb, 1, wx.EXPAND)
(left, right) = self.CreateConfigTab(self.nb, 'Print config')
#self._addSettingsToPanels('basic', left, right)
#self.SizeLabelWidths(left, right)
configBase.TitleRow(left, "Quality")
c = configBase.SettingRow(left, "Layer height (mm)", 'layer_height', '0.2', 'Layer height in millimeters.\n0.2 is a good value for quick prints.\n0.1 gives high quality prints.')
validators.validFloat(c, 0.0001)
validators.warningAbove(c, lambda : (float(profile.getProfileSetting('nozzle_size')) * 80.0 / 100.0), "Thicker layers then %.2fmm (80%% nozzle size) usually give bad results and are not recommended.")
c = configBase.SettingRow(left, "Wall thickness (mm)", 'wall_thickness', '0.8', 'Thickness of the walls.\nThis is used in combination with the nozzle size to define the number\nof perimeter lines and the thickness of those perimeter lines.')
validators.validFloat(c, 0.0001)
validators.wallThicknessValidator(c)
c = configBase.SettingRow(left, "Enable retraction", 'retraction_enable', False, 'Retract the filament when the nozzle is moving over a none-printed area. Details about the retraction can be configured in the advanced tab.')
#(left, right, self.advancedPanel) = self.CreateDynamicConfigTab(self.nb, 'Advanced')
#self._addSettingsToPanels('advanced', left, right)
#self.SizeLabelWidths(left, right)
#Plugin page
self.pluginPanel = pluginPanel.pluginPanel(self.nb, callback)
self.pluginPanel.GetActivePluginCount()
if len(self.pluginPanel.pluginList) > 0:
self.nb.AddPage(self.pluginPanel, "Plugins")
else:
self.pluginPanel.Show(False)
#Alteration page
self.alterationPanel = alterationPanel.alterationPanel(self.nb, callback)
self.nb.AddPage(self.alterationPanel, "Start/End-GCode")
self.Bind(wx.EVT_SIZE, self.OnSize)
self.nb.SetSize(self.GetSize())
def __init__(self, parent):
super(preferencesDialog, self).__init__(None, title="Preferences", style=wx.DEFAULT_DIALOG_STYLE)
wx.EVT_CLOSE(self, self.OnClose)
self.parent = parent
self.oldExtruderAmount = int(profile.getPreference('extruder_amount'))
self.panel = configBase.configPanelBase(self)
left, right, main = self.panel.CreateConfigPanel(self)
configBase.TitleRow(left, 'Machine settings')
c = configBase.SettingRow(left, 'Steps per E', 'steps_per_e', '0', 'Amount of steps per mm filament extrusion', type = 'preference')
validators.validFloat(c, 0.1)
c = configBase.SettingRow(left, 'Maximum width (mm)', 'machine_width', '205', 'Size of the machine in mm', type = 'preference')
validators.validFloat(c, 10.0)
c = configBase.SettingRow(left, 'Maximum depth (mm)', 'machine_depth', '205', 'Size of the machine in mm', type = 'preference')
validators.validFloat(c, 10.0)
c = configBase.SettingRow(left, 'Maximum height (mm)', 'machine_height', '200', 'Size of the machine in mm', type = 'preference')
validators.validFloat(c, 10.0)
c = configBase.SettingRow(left, 'Extruder count', 'extruder_amount', ['1', '2', '3', '4'], 'Amount of extruders in your machine.', type = 'preference')
c = configBase.SettingRow(left, 'Heated bed', 'has_heated_bed', False, 'If you have an heated bed, this enabled heated bed settings', type = 'preference')
for i in xrange(1, self.oldExtruderAmount):
configBase.TitleRow(left, 'Extruder %d' % (i+1))
c = configBase.SettingRow(left, 'Offset X', 'extruder_offset_x%d' % (i), '0.0', 'The offset of your secondary extruder compared to the primary.', type = 'preference')
validators.validFloat(c)
c = configBase.SettingRow(left, 'Offset Y', 'extruder_offset_y%d' % (i), '0.0', 'The offset of your secondary extruder compared to the primary.', type = 'preference')
validators.validFloat(c)
configBase.TitleRow(left, 'Colours')
c = configBase.SettingRow(left, 'Model colour', 'model_colour', wx.Colour(0,0,0), '', type = 'preference')
for i in xrange(1, self.oldExtruderAmount):
c = configBase.SettingRow(left, 'Model colour (%d)' % (i+1), 'model_colour%d' % (i+1), wx.Colour(0,0,0), '', type = 'preference')
configBase.TitleRow(right, 'Filament settings')
c = configBase.SettingRow(right, 'Density (kg/m3)', 'filament_density', '1300', 'Weight of the filament per m3. Around 1300 for PLA. And around 1040 for ABS. This value is used to estimate the weight if the filament used for the print.', type = 'preference')
validators.validFloat(c, 500.0, 3000.0)
c = configBase.SettingRow(right, 'Cost (price/kg)', 'filament_cost_kg', '0', 'Cost of your filament per kg, to estimate the cost of the final print.', type = 'preference')
validators.validFloat(c, 0.0)
c = configBase.SettingRow(right, 'Cost (price/m)', 'filament_cost_meter', '0', 'Cost of your filament per meter, to estimate the cost of the final print.', type = 'preference')
validators.validFloat(c, 0.0)
configBase.TitleRow(right, 'Communication settings')
c = configBase.SettingRow(right, 'Serial port', 'serial_port', ['AUTO'] + machineCom.serialList(), 'Serial port to use for communication with the printer', type = 'preference')
c = configBase.SettingRow(right, 'Baudrate', 'serial_baud', ['AUTO'] + map(str, machineCom.baudrateList()), 'Speed of the serial port communication\nNeeds to match your firmware settings\nCommon values are 250000, 115200, 57600', type = 'preference')
configBase.TitleRow(right, 'Slicer settings')
#c = configBase.SettingRow(right, 'Slicer selection', 'slicer', ['Cura (Skeinforge based)', 'Slic3r'], 'Which slicer to use to slice objects. Usually the Cura engine produces the best results. But Slic3r is developing fast and is faster with slicing.', type = 'preference')
c = configBase.SettingRow(right, 'Save profile on slice', 'save_profile', False, 'When slicing save the profile as [stl_file]_profile.ini next to the model.', type = 'preference')
configBase.TitleRow(right, 'SD Card settings')
if len(profile.getSDcardDrives()) > 1:
c = configBase.SettingRow(right, 'SD card drive', 'sdpath', profile.getSDcardDrives(), 'Location of your SD card, when using the copy to SD feature.', type = 'preference')
else:
c = configBase.SettingRow(right, 'SD card path', 'sdpath', '', 'Location of your SD card, when using the copy to SD feature.', type = 'preference')
c = configBase.SettingRow(right, 'Copy to SD with 8.3 names', 'sdshortnames', False, 'Save the gcode files in short filenames, so they are properly shown on the UltiController', type = 'preference')
configBase.TitleRow(right, 'Cura settings')
c = configBase.SettingRow(right, 'Check for updates', 'check_for_updates', True, 'Check for newer versions of Cura on startup', type = 'preference')
self.okButton = wx.Button(right, -1, 'Ok')
right.GetSizer().Add(self.okButton, (right.GetSizer().GetRows(), 0), flag=wx.BOTTOM, border=5)
self.okButton.Bind(wx.EVT_BUTTON, self.OnClose)
self.MakeModal(True)
main.Fit()
self.Fit()
def __init__(self, cb, parent):
(left, right, self.panel) = cb.CreateDynamicConfigTab(parent, 'Expert')
configBase.TitleRow(left, "Accuracy")
c = configBase.SettingRow(
left, "Extra Wall thickness for bottom/top (mm)",
'extra_base_wall_thickness', '0.0',
'Additional wall thickness of the bottom and top layers.')
validators.validFloat(c, 0.0)
configBase.TitleRow(left, "Cool")
c = configBase.SettingRow(
left, "Minimum feedrate (mm/s)", 'cool_min_feedrate', '5',
'The minimal layer time can cause the print to slow down so much it starts to ooze. The minimal feedrate protects against this. Even if a print gets slown down it will never be slower then this minimal feedrate.'
)
validators.validFloat(c, 0.0)
c = configBase.SettingRow(
left, "Fan on layer number", 'fan_layer', '0',
'The layer at which the fan is turned on. The first layer is layer 0. The first layer can stick better if you turn on the fan on, on the 2nd layer.'
)
validators.validInt(c, 0)
c = configBase.SettingRow(
left, "Fan speed min (%)", 'fan_speed', '100',
'When the fan is turned on, it is enabled at this speed setting. If cool slows down the layer, the fan is adjusted between the min and max speed. Minimal fan speed is used if the layer is not slowed down due to cooling.'
)
validators.validInt(c, 0, 100)
c = configBase.SettingRow(
left, "Fan speed max (%)", 'fan_speed_max', '100',
'When the fan is turned on, it is enabled at this speed setting. If cool slows down the layer, the fan is adjusted between the min and max speed. Maximal fan speed is used if the layer is slowed down due to cooling by more then 200%.'
)
validators.validInt(c, 0, 100)
configBase.TitleRow(left, "Raft (if enabled)")
c = configBase.SettingRow(
left, "Extra margin (mm)", 'raft_margin', '3.0',
'If the raft is enabled, this is the extra raft area around the object which is also rafted. Increasing this margin will create a stronger raft.'
)
validators.validFloat(c, 0.0)
c = configBase.SettingRow(
left, "Base material amount (%)", 'raft_base_material_amount',
'100',
'The base layer is the first layer put down as a raft. This layer has thick strong lines and is put firmly on the bed to prevent warping. This setting adjust the amount of material used for the base layer.'
)
validators.validFloat(c, 0.0)
c = configBase.SettingRow(
left, "Interface material amount (%)",
'raft_interface_material_amount', '100',
'The interface layer is a weak thin layer between the base layer and the printed object. It is designed to has little material to make it easy to break the base off the printed object. This setting adjusts the amount of material used for the interface layer.'
)
validators.validFloat(c, 0.0)
configBase.TitleRow(left, "Support")
c = configBase.SettingRow(
left, "Material amount (%)", 'support_rate', '100',
'Amount of material used for support, less material gives a weaker support structure which is easier to remove.'
)
validators.validFloat(c, 0.0)
c = configBase.SettingRow(
left, "Distance from object (mm)", 'support_distance', '0.5',
'Distance between the support structure and the object. Empty gap in which no support structure is printed.'
)
validators.validFloat(c, 0.0)
configBase.TitleRow(right, "Infill")
c = configBase.SettingRow(
right, "Infill pattern", 'infill_type',
['Line', 'Grid Circular', 'Grid Hexagonal', 'Grid Rectangular'],
'Pattern of the none-solid infill. Line is default, but grids can provide a strong print.'
)
c = configBase.SettingRow(
right, "Solid infill top", 'solid_top', True,
'Create a solid top surface, if set to false the top is filled with the fill percentage. Useful for cups/vases.'
