Fri, 22 Sep 2017 17:40:08 +0200
SVG bugfix: first shape line not drawn
SVG feature: Dont control the laser via extrusion, switch on at shape start, off at shape end
#!/usr/bin/env python # This file is part of the Printrun suite. # # Printrun 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 3 of the License, or # (at your option) any later version. # # Printrun 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. # # You should have received a copy of the GNU General Public License # along with Printrun. If not, see <http://www.gnu.org/licenses/>. # Set up Internationalization using gettext # searching for installed locales on /usr/share; uses relative folder if not found (windows) from .utils import install_locale, get_home_pos install_locale('pronterface') import wx import sys import os import time import types import re import math import logging from printrun import gcoder from printrun.objectplater import make_plater, PlaterPanel from printrun.gl.libtatlin import actors import printrun.gui.viz # NOQA from printrun import gcview def extrusion_only(gline): return gline.e is not None \ and (gline.x, gline.y, gline.z) == (None, None, None) # Custom method for gcoder.GCode to analyze & output gcode in a single call def gcoder_write(self, f, line, store = False): f.write(line) self.append(line, store = store) rewrite_exp = re.compile("(%s)" % "|".join(["X([-+]?[0-9]*\.?[0-9]*)", "Y([-+]?[0-9]*\.?[0-9]*)"])) def rewrite_gline(centeroffset, gline, cosr, sinr): if gline.is_move and (gline.x is not None or gline.y is not None): if gline.relative: xc = yc = 0 cox = coy = 0 if gline.x is not None: xc = gline.x if gline.y is not None: yc = gline.y else: xc = gline.current_x + centeroffset[0] yc = gline.current_y + centeroffset[1] cox = centeroffset[0] coy = centeroffset[1] new_x = "X%.04f" % (xc * cosr - yc * sinr - cox) new_y = "Y%.04f" % (xc * sinr + yc * cosr - coy) new = {"X": new_x, "Y": new_y} new_line = rewrite_exp.sub(lambda ax: new[ax.group()[0]], gline.raw) new_line = new_line.split(";")[0] if gline.x is None: new_line += " " + new_x if gline.y is None: new_line += " " + new_y return new_line else: return gline.raw class GcodePlaterPanel(PlaterPanel): load_wildcard = _("GCODE files (*.gcode;*.GCODE;*.g)") + "|*.gcode;*.gco;*.g" save_wildcard = _("GCODE files (*.gcode;*.GCODE;*.g)") + "|*.gcode;*.gco;*.g" def prepare_ui(self, filenames = [], callback = None, parent = None, build_dimensions = None, circular_platform = False, antialias_samples = 0): super(GcodePlaterPanel, self).prepare_ui(filenames, callback, parent, build_dimensions) viewer = gcview.GcodeViewPanel(self, build_dimensions = self.build_dimensions, antialias_samples = antialias_samples) self.set_viewer(viewer) self.platform = actors.Platform(self.build_dimensions, circular = circular_platform) self.platform_object = gcview.GCObject(self.platform) def get_objects(self): return [self.platform_object] + self.models.values() objects = property(get_objects) def load_file(self, filename): gcode = gcoder.GCode(open(filename, "rU"), get_home_pos(self.build_dimensions)) model = actors.GcodeModel() if gcode.filament_length > 0: model.display_travels = False generator = model.load_data(gcode) generator_output = generator.next() while generator_output is not None: generator_output = generator.next() obj = gcview.GCObject(model) obj.offsets = [self.build_dimensions[3], self.build_dimensions[4], 0] obj.gcode = gcode obj.dims = [gcode.xmin, gcode.xmax, gcode.ymin, gcode.ymax, gcode.zmin, gcode.zmax] obj.centeroffset = [-(obj.dims[1] + obj.dims[0]) / 2, -(obj.dims[3] + obj.dims[2]) / 2, 0] self.add_model(filename, obj) wx.CallAfter(self.Refresh) def done(self, event, cb): if not os.path.exists("tempgcode"): os.mkdir("tempgcode") name = "tempgcode/" + str(int(time.time()) % 10000) + ".gcode" self.export_to(name) if cb is not None: cb(name) if self.destroy_on_done: self.Destroy() # What's hard in there ? # 1) [x] finding the order in which the objects are printed # 2) [x] handling layers correctly # 3) [x] handling E correctly # 4) [x] handling position shifts: should we