Mercurial > hg-public > lasercut-scripts / file revision
printrun-src/printrun/objectplater.py@08d027d2a532
printrun-src/printrun/objectplater.py
Thu, 30 May 2019 18:10:01 +0200
- author
- mdd
- date
- Thu, 30 May 2019 18:10:01 +0200
- changeset 41
- 08d027d2a532
- parent 15
- 0bbb006204fc
- child 46
- cce0af6351f0
- permissions
- -rw-r--r--
dont know what i have done
#!/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/>. from .utils import install_locale, iconfile install_locale('plater') import logging import os import types import wx def patch_method(obj, method, replacement): orig_handler = getattr(obj, method) def wrapped(*a, **kwargs): kwargs['orig_handler'] = orig_handler return replacement(*a, **kwargs) setattr(obj, method, types.MethodType(wrapped, obj)) class PlaterPanel(wx.Panel): def __init__(self, **kwargs): self.destroy_on_done = False parent = kwargs.get("parent", None) super(PlaterPanel, self).__init__(parent = parent) self.prepare_ui(**kwargs) def prepare_ui(self, filenames = [], callback = None, parent = None, build_dimensions = None): self.filenames = filenames self.mainsizer = wx.BoxSizer(wx.HORIZONTAL) panel = self.menupanel = wx.Panel(self, -1) sizer = self.menusizer = wx.GridBagSizer() self.l = wx.ListBox(panel) sizer.Add(self.l, pos = (1, 0), span = (1, 2), flag = wx.EXPAND) sizer.AddGrowableRow(1, 1) # Clear button clearbutton = wx.Button(panel, label = _("Clear")) clearbutton.Bind(wx.EVT_BUTTON, self.clear) sizer.Add(clearbutton, pos = (2, 0), span = (1, 2), flag = wx.EXPAND) # Load button loadbutton = wx.Button(panel, label = _("Load")) loadbutton.Bind(wx.EVT_BUTTON, self.load) sizer.Add(loadbutton, pos = (0, 0), span = (1, 1), flag = wx.EXPAND) # Snap to Z = 0 button snapbutton = wx.Button(panel, label = _("Snap to Z = 0")) snapbutton.Bind(wx.EVT_BUTTON, self.snap) sizer.Add(snapbutton, pos = (3, 0), span = (1, 1), flag = wx.EXPAND) # Put at center button centerbutton = wx.Button(panel, label = _("Put at center")) centerbutton.Bind(wx.EVT_BUTTON, self.center) sizer.Add(centerbutton, pos = (3, 1), span = (1, 1), flag = wx.EXPAND) # Delete button deletebutton = wx.Button(panel, label = _("Delete")) deletebutton.Bind(wx.EVT_BUTTON, self.delete) sizer.Add(deletebutton, pos = (4, 0), span = (1, 1), flag = wx.EXPAND) # Auto arrange button autobutton = wx.Button(panel, label = _("Auto arrange")) autobutton.Bind(wx.EVT_BUTTON, self.autoplate) sizer.Add(autobutton, pos = (5, 0), span = (1, 2), flag = wx.EXPAND) # Export button exportbutton = wx.Button(panel, label = _("Export")) exportbutton.Bind(wx.EVT_BUTTON, self.export) sizer.Add(exportbutton, pos = (0, 1), span = (1, 1), flag = wx.EXPAND) if callback is not None: donebutton = wx.Button(panel, label = _("Done")) donebutton.Bind(wx.EVT_BUTTON, lambda e: self.done(e, callback)) sizer.Add(donebutton, pos = (6, 0), span = (1, 1), flag = wx.EXPAND) cancelbutton = wx.Button(panel, label = _("Cancel")) cancelbutton.Bind(wx.EVT_BUTTON, lambda e: self.Destroy()) sizer.Add(cancelbutton, pos = (6, 1), span = (1, 1), flag = wx.EXPAND) self.basedir = "." self.models = {} panel.SetSizerAndFit(sizer) self.mainsizer.Add(panel, flag = wx.EXPAND) self.SetSizer(self.mainsizer) if build_dimensions: self.build_dimensions = build_dimensions else: self.build_dimensions = [200, 200, 100, 0, 0, 0] def set_viewer(self, viewer): # Patch handle_rotation on the fly if hasattr(viewer, "handle_rotation"): def handle_rotation(self, event, orig_handler): if self.initpos is None: self.initpos = event.GetPositionTuple() else: if event.ShiftDown(): p1 = self.initpos p2 = event.GetPositionTuple() x1, y1, _ = self.mouse_to_3d(p1[0], p1[1]) x2, y2, _ = self.mouse_to_3d(p2[0], p2[1]) self.parent.move_shape((x2 - x1, y2 - y1)) self.initpos = p2 else: orig_handler(event) patch_method(viewer, "handle_rotation", handle_rotation) # Patch handle_wheel on the fly if hasattr(viewer, "handle_wheel"): def handle_wheel(self, event, orig_handler): if event.ShiftDown(): delta = event.GetWheelRotation() angle = 10 if delta > 0: self.parent.rotate_shape(angle / 2) else: self.parent.rotate_shape(-angle / 2) else: orig_handler(event) patch_method(viewer, "handle_wheel", handle_wheel) self.s = viewer self.mainsizer.Add(self.s, 1, wx.EXPAND) def move_shape(self, delta): """moves shape (selected in l, which is list ListBox of shapes) by an offset specified in tuple delta. Positive numbers move to (rigt, down)""" name = self.l.GetSelection() if name == wx.NOT_FOUND: return False name = self.l.GetString(name) model = self.models[name] model.offsets = [model.offsets[0] + delta[0], model.offsets[1] + delta[1], model.offsets[2] ] return True