)
c = configBase.SettingRow(
right, "Infill overlap (%)", 'fill_overlap', '15',
'Amount of overlap between the infill and the walls. There is a slight overlap with the walls and the infill so the walls connect firmly to the infill.'
)
validators.validFloat(c, 0.0)
configBase.TitleRow(right, "Bridge")
c = configBase.SettingRow(
right, "Bridge speed (%)", 'bridge_speed', '100',
'Speed at which layers with bridges are printed, compared to normal printing speed.'
)
validators.validFloat(c, 0.0)
configBase.TitleRow(right, "Sequence")
c = configBase.SettingRow(
right, "Print order sequence", 'sequence', [
'Loops > Perimeter > Infill', 'Loops > Infill > Perimeter',
'Infill > Loops > Perimeter', 'Infill > Perimeter > Loops',
'Perimeter > Infill > Loops', 'Perimeter > Loops > Infill'
],
'Sequence of printing. The perimeter is the outer print edge, the loops are the insides of the walls, and the infill is the insides.'
)
c = configBase.SettingRow(
right, "Force first layer sequence", 'force_first_layer_sequence',
True,
'This setting forces the order of the first layer to be \'Perimeter > Loops > Infill\''
)
configBase.TitleRow(right, "Joris")
c = configBase.SettingRow(
right, "Joris the outer edge", 'joris', False,
'[Joris] is a code name for smoothing out the Z move of the outer edge. This will create a steady Z increase over the whole print. It is intended to be used with a single walled wall thickness to make cups/vases.'
)
configBase.TitleRow(right, "Retraction")
c = configBase.SettingRow(
right, "Retract on jumps only", 'retract_on_jumps_only', True,
'Only retract when we are making a move that is over a hole in the model, else retract on every move. This effects print quality in different ways.'
)
configBase.TitleRow(right, "Hop")
c = configBase.SettingRow(
right, "Enable hop on move", 'hop_on_move', False,
'When moving from print position to print position, raise the printer head 0.2mm so it does not knock off the print (experimental).'
)
cb.SizeLabelWidths(left, right)
def __init__(self, parent):
super(normalSettingsPanel, self).__init__(parent)
#Main tabs
nb = wx.Notebook(self)
self.SetSizer(wx.BoxSizer(wx.VERTICAL))
self.GetSizer().Add(nb, 1)
(left, right) = self.CreateConfigTab(nb, 'Print config')
configBase.TitleRow(left, "Quality")
c = configBase.SettingRow(left, "Layer height (mm)", 'layer_height', '0.2', 'Layer height in millimeters.\n0.2 is a good value for quick prints.\n0.1 gives high quality prints.')
validators.validFloat(c, 0.0001)
validators.warningAbove(c, lambda : (float(profile.getProfileSetting('nozzle_size')) * 80.0 / 100.0), "Thicker layers then %.2fmm (80%% nozzle size) usually give bad results and are not recommended.")
c = configBase.SettingRow(left, "Wall thickness (mm)", 'wall_thickness', '0.8', 'Thickness of the walls.\nThis is used in combination with the nozzle size to define the number\nof perimeter lines and the thickness of those perimeter lines.')
validators.validFloat(c, 0.0001)
validators.wallThicknessValidator(c)
c = configBase.SettingRow(left, "Enable retraction", 'retraction_enable', False, 'Retract the filament when the nozzle is moving over a none-printed area. Details about the retraction can be configured in the advanced tab.')
configBase.TitleRow(left, "Fill")
c = configBase.SettingRow(left, "Bottom/Top thickness (mm)", 'solid_layer_thickness', '0.6', 'This controls the thickness of the bottom and top layers, the amount of solid layers put down is calculated by the layer thickness and this value.\nHaving this value a multiply of the layer thickness makes sense. And keep it near your wall thickness to make an evenly strong part.')
validators.validFloat(c, 0.0)
c = configBase.SettingRow(left, "Fill Density (%)", 'fill_density', '20', 'This controls how densily filled the insides of your print will be. For a solid part use 100%, for an empty part use 0%. A value around 20% is usually enough')
validators.validFloat(c, 0.0, 100.0)
configBase.TitleRow(right, "Speed && Temperature")
c = configBase.SettingRow(right, "Print speed (mm/s)", 'print_speed', '50', 'Speed at which printing happens. A well adjusted Ultimaker can reach 150mm/s, but for good quality prints you want to print slower. Printing speed depends on a lot of factors. So you will be experimenting with optimal settings for this.')
validators.validFloat(c, 1.0)
validators.warningAbove(c, 150.0, "It is highly unlikely that your machine can achieve a printing speed above 150mm/s")
validators.printSpeedValidator(c)
#configBase.TitleRow(right, "Temperature")
c = configBase.SettingRow(right, "Printing temperature", 'print_temperature', '0', 'Temperature used for printing. Set at 0 to pre-heat yourself')
validators.validFloat(c, 0.0, 340.0)
validators.warningAbove(c, 260.0, "Temperatures above 260C could damage your machine, be careful!")
if profile.getPreference('has_heated_bed') == 'True':
c = configBase.SettingRow(right, "Bed temperature", 'print_bed_temperature', '0', 'Temperature used for the heated printer bed. Set at 0 to pre-heat yourself')
validators.validFloat(c, 0.0, 340.0)
configBase.TitleRow(right, "Support structure")
c = configBase.SettingRow(right, "Support type", 'support', ['None', 'Exterior Only', 'Everywhere'], 'Type of support structure build.\n"Exterior only" is the most commonly used support setting.\n\nNone does not do any support.\nExterior only only creates support where the support structure will touch the build platform.\nEverywhere creates support even on the insides of the model.')
c = configBase.SettingRow(right, "Add raft", 'enable_raft', False, 'A raft is a few layers of lines below the bottom of the object. It prevents warping. Full raft settings can be found in the expert settings.\nFor PLA this is usually not required. But if you print with ABS it is almost required.')
if int(profile.getPreference('extruder_amount')) > 1:
c = configBase.SettingRow(right, "Support dual extrusion", 'support_dual_extrusion', False, 'Print the support material with the 2nd extruder in a dual extrusion setup. The primary extruder will be used for normal material, while the second extruder is used to print support material.')
configBase.TitleRow(right, "Filament")
c = configBase.SettingRow(right, "Diameter (mm)", 'filament_diameter', '2.89', 'Diameter of your filament, as accurately as possible.\nIf you cannot measure this value you will have to callibrate it, a higher number means less extrusion, a smaller number generates more extrusion.')
validators.validFloat(c, 1.0)
validators.warningAbove(c, 3.5, "Are you sure your filament is that thick? Normal filament is around 3mm or 1.75mm.")
c = configBase.SettingRow(right, "Packing Density", 'filament_density', '1.00', 'Packing density of your filament. This should be 1.00 for PLA and 0.85 for ABS')
validators.validFloat(c, 0.5, 1.5)
(left, right) = self.CreateConfigTab(nb, 'Advanced config')
configBase.TitleRow(left, "Machine size")
c = configBase.SettingRow(left, "Nozzle size (mm)", 'nozzle_size', '0.4', 'The nozzle size is very important, this is used to calculate the line width of the infill, and used to calculate the amount of outside wall lines and thickness for the wall thickness you entered in the print settings.')
validators.validFloat(c, 0.1, 10.0)
configBase.TitleRow(left, "Skirt")
c = configBase.SettingRow(left, "Line count", 'skirt_line_count', '1', 'The skirt is a line drawn around the object at the first layer. This helps to prime your extruder, and to see if the object fits on your platform.\nSetting this to 0 will disable the skirt. Multiple skirt lines can help priming your extruder better for small objects.')
validators.validInt(c, 0, 10)
c = configBase.SettingRow(left, "Start distance (mm)", 'skirt_gap', '6.0', 'The distance between the skirt and the first layer.\nThis is the minimal distance, multiple skirt lines will be put outwards from this distance.')
validators.validFloat(c, 0.0)
configBase.TitleRow(left, "Retraction")
c = configBase.SettingRow(left, "Minimum travel (mm)", 'retraction_min_travel', '5.0', 'Minimum amount of travel needed for a retraction to happen at all. To make sure you do not get a lot of retractions in a small area')
validators.validFloat(c, 0.0)
c = configBase.SettingRow(left, "Speed (mm/s)", 'retraction_speed', '40.0', 'Speed at which the filament is retracted, a higher retraction speed works better. But a very high retraction speed can lead to filament grinding.')
validators.validFloat(c, 0.1)
c = configBase.SettingRow(left, "Distance (mm)", 'retraction_amount', '0.0', 'Amount of retraction, set at 0 for no retraction at all. A value of 2.0mm seems to generate good results.')
validators.validFloat(c, 0.0)
c = configBase.SettingRow(left, "Extra length on start (mm)", 'retraction_extra', '0.0', 'Extra extrusion amount when restarting after a retraction, to better "Prime" your extruder after retraction.')
validators.validFloat(c, 0.0)
configBase.TitleRow(right, "Speed")
c = configBase.SettingRow(right, "Travel speed (mm/s)", 'travel_speed', '150', 'Speed at which travel moves are done, a high quality build Ultimaker can reach speeds of 250mm/s. But some machines might miss steps then.')
validators.validFloat(c, 1.0)
validators.warningAbove(c, 300.0, "It is highly unlikely that your machine can achieve a travel speed above 300mm/s")
c = configBase.SettingRow(right, "Max Z speed (mm/s)", 'max_z_speed', '1.0', 'Speed at which Z moves are done. When you Z axis is properly lubercated you can increase this for less Z blob.')
validators.validFloat(c, 0.5)
c = configBase.SettingRow(right, "Bottom layer speed (mm/s)", 'bottom_layer_speed', '25', 'Print speed for the bottom layer, you want to print the first layer slower so it sticks better to the printer bed.')
validators.validFloat(c, 0.0)
configBase.TitleRow(right, "Cool")
c = configBase.SettingRow(right, "Minimal layer time (sec)", 'cool_min_layer_time', '10', 'Minimum time spend in a layer, gives the layer time to cool down before the next layer is put on top. If the layer will be placed down too fast the printer will slow down to make sure it has spend atleast this amount of seconds printing this layer.')
validators.validFloat(c, 0.0)
c = configBase.SettingRow(right, "Enable cooling fan", 'fan_enabled', True, 'Enable the cooling fan during the print. The extra cooling from the cooling fan is essensial during faster prints.')
configBase.TitleRow(right, "Quality")
c = configBase.SettingRow(right, "Initial layer thickness (mm)", 'bottom_thickness', '0.0', 'Layer thickness of the bottom layer. A thicker bottom layer makes sticking to the bed easier. Set to 0.0 to have the bottom layer thickness the same as the other layers.')
validators.validFloat(c, 0.0)
validators.warningAbove(c, lambda : (float(profile.getProfileSetting('nozzle_size')) * 3.0 / 4.0), "A bottom layer of more then %.2fmm (3/4 nozzle size) usually give bad results and is not recommended.")
c = configBase.SettingRow(right, "Duplicate outlines", 'enable_skin', False, 'Skin prints the outer lines of the prints twice, each time with half the thickness. This gives the illusion of a higher print quality.')