either reset absolute 0 using # G92 or should we rewrite all positions ? => we use G92s # 5) [ ] handling the start & end gcode properly ? # 6) [x] handling of current tool # 7) [x] handling of Z moves for sequential printing (don't lower Z before # reaching the next object print area) # 8) [x] handling of absolute/relative status # Initial implementation should just print the objects sequentially, # but the end goal is to have a clean per-layer merge def export_to(self, name): return self.export_combined(name) return self.export_sequential(name) def export_combined(self, name): models = self.models.values() last_real_position = None # Sort models by Z max to print smaller objects first models.sort(key = lambda x: x.dims[-1]) alllayers = [] for (model_i, model) in enumerate(models): def add_offset(layer): return layer.z + model.offsets[2] if layer.z is not None else layer.z alllayers += [(add_offset(layer), model_i, layer_i) for (layer_i, layer) in enumerate(model.gcode.all_layers) if layer] alllayers.sort() laste = [0] * len(models) lasttool = [0] * len(models) lastrelative = [False] * len(models) with open(name, "w") as f: analyzer = gcoder.GCode(None, get_home_pos(self.build_dimensions)) analyzer.write = types.MethodType(lambda self, line: gcoder_write(self, f, line), analyzer) for (layer_z, model_i, layer_i) in alllayers: model = models[model_i] layer = model.gcode.all_layers[layer_i] r = math.radians(model.rot) o = model.offsets co = model.centeroffset offset_pos = last_real_position if last_real_position is not None else (0, 0, 0) analyzer.write("; %f %f %f\n" % offset_pos) trans = (- (o[0] + co[0]), - (o[1] + co[1]), - (o[2] + co[2])) trans_wpos = (offset_pos[0] + trans[0], offset_pos[1] + trans[1], offset_pos[2] + trans[2]) analyzer.write("; GCodePlater: Model %d Layer %d at Z = %s\n" % (model_i, layer_i, layer_z)) if lastrelative[model_i]: analyzer.write("G91\n") else: analyzer.write("G90\n") if analyzer.current_tool != lasttool[model_i]: analyzer.write("T%d\n" % lasttool[model_i]) analyzer.write("G92 X%.5f Y%.5f Z%.5f\n" % trans_wpos) analyzer.write("G92 E%.5f\n" % laste[model_i]) for l in layer: if l.command != "G28" and (l.command != "G92" or extrusion_only(l)): if r == 0: analyzer.write(l.raw + "\n") else: analyzer.write(rewrite_gline(co, l, math.cos(r), math.sin(r)) + "\n") # Find the current real position & E last_real_position = analyzer.current_pos laste[model_i] = analyzer.current_e lastrelative[model_i] = analyzer.relative lasttool[model_i] = analyzer.current_tool logging.info(_("Exported merged G-Codes to %s") % name) def export_sequential(self, name): models = self.models.values() last_real_position = None # Sort models by Z max to print smaller objects first models.sort(key = lambda x: x.dims[-1]) with open(name, "w") as f: for model_i, model in enumerate(models): r = math.radians(model.rot) o = model.offsets co = model.centeroffset offset_pos = last_real_position if last_real_position is not None else (0, 0, 0) trans = (- (o[0] + co[0]), - (o[1] + co[1]), - (o[2] + co[2])) trans_wpos = (offset_pos[0] + trans[0], offset_pos[1] + trans[1], offset_pos[2] + trans[2]) f.write("; GCodePlater: Model %d\n" % model_i) f.write("G90\n") f.write("G92 X%.5f Y%.5f Z%.5f E0\n" % trans_wpos) f.write("G1 X%.5f Y%.5f" % (-co[0], -co[1])) for l in model.gcode: if l.command != "G28" and (l.command != "G92" or extrusion_only(l)): if r == 0: f.write(l.raw + "\n") else: f.write(rewrite_gline(co, l, math.cos(r), math.sin(r)) + "\n") # Find the current real position for i in xrange(len(model.gcode) - 1, -1, -1): gline = model.gcode.lines[i] if gline.is_move: last_real_position = (- trans[0] + gline.current_x, - trans[1] + gline.current_y, - trans[2] + gline.current_z) break logging.info(_("Exported merged G-Codes to %s") % name) GcodePlater = make_plater(GcodePlaterPanel) if __name__ == '__main__': app = wx.App(False) main = GcodePlater(filenames = sys.argv[1:]) for fn in main.filenames: main.load_file(fn) main.filenames = None main.autoplate() main.export_to("gcodeplate___test.gcode") raise SystemExit main.Show() app.MainLoop()