def rotate_shape(self, angle): """rotates acive shape positive angle is clockwise """ name = self.l.GetSelection() if name == wx.NOT_FOUND: return False name = self.l.GetString(name) model = self.models[name] model.rot += angle def autoplate(self, event = None): logging.info(_("Autoplating")) separation = 2 try: from printrun import packer p = packer.Packer() for i in self.models: width = abs(self.models[i].dims[0] - self.models[i].dims[1]) height = abs(self.models[i].dims[2] - self.models[i].dims[3]) p.add_rect(width, height, data = i) centerx = self.build_dimensions[0] / 2 + self.build_dimensions[3] centery = self.build_dimensions[1] / 2 + self.build_dimensions[4] rects = p.pack(padding = separation, center = packer.Vector2(centerx, centery)) for rect in rects: i = rect.data position = rect.center() self.models[i].offsets[0] = position.x self.models[i].offsets[1] = position.y except ImportError: bedsize = self.build_dimensions[0:3] cursor = [0, 0, 0] newrow = 0 max = [0, 0] for i in self.models: self.models[i].offsets[2] = -1.0 * self.models[i].dims[4] x = abs(self.models[i].dims[0] - self.models[i].dims[1]) y = abs(self.models[i].dims[2] - self.models[i].dims[3]) centre = [x / 2, y / 2] centreoffset = [self.models[i].dims[0] + centre[0], self.models[i].dims[2] + centre[1]] if (cursor[0] + x + separation) >= bedsize[0]: cursor[0] = 0 cursor[1] += newrow + separation newrow = 0 if (newrow == 0) or (newrow < y): newrow = y # To the person who works out why the offsets are applied # differently here: # Good job, it confused the hell out of me. self.models[i].offsets[0] = cursor[0] + centre[0] - centreoffset[0] self.models[i].offsets[1] = cursor[1] + centre[1] - centreoffset[1] if (max[0] == 0) or (max[0] < (cursor[0] + x)): max[0] = cursor[0] + x if (max[1] == 0) or (max[1] < (cursor[1] + x)): max[1] = cursor[1] + x cursor[0] += x + separation if (cursor[1] + y) >= bedsize[1]: logging.info(_("Bed full, sorry sir :(")) self.Refresh() return centerx = self.build_dimensions[0] / 2 + self.build_dimensions[3] centery = self.build_dimensions[1] / 2 + self.build_dimensions[4] centreoffset = [centerx - max[0] / 2, centery - max[1] / 2] for i in self.models: self.models[i].offsets[0] += centreoffset[0] self.models[i].offsets[1] += centreoffset[1] self.Refresh() def clear(self, event): result = wx.MessageBox(_('Are you sure you want to clear the grid? All unsaved changes will be lost.'), _('Clear the grid?'), wx.YES_NO | wx.ICON_QUESTION) if result == 2: self.models = {} self.l.Clear() self.Refresh() def center(self, event): i = self.l.GetSelection() if i != -1: m = self.models[self.l.GetString(i)] centerx = self.build_dimensions[0] / 2 + self.build_dimensions[3] centery = self.build_dimensions[1] / 2 + self.build_dimensions[4] m.offsets = [centerx, centery, m.offsets[2]] self.Refresh() def snap(self, event): i = self.l.GetSelection() if i != -1: m = self.models[self.l.GetString(i)] m.offsets[2] = -m.dims[4] self.Refresh() def delete(self, event): i = self.l.GetSelection() if i != -1: del self.models[self.l.GetString(i)] self.l.Delete(i) self.l.Select(self.l.GetCount() - 1) self.Refresh() def add_model(self, name, model): newname = os.path.split(name.lower())[1] if not isinstance(newname, unicode): newname = unicode(newname, "utf-8") c = 1 while newname in self.models: newname = os.path.split(name.lower())[1] newname = newname + "(%d)" % c c += 1 self.models[newname] = model self.l.Append(newname) i = self.l.GetSelection() if i == wx.NOT_FOUND: self.l.Select(0) self.l.Select(self.l.GetCount() - 1) def load(self, event): dlg = wx.FileDialog(self, _("Pick file to load"), self.basedir, style = wx.FD_OPEN | wx.FD_FILE_MUST_EXIST) dlg.SetWildcard(self.load_wildcard) if dlg.ShowModal() == wx.ID_OK: name = dlg.GetPath() self.load_file(name) dlg.Destroy() def load_file(self, filename): raise NotImplementedError def export(self, event): dlg = wx.FileDialog(self, _("Pick file to save to"), self.basedir, style = wx.FD_SAVE) dlg.SetWildcard(self.save_wildcard) if dlg.ShowModal() == wx.ID_OK: name = dlg.GetPath() self.export_to(name) dlg.Destroy() def export_to(self, name): raise NotImplementedError class Plater(wx.Frame): def __init__(self, **kwargs): self.destroy_on_done = True parent = kwargs.get("parent", None) size = kwargs.get("size", (800, 580)) if "size" in kwargs: del kwargs["size"] wx.Frame.__init__(self, parent, title = _("Plate building tool"), size = size) self.SetIcon(wx.Icon(iconfile("plater.png"), wx.BITMAP_TYPE_PNG)) self.prepare_ui(**kwargs) def make_plater(panel_class): name = panel_class.__name__.replace("Panel", "") return type(name, (Plater, panel_class), {})