#Plugin page
self.pluginPanel = pluginPanel.pluginPanel(nb)
if len(self.pluginPanel.pluginList) > 0:
nb.AddPage(self.pluginPanel, "Plugins")
else:
self.pluginPanel.Show(False)
#Alteration page
self.alterationPanel = alterationPanel.alterationPanel(nb)
nb.AddPage(self.alterationPanel, "Start/End-GCode")
def __init__(self, sceneView):
super(sliceMenu, self).__init__(None, title='Slice Menu', style=wx.DEFAULT_DIALOG_STYLE)
wx.EVT_CLOSE(self, self.OnClose)
self.panel = configBase.configPanelBase(self)
self.sceneView = sceneView
#self._scene.objects()
left, right, self.main = self.panel.CreateConfigPanel(self)
self.hidden = False
self._slicer = sliceEngine.Slicer(self._updateSliceProgress)
self.advancedList = []
self.changeMachineButton = wx.Button(left, -1, 'Litto')
left.GetSizer().Add(self.changeMachineButton, (left.GetSizer().GetRows(), 3))
self.Bind(wx.EVT_BUTTON, lambda e: self.changeMachine(), self.changeMachineButton)
configBase.TitleRow(left, "Print Settings")
c = configBase.SettingRow(left, "Filament Diameter", 'filament_diameter', '1.75', 'decription of filament diameter')
validators.validInt(c, 0)
c = configBase.TitleRow(left, "Advanced Settings")
self.advancedList.append(c)
c = configBase.SettingRow(left, "Print Speed", 'print_speed', '0', 'decription of print speed')
validators.validInt(c, 0)
self.advancedList.append(c)
c = configBase.SettingRow(left, "Print Temperature", 'print_temperature', '190', 'Degrees C')
validators.validInt(c, 0)
self.advancedList.append(c)
c = configBase.SettingRow(left, "Enable ym", 'support', ['None', 'Exterior Only', 'Everywhere'], 'Hah! You better have BURN HEAL!')
self.advancedList.append(c)
c = configBase.SettingRow(left, "Add raft", 'enable_raft', True, 'the ~~~R~~~~~~~~~~ word')
self.advancedList.append(c)
#validators.validInt(c, 0, 100)
#c = configBase.SettingRow(left, "Fan speed max (%)", 'fan_speed_max', '100', 'When the fan is turned on, it is enabled at this speed setting. If cool slows down the layer, the fan is adjusted between the min and max speed. Maximal fan speed is used if the layer is slowed down due to cooling by more then 200%.')
#validators.validInt(c, 0, 100)
#configBase.TitleRow(left, "Support")
#c = configBase.SettingRow(left, "Material amount (%)", 'support_rate', '100', 'Amount of material used for support, less material gives a weaker support structure which is easier to remove.')
#validators.validFloat(c, 0.0)
#c = configBase.SettingRow(left, "Distance from object (mm)", 'support_distance', '0.5', 'Distance between the support structure and the object. Empty gap in which no support structure is printed.')
#validators.validFloat(c, 0.0)
c = configBase.TitleRow(right, "")
self.advancedList.append(c)
c = configBase.SettingRow(right, "Infill %", 'fill_density', '10', 'INFILL!')
self.advancedList.append(c)
c = configBase.SettingRow(right, "Wall Thickness", 'wall_thickness', '0.3', 'Wall Thickness in mm')
validators.validFloat(c, 0.0)
self.advancedList.append(c)
self.okButton = wx.Button(right, -1, 'Slice')
right.GetSizer().Add(self.okButton, (right.GetSizer().GetRows(), 1))
self.Bind(wx.EVT_BUTTON, lambda e: self.RunSlice(), self.okButton)
self.hideButton = wx.Button(right, -1, 'Hide')
right.GetSizer().Add(self.hideButton, (right.GetSizer().GetRows()+1, 1))
self.Bind(wx.EVT_BUTTON, lambda e: self.HideAdvanced(), self.hideButton)
self.main.Fit()
self.Fit()
def __init__(self, parent):
super(expertConfigWindow, self).__init__(None, title='Debug Settings', style=wx.DEFAULT_DIALOG_STYLE)
wx.EVT_CLOSE(self, self.OnClose)
self.panel = configBase.configPanelBase(self)
self.parent = parent
left, right, main = self.panel.CreateConfigPanel(self)
if platform.system() == 'Windows':
ico = wx.Icon(getPathForImage(_('../suite.ico')), wx.BITMAP_TYPE_ICO)
self.SetIcon(ico)
self.configList = []
configBase.TitleRow(left, "Speed")
# c = configBase.SettingRow(left, "Minimum layer time (seconds) ", 'cool_min_layer_time', '6', 'If a layer would finish too quickly, the print will slow down so it takes this amount of time to finish the layer.')
# self.configList.append(c)
# validators.validFloat(c, 0.0)
c = configBase.SettingRow(left, "Travel Speed (mm/s) ", 'travel_speed', '200', 'How fast the extruder moves while not printing.')
self.configList.append(c)
validators.validFloat(c, 50, 250)
# c = configBase.SettingRow(left, "Bridge Feed (%)", 'bridge_feed_ratio', '100', 'Speed at which layers with bridges travel, compared to normal printing speed.')
# self.configList.append(c)
# validators.validFloat(c, 0.0)
# c = configBase.SettingRow(left, "Bridge Flow (%)", 'bridge_flow_ratio', '105', 'Speed at which layers with bridges are printed, compared to normal printing speed.')
# self.configList.append(c)
# validators.validFloat(c, 0.0)
c = configBase.SettingRow(left, "Perimeter Speed (%)", 'perimeter_speed_ratio', '50', 'Speed at which the perimeter will be printed, compared to the infill.')
self.configList.append(c)
validators.validFloat(c, 10.0, 150.0)
# configBase.TitleRow(left, "Cool")
# c = configBase.SettingRow(left, "Minimum feedrate (mm/s)", 'cool_min_feedrate', '5', 'The minimal layer time can cause the print to slow down so much it starts to ooze. The minimal feedrate protects against this. Even if a print gets slown down it will never be slower then this minimal feedrate.')
# self.configList.append(c)
# validators.validFloat(c, 0.0)
# c = configBase.SettingRow(left, "Fan on layer number (#)", 'fan_layer', '1', 'The layer at which the fan is turned on. The first layer is layer 0. The first layer can stick better if you turn the fan on the 2nd layer.')
# self.configList.append(c)
# validators.validInt(c, 0)
# c = configBase.SettingRow(left, "Fan speed min (%)", 'fan_speed', '100', 'When the fan is turned on, it is enabled at this speed setting. If cool slows down the layer, the fan is adjusted between the min and max speed. Minimal fan speed is used if the layer is not slowed down due to cooling.')
# self.configList.append(c)
# validators.validInt(c, 0, 100)
# c = configBase.SettingRow(left, "Fan speed max (%)", 'fan_speed_max', '100', 'When the fan is turned on, it is enabled at this speed setting. If cool slows down the layer, the fan is adjusted between the min and max speed. Maximal fan speed is used if the layer is slowed down due to cooling by more then 200%.')
# self.configList.append(c)
# validators.validInt(c, 0, 100)
configBase.TitleRow(left, "Skirt")
c = configBase.SettingRow(left, "Skirt line count (#)", 'skirt_line_count', '2', 'The number of loops the print will draw outside the object on the first layer. This is to ensure the filament is flowing well before starting the print.')
self.configList.append(c)
validators.validInt(c, 0, 10)
c = configBase.SettingRow(left, "Skirt gap width (mm)", 'skirt_gap', '2.0', 'How far the skirt will be placed from the actual object.')
self.configList.append(c)
validators.validInt(c, 0, 10)
c = configBase.SettingRow(left, "Brim", 'brim_enable', ['Off', 'Enabled'], 'Generates the skirt touching the object. This helps keep the print from lifting. If this is enabled, skirt settings will not be used.')
c.defaultValue = 'Off'
self.configList.append(c)
c = configBase.SettingRow(left, "Brim Line Count", 'brim_line_count', '5', 'The number of loops that will be generated if Brim is enabled.')
self.configList.append(c)
validators.validInt(c, 0, 20)
# configBase.TitleRow(left, "Size")
# c = configBase.SettingRow(left, "Custom Machine Depth (mm)", 'custom_machine_depth', '200', 'Custom Machine Depth')
# self.configList.append(c)
# validators.validFloat(c, 0)
# c = configBase.SettingRow(left, "Custom Machine Width (mm)", 'custom_machine_width', '200', 'Custom Machine Width')
# self.configList.append(c)
# validators.validFloat(c, 0)
# c = configBase.SettingRow(left, "Custom Machine Height (mm)", 'custom_machine_height', '200', 'Custom Machine Height')
# self.configList.append(c)
# validators.validFloat(c, 0)
# configBase.TitleRow(left, "Material")
# c = configBase.SettingRow(left, "Filament Density (ratio)", 'filament_density', '1', 'Density of the material. 1.0 for PLA. 0.9 for x')
# self.configList.append(c)
# validators.validFloat(c, 0)
# c = configBase.SettingRow(left, "Infill Width (mm)", 'infill_width', '0.4', 'The width of the infill.')
# self.configList.append(c)
# validators.validFloat(c, 0)
# c = configBase.SettingRow(left, "Perimeter flow ", 'perimeter_flow_ratio', '75', 'The flow rate of the perimeter')
# self.configList.append(c)
# validators.validFloat(c, 0)
configBase.TitleRow(left, "Infill")
c = configBase.SettingRow(left, "Infill (%)", 'fill_density', '18', 'How dense the inside of your print will be.')
self.configList.append(c)
validators.validFloat(c, 0, 100)
# c = configBase.SettingRow(left, "Infill overlap (%)", 'fill_overlap', '0', 'Amount of overlap between the infill and the walls. There is a slight overlap with the walls and the infill so the walls connect firmly to the infill.')
# self.configList.append(c)
# validators.validFloat(c, 0.0)
#c = configBase.SettingRow(left, "Enable Brim", 'fan_speed', '100', 'When the fan is turned on, it is enabled at this speed setting. If cool slows down the layer, the fan is adjusted between the min and max speed. Minimal fan speed is used if the layer is not slowed down due to cooling.')
#validators.validInt(c, 0, 100)
#configBase.TitleRow(left, "Raft (if enabled)")
#c = configBase.SettingRow(left, "Extra margin (mm)", 'raft_margin', '3.0', 'If the raft is enabled, this is the extra raft area around the object which is also rafted. Increasing this margin will create a stronger raft.')
#validators.validFloat(c, 0.0)
#c = configBase.SettingRow(left, "Base material amount (%)", 'raft_base_material_amount', '100', 'The base layer is the first layer put down as a raft. This layer has thick strong lines and is put firmly on the bed to prevent warping. This setting adjust the amount of material used for the base layer.')
#validators.validFloat(c, 0.0)
#c = configBase.SettingRow(left, "Interface material amount (%)", 'raft_interface_material_amount', '100', 'The interface layer is a weak thin layer between the base layer and the printed object. It is designed to has little material to make it easy to break the base off the printed object. This setting adjusts the amount of material used for the interface layer.')
