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# Touchy is Copyright (c) 2009 Chris Radek <chris@timeguy.com>
#
# Touchy is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 2 of the License, or
# (at your option) any later version.
#
# Touchy is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
# self.mcodes = (0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 30, 48, 49, 50, 51,
# 52, 53, 60, 61, 62, 63, 64, 65, 66, 67, 68)
#
# self.gcodes = (0, 10, 20, 30, 40, 50, 51, 52, 53, 70, 80, 100,
# 170, 171, 180, 181, 190, 191, 200, 210, 280, 281,
# 300, 301, 330, 331, 382, 383, 384, 385, 400, 410,
# 411, 420, 421, 430, 431, 490, 530, 540, 550, 560,
# 570, 580, 590, 591, 592, 593, 610, 611, 640, 730,
# 760, 800, 810, 820, 830, 840, 850, 860, 870, 880,
# 890, 900, 901, 910, 911, 920, 921, 922, 923, 930,
# 940, 950, 960, 970, 980, 990)
class mdi:
def __init__(self, emc):
self.clear()
self.emc = emc
self.emcstat = emc.stat()
self.emccommand = emc.command()
self.emcstat.poll()
am = self.emcstat.axis_mask
self.axes = []
self.polar = 0
axisnames = ['X', 'Y', 'Z', 'A', 'B', 'C', 'U', 'V', 'W']
for i in range(9):
if am & (1<<i):
self.axes.append(axisnames[i])
self.gcode = 'M2'
self.codes = {
'M3' : [_('Spindle CW'), 'S'],
'M4' : [_('Spindle CCW'), 'S'],
'M6' : [_('Tool change'), 'T'],
'M66' : [_('Input control'), 'P', 'E', 'L', 'Q'],
# 'A' means 'the axes'
'G0' : [_('Straight rapid'), 'A'],
'G00' : [_('Straight rapid'), 'A'],
'G1' : [_('Straight feed'), 'A', 'F'],
'G01' : [_('Straight feed'), 'A', 'F'],
'G2' : [_('Arc CW'), 'A', 'I', 'J', 'K', 'R', 'F'],
'G02' : [_('Arc CW'), 'A', 'I', 'J', 'K', 'R', 'F'],
'G3' : [_('Arc CCW'), 'A', 'I', 'J', 'K', 'R', 'F'],
'G03' : [_('Arc CCW'), 'A', 'I', 'J', 'K', 'R', 'F'],
'G4' : [_('Dwell'), 'P'],
'G04' : [_('Dwell'), 'P'],
'G10' : [_('Setup'), 'L', 'P', 'A', 'Q', 'R'],
'G33' : [_('Spindle synchronized feed'), 'A', 'K'],
'G33.1' : [_('Rigid tap'), 'Z', 'K'],
'G38.2' : [_('Probe'), 'A', 'F'],
'G38.3' : [_('Probe'), 'A', 'F'],
'G38.4' : [_('Probe'), 'A', 'F'],
'G38.5' : [_('Probe'), 'A', 'F'],
'G41' : [_('Radius compensation left'), 'D'],
'G42' : [_('Radius compensation right'), 'D'],
'G41.1' : [_('Radius compensation left, immediate'), 'D', 'L'],
'G42.1' : [_('Radius compensation right, immediate'), 'D', 'L'],
'G43' : [_('Tool length offset'), 'H'],
'G43.1' : [_('Tool length offset immediate'), 'I', 'K'],
'G53' : [_('Motion in unoffset coordinates'), 'G', 'A', 'F'],
'G64' : [_('Continuous mode'), 'P'],
'G76' : [_('Thread'), 'Z', 'P', 'I', 'J', 'K', 'R', 'Q', 'H', 'E', 'L'],
'G81' : [_('Drill'), 'A', 'R', 'L', 'F'],
'G82' : [_('Drill with dwell'), 'A', 'R', 'L', 'P', 'F'],
'G83' : [_('Peck drill'), 'A', 'R', 'L', 'Q', 'F'],
'G73' : [_('Chip-break drill'), 'A', 'R', 'L', 'Q', 'F'],
'G85' : [_('Bore'), 'A', 'R', 'L', 'F'],
'G89' : [_('Bore with dwell'), 'A', 'R', 'L', 'P', 'F'],
'G92' : [_('Offset all coordinate systems'), 'A'],
'G96' : [_('CSS Mode'), 'S', 'D'],
}
self.ocodes = []
def add_macros(self, macros):
for m in macros:
words = m.split()
call = "O<%s> call" % words[0]
args = [''] + [w + ' ' for w in words[1:]]
self.ocodes.append(call)
self.codes[call] = args
def get_description(self, gcode):
return self.codes[gcode][0]
def get_words(self, gcode):
self.gcode = gcode
if gcode[0] == 'M' and gcode.find(".") == -1 and int(gcode[1:]) >= 100 and int(gcode[1:]) <= 199:
return ['P', 'Q']
if gcode not in self.codes:
return []
# strip description
words = self.codes[gcode][1:]