#validators.validFloat(c, 0.0)
#configBase.TitleRow(left, "Support")
#c = configBase.SettingRow(left, "Material amount (%)", 'support_rate', '100', 'Amount of material used for support, less material gives a weaker support structure which is easier to remove.')
#validators.validFloat(c, 0.0)
#c = configBase.SettingRow(left, "Distance from object (mm)", 'support_distance', '0.5', 'Distance between the support structure and the object. Empty gap in which no support structure is printed.')
#validators.validFloat(c, 0.0)
configBase.TitleRow(left, "Top/Bottom")
# c = configBase.SettingRow(right, "Infill pattern", 'infill_type', ['Line', 'Grid Circular', 'Grid Hexagonal', 'Grid Rectangular'], 'Pattern of the none-solid infill. Line is default, but grids can provide a strong print.')
# self.configList.append(c)
c = configBase.SettingRow(left, "Bottom surface layers (#) ", 'bottom_surface_thickness_layers', '2', 'Number of solid layers from the bottom of the print.')
self.configList.append(c)
validators.validFloat(c, 0, 6)
c = configBase.SettingRow(left, "Top surface layers (#) ", 'top_surface_thickness_layers', '3', 'Number of solid layers from the top of the print.')
self.configList.append(c)
validators.validFloat(c, 0, 6)
# c = configBase.SettingRow(right, "Infill in direction of bridge", 'bridge_direction', True, 'If this is on, infill will fill in the direction of bridging. This improves bridging but may increase print time.')
# self.configList.append(c)
configBase.TitleRow(right, "Retraction")
c = configBase.SettingRow(right, "Retraction speed (mm/s) ", 'retraction_speed', '80.0', 'How quickly the extruder does a retract command.')
self.configList.append(c)
validators.validFloat(c, 0, 200)
c = configBase.SettingRow(right, "Retraction amount (mm) ", 'retraction_amount', '0.8', 'How much distance the extruder will retract.')
self.configList.append(c)
validators.validFloat(c, 0, 5)
# c = configBase.SettingRow(right, "Retraction extra amount (mm) ", 'retraction_extra', '0.0', 'How much extra the extruder will retract with each retract command.')
# self.configList.append(c)
# validators.validFloat(c, 0)
# configBase.TitleRow(right, "First Layer")
# c = configBase.SettingRow(right, "First layer temperature (#) ", 'first_layer_print_temperature', '220', 'How hot the extruder will print at during the first layer.')
# self.configList.append(c)
# validators.validFloat(c, 0)
#c = configBase.SettingRow(right, "First layer height (mm) ", 'bottom_thickness', '0.2', 'Create a solid top surface, if set to false the top is filled with the fill percentage. Useful for cups/vases.')
#validators.validFloat(c, 0)
# c = configBase.SettingRow(right, "First layer speed (mm/s) ", 'bottom_layer_speed', '30', 'How fast the print will print at during the first layer.')
# self.configList.append(c)
# validators.validFloat(c, 0)
# configBase.TitleRow(right, "Clip")
# c = configBase.SettingRow(right, "Organic Clip", 'organic_clip', False, 'Attempts to hide the start and end points of each layer. Works well with organic shapes.')
# self.configList.append(c)
#c = configBase.SettingRow(right, "Clip (mm)", 'clip', '0.0', 'How close the beginning and the end of a perimeter meet. A higher number increase the distance.')
#self.configList.append(c)
#validators.validFloat(c, 0.0)
configBase.TitleRow(right, "Support")
c = configBase.SettingRow(right, "Support Type", 'support', ['None', 'Exterior Only', 'Everywhere'], 'Where the supports will be generated.')
c.defaultValue = 'None'
self.configList.append(c)
c = configBase.SettingRow(right, "Support Type", 'support_type', ['Lines', 'Grid'], 'What pattern the supports will be generated as. Lines will create single walled supports that are easy to remove. Grid will create a strong cross-hatch pattern but may be difficult to remove.')
c.defaultValue = 'Lines'
self.configList.append(c)
c = configBase.SettingRow(right, "Support Infill (%)", 'support_fill_rate', '20', 'How dense the generated support will be. The higher the number, the more support will be generated.')
self.configList.append(c)
validators.validFloat(c, 0, 100)
c = configBase.SettingRow(right, "Support X/Y Distance (mm)", 'support_xy_distance', '0.6', 'The distance the support will be generated from the X/Y plane.')
self.configList.append(c)
validators.validFloat(c, 0.3, 1)
#validators.validFloat(c, 0)
# c = configBase.SettingRow(right, "Support Density", 'support_density', '0.3', 'How dense the support will be.')
# self.configList.append(c)
# validators.validFloat(c, 0)
c = configBase.SettingRow(right, "Support Angle (degrees)", 'support_angle', '65', 'The minimum angle required for support to be generated')
self.configList.append(c)
validators.validFloat(c, 45, 90)
c = configBase.SettingRow(right, "Extra Support (mm)", 'extra_support_amount', '0', 'Widens generated support to accomodate for thinner parts that need support.')
self.configList.append(c)
validators.validFloat(c, 0, 5)
c = configBase.SettingRow(right, "Support Extrusion Width (mm)", 'support_extrusion_width', '0.3', 'Extrusion width for support material')
self.configList.append(c)
validators.validFloat(c, 0, 1)
#configBase.TitleRow(right, "Sequence")
#c = configBase.SettingRow(right, "Print order sequence", 'sequence', ['Loops > Perimeter > Infill', 'Loops > Infill > Perimeter', 'Infill > Loops > Perimeter', 'Infill > Perimeter > Loops', 'Perimeter > Infill > Loops', 'Perimeter > Loops > Infill'], 'Sequence of printing. The perimeter is the outer print edge, the loops are the insides of the walls, and the infill is the insides.');
#c = configBase.SettingRow(right, "Force first layer sequence", 'force_first_layer_sequence', True, 'This setting forces the order of the first layer to be \'Perimeter > Loops > Infill\'')
#configBase.TitleRow(right, "Joris")
#c = configBase.SettingRow(right, "Joris the outer edge", 'joris', False, '[Joris] is a code name for smoothing out the Z move of the outer edge. This will create a steady Z increase over the whole print. It is intended to be used with a single walled wall thickness to make cups/vases.')
#configBase.TitleRow(right, "Retraction")
#c = configBase.SettingRow(right, "Retract on jumps only", 'retract_on_jumps_only', True, 'Only retract when we are making a move that is over a hole in the model, else retract on every move. This effects print quality in different ways.')
#configBase.TitleRow(right, "Hop")
#c = configBase.SettingRow(right, "Enable hop on move", 'hop_on_move', False, 'When moving from print position to print position, raise the printer head 0.2mm so it does not knock off the print (experimental).')
#def __init__(self, panel, name):
"Add a title row to the configuration panel"
sizer = right.GetSizer()
x = sizer.GetRows()
#self.title = wx.StaticText(right, -1, "ahh")
#self.title.SetFont(wx.Font(wx.SystemSettings.GetFont(wx.SYS_ANSI_VAR_FONT).GetPointSize(), wx.FONTFAMILY_DEFAULT, wx.NORMAL, wx.FONTWEIGHT_BOLD))
#sizer.Add(self.title, (x,0), (1,3), flag=wx.EXPAND|wx.TOP|wx.LEFT, border=10)
self.ln = wx.StaticLine(right, -1)
self.okButton = wx.Button(right, -1, 'Save')
self.okButton2 = wx.Button(right, -1, 'Close')
self.okButton3 = wx.Button(right, -1, 'Reset Debug Settings')
mySizer = wx.GridBagSizer(3, 2)
mySizer.Add(self.okButton, (2,0), (1,1), flag=wx.EXPAND|wx.TOP|wx.RIGHT,border=5)
mySizer.Add(self.okButton2, (2,1), (1,1), flag=wx.EXPAND|wx.TOP|wx.RIGHT,border=5)
mySizer.Add(self.okButton3, (2,2), (1,1), flag=wx.EXPAND|wx.TOP|wx.RIGHT,border=5)
sizer.Add(mySizer, (x,0), (1,3), flag=wx.EXPAND|wx.LEFT,border=10)
sizer.SetRows(x )
#self.ln = wx.StaticLine(panel, -1)
#sizer.SetRows(x + 2)
self.Bind(wx.EVT_BUTTON, lambda e: self.saveAll(), self.okButton) #TODO: have a "settings saved!" message/promt
self.Bind(wx.EVT_BUTTON, lambda e: self.Close(), self.okButton2) #TODO: make a window promt asking to save changes if there are any
self.Bind(wx.EVT_BUTTON, lambda e: self.resetSettings(), self.okButton3) #TODO: make a window promt asking to save changes if there are any
#buttonPanel.SetSizer(sizer)
#sizer.Add(leftConfigPanel, border=35, flag=wx.RIGHT)
#self.okButton = wx.Button(self, -1, 'Ok')
#sizer.Add(self.okButton, (0, 0))
#sizer.Add(right, (1, 0))
#self.okButton2 = wx.Button(left, -1, 'Ok')
#left.GetSizer().Add(self.okButton2, (left.GetSizer().GetRows(), 1))
#self.okButton3 = wx.Button(left, -1, 'Ok')
#left.GetSizer().Add(self.okButton3, (left.GetSizer().GetRows(), 2))
#self.Bind(wx.EVT_BUTTON, lambda e: self.Close(), self.okButton)
main.Fit()
self.Fit()
def __init__(self, parent):
super(normalSettingsPanel, self).__init__(parent)
#Main tabs
self.nb = wx.Notebook(self)
self.SetSizer(wx.BoxSizer(wx.HORIZONTAL))
self.GetSizer().Add(self.nb, 1, wx.EXPAND)
(left, right,
self.printPanel) = self.CreateDynamicConfigTab(self.nb, 'Basic')
configBase.TitleRow(left, "Quality")
c = configBase.SettingRow(
left, "Layer height (mm)", 'layer_height', '0.2',
'Layer height in millimeters.\n0.2 is a good value for quick prints.\n0.1 gives high quality prints.'
)
validators.validFloat(c, 0.0001)
validators.warningAbove(
c, lambda:
(float(profile.getProfileSetting('nozzle_size')) * 80.0 / 100.0),
"Thicker layers then %.2fmm (80%% nozzle size) usually give bad results and are not recommended."
)
c = configBase.SettingRow(
left, "Wall thickness (mm)", 'wall_thickness', '0.8',
'Thickness of the walls.\nThis is used in combination with the nozzle size to define the number\nof perimeter lines and the thickness of those perimeter lines.'
)
validators.validFloat(c, 0.0001)
validators.wallThicknessValidator(c)
c = configBase.SettingRow(
left, "Enable retraction", 'retraction_enable', False,
'Retract the filament when the nozzle is moving over a none-printed area. Details about the retraction can be configured in the advanced tab.'
)
configBase.TitleRow(left, "Fill")
c = configBase.SettingRow(
left, "Bottom/Top thickness (mm)", 'solid_layer_thickness', '0.6',
'This controls the thickness of the bottom and top layers, the amount of solid layers put down is calculated by the layer thickness and this value.\nHaving this value a multiply of the layer thickness makes sense. And keep it near your wall thickness to make an evenly strong part.'