# replace A with the real axis names
if 'A' in words:
i = words.index('A')
words = words[:i] + self.axes + words[i+1:]
if self.polar and 'X' in self.axes and 'Y' in self.axes:
words[self.axes.index('X')] = '@'
words[self.axes.index('Y')] = '^'
return words
def clear(self):
self.words = {}
def set_word(self, word, value):
self.words[word] = value
def set_polar(self, p):
self.polar = p;
def issue(self):
m = self.gcode
if m.lower().startswith('o'):
codes = self.codes[m]
for code in self.codes[m][1:]:
v = self.words[code] or "0"
m = m + " [%s]" % v
else:
w = [i for i in self.words if len(self.words.get(i)) > 0]
if '@' in w:
m += '@' + self.words.get('@')
w.remove('@')
if '^' in w:
m += '^' + self.words.get('^')
w.remove('^')
for i in w:
if len(self.words.get(i)) > 0:
m += i + self.words.get(i)
self.emcstat.poll()
if self.emcstat.task_mode != self.emc.MODE_MDI:
self.emccommand.mode(self.emc.MODE_MDI)
self.emccommand.wait_complete()
self.emccommand.mdi(m)
def set_tool_touchoff(self,tool,axis,value):
m = "G10 L10 P%d %s%f"%(tool,axis,value)
self.emcstat.poll()
if self.emcstat.task_mode != self.emc.MODE_MDI:
self.emccommand.mode(self.emc.MODE_MDI)
self.emccommand.wait_complete()
self.emccommand.mdi(m)
self.emccommand.wait_complete()
self.emccommand.mdi("g43")
def set_axis_origin(self,axis,value):
m = "G10 L20 P0 %s%f"%(axis,value)
self.emcstat.poll()
if self.emcstat.task_mode != self.emc.MODE_MDI:
self.emccommand.mode(self.emc.MODE_MDI)
self.emccommand.wait_complete()
self.emccommand.mdi(m)
def go_to_position(self,axis,position,feedrate):
m = "G1 %s %f F%f"%(axis,position,feedrate)
self.emcstat.poll()
if self.emcstat.task_mode != self.emc.MODE_MDI:
self.emccommand.mode(self.emc.MODE_MDI)
self.emccommand.wait_complete()
self.emccommand.mdi(m)
def set_spindle_speed(self,value):
m = "s %f"%(value)
self.emcstat.poll()
if self.emcstat.task_mode != self.emc.MODE_MDI:
self.emccommand.mode(self.emc.MODE_MDI)
self.emccommand.wait_complete()
self.emccommand.mdi(m)
def set_user_system(self,value):
m = "g %f"%(value)
self.emcstat.poll()
if self.emcstat.task_mode != self.emc.MODE_MDI:
self.emccommand.mode(self.emc.MODE_MDI)
self.emccommand.wait_complete()
self.emccommand.mdi(m)
def index_tool(self,toolnumber):
m = "T %f M6"%(toolnumber)
self.emcstat.poll()
if self.emcstat.task_mode != self.emc.MODE_MDI:
self.emccommand.mode(self.emc.MODE_MDI)
self.emccommand.wait_complete()
self.emccommand.mdi("m6 T %f"%(toolnumber))
self.emccommand.mdi("g43 h%f"%(toolnumber))
def arbitrary_mdi(self,command):
if self.emcstat.task_mode != self.emc.MODE_MDI:
self.emccommand.mode(self.emc.MODE_MDI)
self.emccommand.wait_complete()
self.emccommand.mdi(command)
class mdi_control:
def __init__(self, gtk, emc, labels, eventboxes):
self.labels = labels
self.eventboxes = eventboxes
self.numlabels = len(labels)
self.numwords = 1
self.selected = 0
self.gtk = gtk
self.mdi = mdi(emc)
#for i in range(self.numlabels):
# self.not_editing(i)
#self.editing(self.selected)
#self.set_text("G")
def mdi_is_reading(self):
self.mdi.emcstat.poll()
if self.mdi.emcstat.interp_state == self.mdi.emc.INTERP_READING:
return True
return False
def set_mdi_mode(self):
self.mdi.emcstat.poll()
if self.mdi.emcstat.task_mode != self.mdi.emc.MODE_MDI:
self.mdi.emccommand.mode(self.mdi.emc.MODE_MDI)
self.mdi.emccommand.wait_complete()
def set_axis(self,axis,value):
premode = self.mdi.emcstat.task_mode
self.mdi.set_axis_origin(axis,value)
self.mdi.emccommand.mode(premode)
self.mdi.emccommand.wait_complete()
def touchoff(self,tool,axis,value):