)
validators.validFloat(c, 0.0)
c = configBase.SettingRow(
left, "Fill Density (%)", 'fill_density', '20',
'This controls how densily filled the insides of your print will be. For a solid part use 100%, for an empty part use 0%. A value around 20% is usually enough'
)
validators.validFloat(c, 0.0, 100.0)
configBase.TitleRow(right, "Speed && Temperature")
c = configBase.SettingRow(
right, "Print speed (mm/s)", 'print_speed', '50',
'Speed at which printing happens. A well adjusted Ultimaker can reach 150mm/s, but for good quality prints you want to print slower. Printing speed depends on a lot of factors. So you will be experimenting with optimal settings for this.'
)
validators.validFloat(c, 1.0)
validators.warningAbove(
c, 150.0,
"It is highly unlikely that your machine can achieve a printing speed above 150mm/s"
)
validators.printSpeedValidator(c)
#configBase.TitleRow(right, "Temperature")
c = configBase.SettingRow(
right, "Printing temperature", 'print_temperature', '0',
'Temperature used for printing. Set at 0 to pre-heat yourself')
validators.validFloat(c, 0.0, 340.0)
validators.warningAbove(
c, 260.0,
"Temperatures above 260C could damage your machine, be careful!")
if int(profile.getPreference('extruder_amount')) > 1:
c = configBase.SettingRow(
right, "2nd nozzle temperature", 'print_temperature2', '0',
'Temperature used for printing with the 2nd nozzle. Set at 0 to use the same temperature as for nozzle 1'
)
validators.validFloat(c, 0.0, 340.0)
validators.warningAbove(
c, 260.0,
"Temperatures above 260C could damage your machine, be careful!"
)
if int(profile.getPreference('extruder_amount')) > 2:
c = configBase.SettingRow(
right, "3th nozzle temperature", 'print_temperature3', '0',
'Temperature used for printing with the 3th nozzle. Set at 0 to use the same temperature as for nozzle 1'
)
validators.validFloat(c, 0.0, 340.0)
validators.warningAbove(
c, 260.0,
"Temperatures above 260C could damage your machine, be careful!"
)
if int(profile.getPreference('extruder_amount')) > 3:
c = configBase.SettingRow(
right, "4th nozzle temperature", 'print_temperature4', '0',
'Temperature used for printing with the 4th nozzle. Set at 0 to use the same temperature as for nozzle 1'
)
validators.validFloat(c, 0.0, 340.0)
validators.warningAbove(
c, 260.0,
"Temperatures above 260C could damage your machine, be careful!"
)
if profile.getPreference('has_heated_bed') == 'True':
c = configBase.SettingRow(
right, "Bed temperature", 'print_bed_temperature', '0',
'Temperature used for the heated printer bed. Set at 0 to pre-heat yourself'
)
validators.validFloat(c, 0.0, 340.0)
configBase.TitleRow(right, "Support structure")
c = configBase.SettingRow(
right, "Support type", 'support',
['None', 'Exterior Only', 'Everywhere'],
'Type of support structure build.\n"Exterior only" is the most commonly used support setting.\n\nNone does not do any support.\nExterior only only creates support where the support structure will touch the build platform.\nEverywhere creates support even on the insides of the model.'
)
c = configBase.SettingRow(
right, "Add raft", 'enable_raft', False,
'A raft is a few layers of lines below the bottom of the object. It prevents warping. Full raft settings can be found in the expert settings.\nFor PLA this is usually not required. But if you print with ABS it is almost required.'
)
if int(profile.getPreference('extruder_amount')) > 1:
c = configBase.SettingRow(
right, "Support dual extrusion", 'support_dual_extrusion',
False,
'Print the support material with the 2nd extruder in a dual extrusion setup. The primary extruder will be used for normal material, while the second extruder is used to print support material.'
)
configBase.TitleRow(right, "Filament")
c = configBase.SettingRow(
right, "Diameter (mm)", 'filament_diameter', '2.89',
'Diameter of your filament, as accurately as possible.\nIf you cannot measure this value you will have to calibrate it, a higher number means less extrusion, a smaller number generates more extrusion.'
)
validators.validFloat(c, 1.0)
validators.warningAbove(
c, 3.5,
"Are you sure your filament is that thick? Normal filament is around 3mm or 1.75mm."
)
if int(profile.getPreference('extruder_amount')) > 1:
c = configBase.SettingRow(
right, "Diameter (mm)", 'filament_diameter2', '2.89',
'Diameter of your filament for the 2nd nozzle, as accurately as possible.\nIf you cannot measure this value you will have to calibrate it, a higher number means less extrusion, a smaller number generates more extrusion. Use 0 to use the same diameter as for nozzle 1.'
)
validators.validFloat(c, 0.0)
validators.warningAbove(
c, 3.5,
"Are you sure your filament is that thick? Normal filament is around 3mm or 1.75mm."
)
if int(profile.getPreference('extruder_amount')) > 2:
c = configBase.SettingRow(
right, "Diameter (mm)", 'filament_diameter3', '2.89',
'Diameter of your filament for the 3th nozzle, as accurately as possible.\nIf you cannot measure this value you will have to calibrate it, a higher number means less extrusion, a smaller number generates more extrusion. Use 0 to use the same diameter as for nozzle 1.'
)
validators.validFloat(c, 0.0)
validators.warningAbove(
c, 3.5,
"Are you sure your filament is that thick? Normal filament is around 3mm or 1.75mm."
)
if int(profile.getPreference('extruder_amount')) > 3:
c = configBase.SettingRow(
right, "Diameter (mm)", 'filament_diameter4', '2.89',
'Diameter of your filament for the 4th nozzle, as accurately as possible.\nIf you cannot measure this value you will have to calibrate it, a higher number means less extrusion, a smaller number generates more extrusion. Use 0 to use the same diameter as for nozzle 1.'
)
validators.validFloat(c, 0.0)
validators.warningAbove(
c, 3.5,
"Are you sure your filament is that thick? Normal filament is around 3mm or 1.75mm."
)
c = configBase.SettingRow(
right, "Packing Density", 'filament_density', '1.00',
'Packing density of your filament. This should be 1.00 for PLA and 0.85 for ABS'
)
validators.validFloat(c, 0.5, 1.5)
self.SizeLabelWidths(left, right)
(left, right, self.advancedPanel) = self.CreateDynamicConfigTab(
self.nb, 'Advanced')
configBase.TitleRow(left, "Machine size")
c = configBase.SettingRow(
left, "Nozzle size (mm)", 'nozzle_size', '0.4',
'The nozzle size is very important, this is used to calculate the line width of the infill, and used to calculate the amount of outside wall lines and thickness for the wall thickness you entered in the print settings.'
)
validators.validFloat(c, 0.1, 10.0)
configBase.TitleRow(left, "Skirt")
c = configBase.SettingRow(
left, "Line count", 'skirt_line_count', '1',
'The skirt is a line drawn around the object at the first layer. This helps to prime your extruder, and to see if the object fits on your platform.\nSetting this to 0 will disable the skirt. Multiple skirt lines can help priming your extruder better for small objects.'
)
validators.validInt(c, 0, 10)
c = configBase.SettingRow(
left, "Start distance (mm)", 'skirt_gap', '6.0',
'The distance between the skirt and the first layer.\nThis is the minimal distance, multiple skirt lines will be put outwards from this distance.'
)
validators.validFloat(c, 0.0)
configBase.TitleRow(left, "Retraction")
c = configBase.SettingRow(
left, "Minimum travel (mm)", 'retraction_min_travel', '5.0',
'Minimum amount of travel needed for a retraction to happen at all. To make sure you do not get a lot of retractions in a small area'
)
validators.validFloat(c, 0.0)
c = configBase.SettingRow(
left, "Speed (mm/s)", 'retraction_speed', '40.0',
'Speed at which the filament is retracted, a higher retraction speed works better. But a very high retraction speed can lead to filament grinding.'
)
validators.validFloat(c, 0.1)
c = configBase.SettingRow(
left, "Distance (mm)", 'retraction_amount', '0.0',
'Amount of retraction, set at 0 for no retraction at all. A value of 2.0mm seems to generate good results.'
)
validators.validFloat(c, 0.0)
c = configBase.SettingRow(
left, "Extra length on start (mm)", 'retraction_extra', '0.0',
'Extra extrusion amount when restarting after a retraction, to better "Prime" your extruder after retraction.'
)
validators.validFloat(c, 0.0)
configBase.TitleRow(right, "Speed")
c = configBase.SettingRow(
right, "Travel speed (mm/s)", 'travel_speed', '150',
'Speed at which travel moves are done, a high quality build Ultimaker can reach speeds of 250mm/s. But some machines might miss steps then.'
)
validators.validFloat(c, 1.0)
validators.warningAbove(
c, 300.0,
"It is highly unlikely that your machine can achieve a travel speed above 300mm/s"
)
c = configBase.SettingRow(
right, "Max Z speed (mm/s)", 'max_z_speed', '1.0',
'Speed at which Z moves are done. When you Z axis is properly lubercated you can increase this for less Z blob.'
)
validators.validFloat(c, 0.5)
c = configBase.SettingRow(
right, "Bottom layer speed (mm/s)", 'bottom_layer_speed', '25',
'Print speed for the bottom layer, you want to print the first layer slower so it sticks better to the printer bed.'
)
validators.validFloat(c, 0.0)
configBase.TitleRow(right, "Cool")
c = configBase.SettingRow(
right, "Minimal layer time (sec)", 'cool_min_layer_time', '10',
'Minimum time spend in a layer, gives the layer time to cool down before the next layer is put on top. If the layer will be placed down too fast the printer will slow down to make sure it has spend atleast this amount of seconds printing this layer.'
)
validators.validFloat(c, 0.0)
c = configBase.SettingRow(
right, "Enable cooling fan", 'fan_enabled', True,
'Enable the cooling fan during the print. The extra cooling from the cooling fan is essensial during faster prints.'
)
configBase.TitleRow(right, "Quality")
c = configBase.SettingRow(
right, "Initial layer thickness (mm)", 'bottom_thickness', '0.0',
'Layer thickness of the bottom layer. A thicker bottom layer makes sticking to the bed easier. Set to 0.0 to have the bottom layer thickness the same as the other layers.'
)
validators.validFloat(c, 0.0)
validators.warningAbove(
c, lambda:
(float(profile.getProfileSetting('nozzle_size')) * 3.0 / 4.0),
"A bottom layer of more then %.2fmm (3/4 nozzle size) usually give bad results and is not recommended."
)
c = configBase.SettingRow(
right, "Cut off object bottom (mm)", 'object_sink', '0.00',
'Sinks the object into the platform, this can be used for objects that do not have a flat bottom and thus create a too small first layer.'
)
validators.validFloat(c, 0.0)
configBase.settingNotify(
c,
lambda: self.GetParent().GetParent().GetParent().preview3d.Refresh(
))
c = configBase.SettingRow(
right, "Duplicate outlines", 'enable_skin', False,
'Skin prints the outer lines of the prints twice, each time with half the thickness. This gives the illusion of a higher print quality.'
)
self.SizeLabelWidths(left, right)
#Plugin page
self.pluginPanel = pluginPanel.pluginPanel(self.nb)
if len(self.pluginPanel.pluginList) > 0:
self.nb.AddPage(self.pluginPanel, "Plugins")
else:
self.pluginPanel.Show(False)
#Alteration page
self.alterationPanel = alterationPanel.alterationPanel(self.nb)
self.nb.AddPage(self.alterationPanel, "Start/End-GCode")
self.Bind(wx.EVT_SIZE, self.OnSize)
self.nb.SetSize(self.GetSize())
self.UpdateSize(self.printPanel)
self.UpdateSize(self.advancedPanel)
def __init__(self, parent):
super(preferencesDialog, self).__init__(None,
title="Preferences",
style=wx.DEFAULT_DIALOG_STYLE)
wx.EVT_CLOSE(self, self.OnClose)
self.parent = parent
self.oldExtruderAmount = int(profile.getPreference('extruder_amount'))
self.panel = configBase.configPanelBase(self)
left, right, main = self.panel.CreateConfigPanel(self)
configBase.TitleRow(left, 'Machine settings')
c = configBase.SettingRow(left,
'Steps per E',
'steps_per_e',
'0',
'Amount of steps per mm filament extrusion',
type='preference')
validators.validFloat(c, 0.1)
c = configBase.SettingRow(left,
'Maximum width (mm)',
'machine_width',
'205',
'Size of the machine in mm',
type='preference')
validators.validFloat(c, 10.0)
c = configBase.SettingRow(left,
'Maximum depth (mm)',
'machine_depth',
'205',
'Size of the machine in mm',
type='preference')
validators.validFloat(c, 10.0)
c = configBase.SettingRow(left,
'Maximum height (mm)',
'machine_height',
'200',
'Size of the machine in mm',
type='preference')
validators.validFloat(c, 10.0)
c = configBase.SettingRow(left,
'Extruder count',
'extruder_amount', ['1', '2', '3', '4'],
'Amount of extruders in your machine.',
type='preference')
c = configBase.SettingRow(
left,
'Heated bed',
'has_heated_bed',
False,
'If you have an heated bed, this enabled heated bed settings',
type='preference')
for i in xrange(1, self.oldExtruderAmount):
configBase.TitleRow(left, 'Extruder %d' % (i + 1))
c = configBase.SettingRow(
left,
'Offset X',
'extruder_offset_x%d' % (i),
'0.0',
'The offset of your secondary extruder compared to the primary.',
type='preference')
validators.validFloat(c)
c = configBase.SettingRow(
left,
'Offset Y',
'extruder_offset_y%d' % (i),
'0.0',
'The offset of your secondary extruder compared to the primary.',
type='preference')
validators.validFloat(c)
configBase.TitleRow(left, 'Colours')
c = configBase.SettingRow(left,
'Model colour',
'model_colour',
wx.Colour(0, 0, 0),
'',
type='preference')
for i in xrange(1, self.oldExtruderAmount):
c = configBase.SettingRow(left,
'Model colour (%d)' % (i + 1),
'model_colour%d' % (i + 1),
wx.Colour(0, 0, 0),
'',
type='preference')
configBase.TitleRow(right, 'Filament settings')
c = configBase.SettingRow(
right,
'Density (kg/m3)',
'filament_density',
'1300',
'Weight of the filament per m3. Around 1300 for PLA. And around 1040 for ABS. This value is used to estimate the weight if the filament used for the print.',
type='preference')
validators.validFloat(c, 500.0, 3000.0)
c = configBase.SettingRow(
right,
'Cost (price/kg)',
'filament_cost_kg',
'0',
'Cost of your filament per kg, to estimate the cost of the final print.',
type='preference')
validators.validFloat(c, 0.0)
c = configBase.SettingRow(
right,
'Cost (price/m)',
'filament_cost_meter',
'0',
'Cost of your filament per meter, to estimate the cost of the final print.',
type='preference')
validators.validFloat(c, 0.0)
configBase.TitleRow(right, 'Communication settings')
c = configBase.SettingRow(
right,
'Serial port',
'serial_port', ['AUTO'] + machineCom.serialList(),
'Serial port to use for communication with the printer',
type='preference')
c = configBase.SettingRow(
right,
'Baudrate',
'serial_baud', ['AUTO'] + map(str, machineCom.baudrateList()),
'Speed of the serial port communication\nNeeds to match your firmware settings\nCommon values are 250000, 115200, 57600',
type='preference')
configBase.TitleRow(right, 'Slicer settings')
#c = configBase.SettingRow(right, 'Slicer selection', 'slicer', ['Cura (Skeinforge based)', 'Slic3r'], 'Which slicer to use to slice objects. Usually the Cura engine produces the best results. But Slic3r is developing fast and is faster with slicing.', type = 'preference')
c = configBase.SettingRow(
right,
'Save profile on slice',
'save_profile',
False,
'When slicing save the profile as [stl_file]_profile.ini next to the model.',
type='preference')
configBase.TitleRow(right, 'SD Card settings')
if len(profile.getSDcardDrives()) > 1:
c = configBase.SettingRow(
right,
'SD card drive',
'sdpath',
profile.getSDcardDrives(),
'Location of your SD card, when using the copy to SD feature.',
type='preference')
else:
c = configBase.SettingRow(
right,
'SD card path',
'sdpath',
'',
'Location of your SD card, when using the copy to SD feature.',
type='preference')
c = configBase.SettingRow(
right,
'Copy to SD with 8.3 names',
'sdshortnames',
False,
'Save the gcode files in short filenames, so they are properly shown on the UltiController',
type='preference')
configBase.TitleRow(right, 'Cura settings')
c = configBase.SettingRow(
right,
'Check for updates',
'check_for_updates',
True,
'Check for newer versions of Cura on startup',
type='preference')
c = configBase.SettingRow(right,
'Prompt for filename',
'filename_prompt',
False,
'Prompt for a filename when saving files',
type='preference')
c = configBase.SettingRow(
right,
'Prompt on overwrite file',
'file_overwrite_prompt',
False,
'Prompt for overwrite when output file already exits',
type='preference')
self.okButton = wx.Button(right, -1, 'Ok')
right.GetSizer().Add(self.okButton, (right.GetSizer().GetRows(), 0),
flag=wx.BOTTOM,
border=5)
self.okButton.Bind(wx.EVT_BUTTON, self.OnClose)
self.MakeModal(True)
main.Fit()
self.Fit()
def __init__(self): super(expertConfigWindow, self).__init__(None, title='Expert config', style=wx.DEFAULT_DIALOG_STYLE) wx.EVT_CLOSE(self, self.OnClose) self.panel = configBase.configPanelBase(self) left, right, main = self.panel.CreateConfigPanel(self) configBase.TitleRow(left, "Accuracy") c = configBase.SettingRow(left, "Extra Wall thickness for bottom/top (mm)", 'extra_base_wall_thickness', '0.0', 'Additional wall thickness of the bottom and top layers.') validators.validFloat(c, 0.0) configBase.TitleRow(left, "Cool") c = configBase.SettingRow(left, "Minimum feedrate (mm/s)", 'cool_min_feedrate', '5', 'The minimal layer time can cause the print to slow down so much it starts to ooze. The minimal feedrate protects against this. Even if a print gets slown down it will never be slower then this minimal feedrate.') validators.validFloat(c, 0.0) c = configBase.SettingRow(left, "Fan on layer number", 'fan_layer', '0', 'The layer at which the fan is turned on. The first layer is layer 0. The first layer can stick better if you turn on the fan on, on the 2nd layer.') validators.validInt(c, 0) c = configBase.SettingRow(left, "Fan speed min (%)", 'fan_speed', '100', 'When the fan is turned on, it is enabled at this speed setting. If cool slows down the layer, the fan is adjusted between the min and max speed. Minimal fan speed is used if the layer is not slowed down due to cooling.') validators.validInt(c, 0, 100) c = configBase.SettingRow(left, "Fan speed max (%)", 'fan_speed_max', '100', 'When the fan is turned on, it is enabled at this speed setting. If cool slows down the layer, the fan is adjusted between the min and max speed. Maximal fan speed is used if the layer is slowed down due to cooling by more then 200%.') validators.validInt(c, 0, 100) configBase.TitleRow(left, "Raft (if enabled)") c = configBase.SettingRow(left, "Extra margin (mm)", 'raft_margin', '3.0', 'If the raft is enabled, this is the extra raft area around the object which is also rafted. Increasing this margin will create a stronger raft.') validators.validFloat(c, 0.0) c = configBase.SettingRow(left, "Base material amount (%)", 'raft_base_material_amount', '100', 'The base layer is the first layer put down as a raft. This layer has thick strong lines and is put firmly on the bed to prevent warping. This setting adjust the amount of material used for the base layer.') validators.validFloat(c, 0.0) c = configBase.SettingRow(left, "Interface material amount (%)", 'raft_interface_material_amount', '100', 'The interface layer is a weak thin layer between the base layer and the printed object. It is designed to has little material to make it easy to break the base off the printed object. This setting adjusts the amount of material used for the interface layer.') validators.validFloat(c, 0.0) configBase.TitleRow(left, "Support") c = configBase.SettingRow(left, "Material amount (%)", 'support_rate', '100', 'Amount of material used for support, less material gives a weaker support structure which is easier to remove.') validators.validFloat(c, 0.0) c = configBase.SettingRow(left, "Distance from object (mm)", 'support_distance', '0.5', 'Distance between the support structure and the object. Empty gap in which no support structure is printed.') validators.validFloat(c, 0.0) configBase.TitleRow(right, "Infill") c = configBase.SettingRow(right, "Infill pattern", 'infill_type', ['Line', 'Grid Circular', 'Grid Hexagonal', 'Grid Rectangular'], 'Pattern of the none-solid infill. Line is default, but grids can provide a strong print.') c = configBase.SettingRow(right, "Solid infill top", 'solid_top', True, 'Create a solid top surface, if set to false the top is filled with the fill percentage. Useful for cups/vases.') c = configBase.SettingRow(right, "Infill overlap (%)", 'fill_overlap', '15', 'Amount of overlap between the infill and the walls. There is a slight overlap with the walls and the infill so the walls connect firmly to the infill.') validators.validFloat(c, 0.0) configBase.TitleRow(right, "Bridge") c = configBase.SettingRow(right, "Bridge speed (%)", 'bridge_speed', '100', 