premode = self.mdi.emcstat.task_mode
self.mdi.set_tool_touchoff(tool,axis,value)
self.mdi.emccommand.mode(premode)
self.mdi.emccommand.wait_complete()
def set_spindle_speed(self,value):
self.mdi.set_spindle_speed(value)
def go_to_position(self,axis,position,feedrate):
self.mdi.go_to_position(axis,position,feedrate)
def set_user_system(self,system):
print("set user system to :G",system)
premode = self.mdi.emcstat.task_mode
self.mdi.set_user_system(system)
self.mdi.emccommand.mode(premode)
self.mdi.emccommand.wait_complete()
def index_tool(self,toolnumber):
print("set tool number to :T",toolnumber)
premode = self.mdi.emcstat.task_mode
self.mdi.index_tool(toolnumber)
#self.mdi.emccommand.mode(premode)
#self.mdi.emccommand.wait_complete()
def user_command(self,command):
premode = self.mdi.emcstat.task_mode
self.mdi.arbitrary_mdi(command)
#self.mdi.emccommand.mode(premode)
#self.mdi.emccommand.wait_complete()
def not_editing(self, n):
e = self.eventboxes[n]
e.modify_bg(self.gtk.STATE_NORMAL, self.gdk.color_parse("#ccc"))
def editing(self, n):
self.not_editing(self.selected)
self.selected = n
e = self.eventboxes[n]
e.modify_bg(self.gtk.STATE_NORMAL, self.gdk.color_parse("#fff"))
def get_text(self):
w = self.labels[self.selected]
return w.get_text()
def set_text(self, t, n = -1):
if n == -1: n = self.selected
w = self.labels[n]
w.set_text(t)
if n > 0:
head = t.rstrip("0123456789.-")
tail = t[len(head):]
self.mdi.set_word(head, tail)
if len(t) < 2:
w.set_alignment(1.0, 0.5)
else:
w.set_alignment(0.0, 0.5)
def clear(self, b):
t = self.get_text()
self.set_text(t.rstrip("0123456789.-"))
def back(self, b):
t = self.get_text()
if t[-1:] in "0123456789.-":
self.set_text(t[:-1])
def fill_out(self):
if self.selected == 0:
w = self.mdi.get_words(self.get_text())
self.numwords = len(w)
for i in range(1,self.numlabels):
if i <= len(w):
self.set_text(w[i-1], i)
else:
self.set_text("", i)
def next(self, b):
self.fill_out();
if self.numwords > 0:
self.editing(max(1,(self.selected+1) % (self.numwords+1)))
def ok(self, b):
self.fill_out();
self.mdi.issue()
def decimal(self, b):
t = self.get_text()
if t.find(".") == -1:
self.set_text(t + ".")
def minus(self, b):
t = self.get_text()
if self.selected > 0:
head = t.rstrip("0123456789.-")
tail = t[len(head):]
if tail.find("-") == -1:
self.set_text(head + "-" + tail)
else:
self.set_text(head + tail[1:])
def keypad(self, b):
t = self.get_text()
num = b.get_name()
self.set_text(t + num)
def gp(self, b):
self.g(b, "G", 1)
def g(self, b, code="G", polar=0):
self.mdi.set_polar(polar)
self.set_text(code, 0)
for i in range(1, self.numlabels):
self.set_text("", i)
self.editing(0)
self.mdi.clear()
def m(self, b):
self.g(b, "M")
def t(self, b):
self.g(b, "T")
def o(self, b):
old_code = self.labels[0].get_text()
ocodes = self.mdi.ocodes
if old_code in ocodes:
j = (ocodes.index(old_code) + 1) % len(ocodes)
else:
j = 0
self.g(b, ocodes[j])
self.next(b)
def select(self, eventbox, event):
n = int(eventbox.get_name()[12:])
if self.selected == 0:
self.fill_out()
if n <= self.numwords:
self.editing(n)
def set_tool(self, tool, g10l11):
self.g(0)
self.set_text("G10", 0)
self.next(0)
if g10l11:
self.set_text("L11", 1)
else:
self.set_text("L10", 1)
self.next(0)
self.set_text("P%d" % tool, 2)
self.next(0)
self.next(0)
self.next(0)
def set_origin(self, system):
self.g(0)
self.set_text("G10", 0)
self.next(0)
self.set_text("L20", 1)
self.next(0)
self.set_text("P%d" % system, 2)
self.next(0)
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