'Speed at which layers with bridges are printed, compared to normal printing speed.') validators.validFloat(c, 0.0) configBase.TitleRow(right, "Sequence") c = configBase.SettingRow(right, "Print order sequence", 'sequence', ['Loops > Perimeter > Infill', 'Loops > Infill > Perimeter', 'Infill > Loops > Perimeter', 'Infill > Perimeter > Loops', 'Perimeter > Infill > Loops', 'Perimeter > Loops > Infill'], 'Sequence of printing. The perimeter is the outer print edge, the loops are the insides of the walls, and the infill is the insides.'); c = configBase.SettingRow(right, "Force first layer sequence", 'force_first_layer_sequence', True, 'This setting forces the order of the first layer to be \'Perimeter > Loops > Infill\'') configBase.TitleRow(right, "Joris") c = configBase.SettingRow(right, "Joris the outer edge", 'joris', False, '[Joris] is a code name for smoothing out the Z move of the outer edge. This will create a steady Z increase over the whole print. It is intended to be used with a single walled wall thickness to make cups/vases.') configBase.TitleRow(right, "Retraction") c = configBase.SettingRow(right, "Retract on jumps only", 'retract_on_jumps_only', True, 'Only retract when we are making a move that is over a hole in the model, else retract on every move. This effects print quality in different ways.') configBase.TitleRow(right, "Hop") c = configBase.SettingRow(right, "Enable hop on move", 'hop_on_move', False, 'When moving from print position to print position, raise the printer head 0.2mm so it does not knock off the print (experimental).') main.Fit() self.Fit()
def __init__(self, parent):
super(preferencesDialog, self).__init__(
None, title="Project Planner Preferences", style=wx.DEFAULT_DIALOG_STYLE
)
self.parent = parent
wx.EVT_CLOSE(self, self.OnClose)
self.panel = configBase.configPanelBase(self)
extruderAmount = int(profile.getPreference("extruder_amount"))
left, right, main = self.panel.CreateConfigPanel(self)
configBase.TitleRow(left, "User interface settings")
c = configBase.SettingRow(
left,
"Always auto place objects in planner",
"planner_always_autoplace",
True,
"Disable this to allow manual placement in the project planner (requires restart).",
type="preference",
)
configBase.TitleRow(left, "Machine head size")
c = configBase.SettingRow(
left,
"Head size - X towards home (mm)",
"extruder_head_size_min_x",
"0",
"Size of your printer head in the X direction, on the Ultimaker your fan is in this direction.",
type="preference",
)
validators.validFloat(c, 0.1)
c = configBase.SettingRow(
left,
"Head size - X towards end (mm)",
"extruder_head_size_max_x",
"0",
"Size of your printer head in the X direction.",
type="preference",
)
validators.validFloat(c, 0.1)
c = configBase.SettingRow(
left,
"Head size - Y towards home (mm)",
"extruder_head_size_min_y",
"0",
"Size of your printer head in the Y direction.",
type="preference",
)
validators.validFloat(c, 0.1)
c = configBase.SettingRow(
left,
"Head size - Y towards end (mm)",
"extruder_head_size_max_y",
"0",
"Size of your printer head in the Y direction.",
type="preference",
)
validators.validFloat(c, 0.1)
c = configBase.SettingRow(
left,
"Head gantry height (mm)",
"extruder_head_size_height",
"0",
"The tallest object height that will always fit under your printers gantry system when the printer head is at the lowest Z position.",
type="preference",
)
validators.validFloat(c)
self.okButton = wx.Button(left, -1, "Ok")
left.GetSizer().Add(self.okButton, (left.GetSizer().GetRows(), 1))
self.okButton.Bind(wx.EVT_BUTTON, self.OnClose)
self.MakeModal(True)
main.Fit()
self.Fit()
def __init__(self, parent):
super(preferencesDialog,
self).__init__(None,
title="Project Planner Preferences",
style=wx.DEFAULT_DIALOG_STYLE)
self.parent = parent
wx.EVT_CLOSE(self, self.OnClose)
self.panel = configBase.configPanelBase(self)
extruderAmount = int(profile.getPreference('extruder_amount'))
left, right, main = self.panel.CreateConfigPanel(self)
configBase.TitleRow(left, 'User interface settings')
c = configBase.SettingRow(
left,
'Always auto place objects in planner',
'planner_always_autoplace',
True,
'Disable this to allow manual placement in the project planner (requires restart).',
type='preference')
configBase.TitleRow(left, 'Machine head size')
c = configBase.SettingRow(
left,
'Head size - X towards home (mm)',
'extruder_head_size_min_x',
'0',
'Size of your printer head in the X direction, on the Ultimaker your fan is in this direction.',
type='preference')
validators.validFloat(c, 0.1)
c = configBase.SettingRow(
left,
'Head size - X towards end (mm)',
'extruder_head_size_max_x',
'0',
'Size of your printer head in the X direction.',
type='preference')
validators.validFloat(c, 0.1)
c = configBase.SettingRow(
left,
'Head size - Y towards home (mm)',
'extruder_head_size_min_y',
'0',
'Size of your printer head in the Y direction.',
type='preference')
validators.validFloat(c, 0.1)
c = configBase.SettingRow(
left,
'Head size - Y towards end (mm)',
'extruder_head_size_max_y',
'0',
'Size of your printer head in the Y direction.',
type='preference')
validators.validFloat(c, 0.1)
c = configBase.SettingRow(
left,
'Head gantry height (mm)',
'extruder_head_size_height',
'0',
'The tallest object height that will always fit under your printers gantry system when the printer head is at the lowest Z position.',
type='preference')
validators.validFloat(c)
self.okButton = wx.Button(left, -1, 'Ok')
left.GetSizer().Add(self.okButton, (left.GetSizer().GetRows(), 1))
self.okButton.Bind(wx.EVT_BUTTON, self.OnClose)
self.MakeModal(True)
main.Fit()
self.Fit()
def __init__(self):
super(mainWindow, self).__init__(title='Cura - ' + version.getVersion())
extruderCount = int(profile.getPreference('extruder_amount'))
wx.EVT_CLOSE(self, self.OnClose)
#self.SetIcon(icon.getMainIcon())
self.SetDropTarget(dropTarget.FileDropTarget(self.OnDropFiles, meshLoader.supportedExtensions()))
menubar = wx.MenuBar()
fileMenu = wx.Menu()
i = fileMenu.Append(-1, 'Load model file...\tCTRL+L')
self.Bind(wx.EVT_MENU, lambda e: self._showModelLoadDialog(1), i)
i = fileMenu.Append(-1, 'Prepare print...\tCTRL+R')
self.Bind(wx.EVT_MENU, self.OnSlice, i)
i = fileMenu.Append(-1, 'Print...\tCTRL+P')
self.Bind(wx.EVT_MENU, self.OnPrint, i)
fileMenu.AppendSeparator()
i = fileMenu.Append(-1, 'Open Profile...')
self.Bind(wx.EVT_MENU, self.OnLoadProfile, i)
i = fileMenu.Append(-1, 'Save Profile...')
self.Bind(wx.EVT_MENU, self.OnSaveProfile, i)
i = fileMenu.Append(-1, 'Load Profile from GCode...')
self.Bind(wx.EVT_MENU, self.OnLoadProfileFromGcode, i)
fileMenu.AppendSeparator()
i = fileMenu.Append(-1, 'Reset Profile to default')
self.Bind(wx.EVT_MENU, self.OnResetProfile, i)
fileMenu.AppendSeparator()
i = fileMenu.Append(-1, 'Preferences...\tCTRL+,')
self.Bind(wx.EVT_MENU, self.OnPreferences, i)
fileMenu.AppendSeparator()
i = fileMenu.Append(wx.ID_EXIT, 'Quit')
self.Bind(wx.EVT_MENU, self.OnQuit, i)
menubar.Append(fileMenu, '&File')
toolsMenu = wx.Menu()
i = toolsMenu.Append(-1, 'Switch to Quickprint...')
self.Bind(wx.EVT_MENU, self.OnSimpleSwitch, i)
toolsMenu.AppendSeparator()
i = toolsMenu.Append(-1, 'Batch run...')
self.Bind(wx.EVT_MENU, self.OnBatchRun, i)
i = toolsMenu.Append(-1, 'Project planner...')
self.Bind(wx.EVT_MENU, self.OnProjectPlanner, i)
# i = toolsMenu.Append(-1, 'Open SVG (2D) slicer...')
# self.Bind(wx.EVT_MENU, self.OnSVGSlicerOpen, i)
menubar.Append(toolsMenu, 'Tools')
expertMenu = wx.Menu()
i = expertMenu.Append(-1, 'Open expert settings...')
self.Bind(wx.EVT_MENU, self.OnExpertOpen, i)
expertMenu.AppendSeparator()
if firmwareInstall.getDefaultFirmware() != None:
i = expertMenu.Append(-1, 'Install default Marlin firmware')
self.Bind(wx.EVT_MENU, self.OnDefaultMarlinFirmware, i)
i = expertMenu.Append(-1, 'Install custom firmware')
self.Bind(wx.EVT_MENU, self.OnCustomFirmware, i)
expertMenu.AppendSeparator()
i = expertMenu.Append(-1, 'ReRun first run wizard...')
self.Bind(wx.EVT_MENU, self.OnFirstRunWizard, i)
menubar.Append(expertMenu, 'Expert')
helpMenu = wx.Menu()
i = helpMenu.Append(-1, 'Online documentation...')
self.Bind(wx.EVT_MENU, lambda e: webbrowser.open('http://daid.github.com/Cura'), i)
i = helpMenu.Append(-1, 'Report a problem...')
self.Bind(wx.EVT_MENU, lambda e: webbrowser.open('https://github.com/daid/Cura/issues'), i)
menubar.Append(helpMenu, 'Help')
self.SetMenuBar(menubar)
if profile.getPreference('lastFile') != '':
self.filelist = profile.getPreference('lastFile').split(';')
self.SetTitle('Cura - %s - %s' % (version.getVersion(), self.filelist[-1]))
else:
self.filelist = []
self.progressPanelList = []
#Preview window
self.preview3d = preview3d.previewPanel(self)
#Main tabs
nb = wx.Notebook(self)
(left, right) = self.CreateConfigTab(nb, 'Print config')
configBase.TitleRow(left, "Quality")
c = configBase.SettingRow(left, "Layer height (mm)", 'layer_height', '0.2', 'Layer height in millimeters.\n0.2 is a good value for quick prints.\n0.1 gives high quality prints.')
validators.validFloat(c, 0.0001)
validators.warningAbove(c, lambda : (float(profile.getProfileSetting('nozzle_size')) * 80.0 / 100.0), "Thicker layers then %.2fmm (80%% nozzle size) usually give bad results and are not recommended.")
c = configBase.SettingRow(left, "Wall thickness (mm)", 'wall_thickness', '0.8', 'Thickness of the walls.\nThis is used in combination with the nozzle size to define the number\nof perimeter lines and the thickness of those perimeter lines.')
validators.validFloat(c, 0.0001)
validators.wallThicknessValidator(c)
c = configBase.SettingRow(left, "Enable retraction", 'retraction_enable', False, 'Retract the filament when the nozzle is moving over a none-printed area. Details about the retraction can be configured in the advanced tab.')
configBase.TitleRow(left, "Fill")
c = configBase.SettingRow(left, "Bottom/Top thickness (mm)", 'solid_layer_thickness', '0.6', 'This controls the thickness of the bottom and top layers, the amount of solid layers put down is calculated by the layer thickness and this value.\nHaving this value a multiply of the layer thickness makes sense. And keep it near your wall thickness to make an evenly strong part.')
validators.validFloat(c, 0.0)
c = configBase.SettingRow(left, "Fill Density (%)", 'fill_density', '20', 'This controls how densily filled the insides of your print will be. For a solid part use 100%, for an empty part use 0%. A value around 20% is usually enough')
validators.validFloat(c, 0.0, 100.0)
configBase.TitleRow(right, "Speed && Temperature")
c = configBase.SettingRow(right, "Print speed (mm/s)", 'print_speed', '50', 'Speed at which printing happens. A well adjusted Ultimaker can reach 150mm/s, but for good quality prints you want to print slower. Printing speed depends on a lot of factors. So you will be experimenting with optimal settings for this.')
validators.validFloat(c, 1.0)
validators.warningAbove(c, 150.0, "It is highly unlikely that your machine can achieve a printing speed above 150mm/s")
validators.printSpeedValidator(c)
#configBase.TitleRow(right, "Temperature")
c = configBase.SettingRow(right, "Printing temperature", 'print_temperature', '0', 'Temperature used for printing. Set at 0 to pre-heat yourself')
validators.validFloat(c, 0.0, 340.0)
validators.warningAbove(c, 260.0, "Temperatures above 260C could damage your machine, be careful!")
if profile.getPreference('has_heated_bed') == 'True':
c = configBase.SettingRow(right, "Bed temperature", 'print_bed_temperature', '0', 'Temperature used for the heated printer bed. Set at 0 to pre-heat yourself')
validators.validFloat(c, 0.0, 340.0)
configBase.TitleRow(right, "Support structure")
c = configBase.SettingRow(right, "Support type", 'support', ['None', 'Exterior Only', 'Everywhere'], 'Type of support structure build.\n"Exterior only" is the most commonly used support setting.\n\nNone does not do any support.\nExterior only only creates support where the support structure will touch the build platform.\nEverywhere creates support even on the insides of the model.')
c = configBase.SettingRow(right, "Add raft", 'enable_raft', False, 'A raft is a few layers of lines below the bottom of the object. It prevents warping. Full raft settings can be found in the expert settings.\nFor PLA this is usually not required. But if you print with ABS it is almost required.')
if extruderCount > 1:
c = configBase.SettingRow(right, "Support dual extrusion", 'support_dual_extrusion', False, 'Print the support material with the 2nd extruder in a dual extrusion setup. The primary extruder will be used for normal material, while the second extruder is used to print support material.')
configBase.TitleRow(right, "Filament")
c = configBase.SettingRow(right, "Diameter (mm)", 'filament_diameter', '2.89', 'Diameter of your filament, as accurately as possible.\nIf you cannot measure this value you will have to callibrate it, a higher number means less extrusion, a smaller number generates more extrusion.')
validators.validFloat(c, 1.0)
validators.warningAbove(c, 3.5, "Are you sure your filament is that thick? Normal filament is around 3mm or 1.75mm.")
c = configBase.SettingRow(right, "Packing Density", 'filament_density', '1.00', 'Packing density of your filament. This should be 1.00 for PLA and 0.85 for ABS')
validators.validFloat(c, 0.5, 1.5)
(left, right) = self.CreateConfigTab(nb, 'Advanced config')
configBase.TitleRow(left, "Machine size")
c = configBase.SettingRow(left, "Nozzle size (mm)", 'nozzle_size', '0.4', 'The nozzle size is very important, this is used to calculate the line width of the infill, and used to calculate the amount of outside wall lines and thickness for the wall thickness you entered in the print settings.')
validators.validFloat(c, 0.1, 10.0)
configBase.TitleRow(left, "Skirt")
c = configBase.SettingRow(left, "Line count", 'skirt_line_count', '1', 'The skirt is a line drawn around the object at the first layer. This helps to prime your extruder, and to see if the object fits on your platform.\nSetting this to 0 will disable the skirt. Multiple skirt lines can help priming your extruder better for small objects.')
validators.validInt(c, 0, 10)
c = configBase.SettingRow(left, "Start distance (mm)", 'skirt_gap', '6.0', 'The distance between the skirt and the first layer.\nThis is the minimal distance, multiple skirt lines will be put outwards from this distance.')
validators.validFloat(c, 0.0)
configBase.TitleRow(left, "Retraction")
c = configBase.SettingRow(left, "Minimum travel (mm)", 'retraction_min_travel', '5.0', 'Minimum amount of travel needed for a retraction to happen at all. To make sure you do not get a lot of retractions in a small area')
validators.validFloat(c, 0.0)
c = configBase.SettingRow(left, "Speed (mm/s)", 'retraction_speed', '40.0', 'Speed at which the filament is retracted, a higher retraction speed works better. But a very high retraction speed can lead to filament grinding.')
validators.validFloat(c, 0.1)
c = configBase.SettingRow(left, "Distance (mm)", 'retraction_amount', '0.0', 'Amount of retraction, set at 0 for no retraction at all. A value of 2.0mm seems to generate good results.')
validators.validFloat(c, 0.0)
c = configBase.SettingRow(left, "Extra length on start (mm)", 'retraction_extra', '0.0', 'Extra extrusion amount when restarting after a retraction, to better "Prime" your extruder after retraction.')
validators.validFloat(c, 0.0)
configBase.TitleRow(right, "Speed")
c = configBase.SettingRow(right, "Travel speed (mm/s)", 'travel_speed', '150', 'Speed at which travel moves are done, a high quality build Ultimaker can reach speeds of 250mm/s. But some machines might miss steps then.')
validators.validFloat(c, 1.0)
validators.warningAbove(c, 300.0, "It is highly unlikely that your machine can achieve a travel speed above 300mm/s")
c = configBase.SettingRow(right, "Max Z speed (mm/s)", 'max_z_speed', '1.0', 'Speed at which Z moves are done. When you Z axis is properly lubercated you can increase this for less Z blob.')
validators.validFloat(c, 0.5)
c = configBase.SettingRow(right, "Bottom layer speed (mm/s)", 'bottom_layer_speed', '25', 'Print speed for the bottom layer, you want to print the first layer slower so it sticks better to the printer bed.')
validators.validFloat(c, 0.0)
configBase.TitleRow(right, "Cool")
c = configBase.SettingRow(right, "Minimal layer time (sec)", 'cool_min_layer_time', '10', 'Minimum time spend in a layer, gives the layer time to cool down before the next layer is put on top. If the layer will be placed down too fast the printer will slow down to make sure it has spend atleast this amount of seconds printing this layer.')
validators.validFloat(c, 0.0)
c = configBase.SettingRow(right, "Enable cooling fan", 'fan_enabled', True, 'Enable the cooling fan during the print. The extra cooling from the cooling fan is essensial during faster prints.')
configBase.TitleRow(right, "Quality")
c = configBase.SettingRow(right, "Initial layer thickness (mm)", 'bottom_thickness', '0.0', 'Layer thickness of the bottom layer. A thicker bottom layer makes sticking to the bed easier. Set to 0.0 to have the bottom layer thickness the same as the other layers.')
validators.validFloat(c, 0.0)
validators.warningAbove(c, lambda : (float(profile.getProfileSetting('nozzle_size')) * 3.0 / 4.0), "A bottom layer of more then %.2fmm (3/4 nozzle size) usually give bad results and is not recommended.")
c = configBase.SettingRow(right, "Duplicate outlines", 'enable_skin', False, 'Skin prints the outer lines of the prints twice, each time with half the thickness. This gives the illusion of a higher print quality.')
#Plugin page
self.pluginPanel = pluginPanel.pluginPanel(nb)
if len(self.pluginPanel.pluginList) > 0:
nb.AddPage(self.pluginPanel, "Plugins")
else:
self.pluginPanel.Show(False)
#Alteration page
self.alterationPanel = alterationPanel.alterationPanel(nb)
nb.AddPage(self.alterationPanel, "Start/End-GCode")
# load and slice buttons.
loadButton = wx.Button(self, -1, '&Load model')
sliceButton = wx.Button(self, -1, 'P&repare print')
printButton = wx.Button(self, -1, '&Print')
self.Bind(wx.EVT_BUTTON, lambda e: self._showModelLoadDialog(1), loadButton)
self.Bind(wx.EVT_BUTTON, self.OnSlice, sliceButton)
self.Bind(wx.EVT_BUTTON, self.OnPrint, printButton)
if extruderCount > 1:
loadButton2 = wx.Button(self, -1, 'Load Dual')
self.Bind(wx.EVT_BUTTON, lambda e: self._showModelLoadDialog(2), loadButton2)
if extruderCount > 2:
loadButton3 = wx.Button(self, -1, 'Load Triple')
self.Bind(wx.EVT_BUTTON, lambda e: self._showModelLoadDialog(3), loadButton3)
if extruderCount > 3:
loadButton4 = wx.Button(self, -1, 'Load Quad')
self.Bind(wx.EVT_BUTTON, lambda e: self._showModelLoadDialog(4), loadButton4)
#Also bind double clicking the 3D preview to load an STL file.
self.preview3d.glCanvas.Bind(wx.EVT_LEFT_DCLICK, lambda e: self._showModelLoadDialog(1), self.preview3d.glCanvas)
#Main sizer, to position the preview window, buttons and tab control
sizer = wx.GridBagSizer()
self.SetSizer(sizer)
sizer.Add(nb, (0,0), span=(1,1), flag=wx.EXPAND)
sizer.Add(self.preview3d, (0,1), span=(1,2+extruderCount), flag=wx.EXPAND)
sizer.AddGrowableCol(2 + extruderCount)
sizer.AddGrowableRow(0)
sizer.Add(loadButton, (1,1), flag=wx.RIGHT|wx.BOTTOM|wx.TOP, border=5)
if extruderCount > 1:
sizer.Add(loadButton2, (1,2), flag=wx.RIGHT|wx.BOTTOM|wx.TOP, border=5)
if extruderCount > 2:
sizer.Add(loadButton3, (1,3), flag=wx.RIGHT|wx.BOTTOM|wx.TOP, border=5)
if extruderCount > 3:
sizer.Add(loadButton4, (1,4), flag=wx.RIGHT|wx.BOTTOM|wx.TOP, border=5)
sizer.Add(sliceButton, (1,1+extruderCount), flag=wx.RIGHT|wx.BOTTOM|wx.TOP, border=5)
sizer.Add(printButton, (1,2+extruderCount), flag=wx.RIGHT|wx.BOTTOM|wx.TOP, border=5)
self.sizer = sizer
if len(self.filelist) > 0:
self.preview3d.loadModelFiles(self.filelist)
self.updateProfileToControls()
self.SetBackgroundColour(nb.GetBackgroundColour())
self.Fit()
if wx.Display().GetClientArea().GetWidth() < self.GetSize().GetWidth():
f = self.GetSize().GetWidth() - wx.Display().GetClientArea().GetWidth()
self.preview3d.SetMinSize(self.preview3d.GetMinSize().DecBy(f, 0))
self.Fit()
self.preview3d.Fit()
self.SetMinSize(self.GetSize())
self.Centre()
self.Show(True)
