Mercurial > hg-public > lasercut-scripts / file revision
printrun-src/printrun/gviz.py@d93a721621bd
printrun-src/printrun/gviz.py
Fri, 03 Jun 2016 10:05:45 +0200
- author
- mbayer
- date
- Fri, 03 Jun 2016 10:05:45 +0200
- changeset 17
- d93a721621bd
- parent 15
- 0bbb006204fc
- child 46
- cce0af6351f0
- permissions
- -rw-r--r--
remove pyc files
# 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 Queue import Queue from collections import deque import numpy import wx import time from . import gcoder from .injectgcode import injector, injector_edit from .utils import imagefile, install_locale, get_home_pos install_locale('pronterface') class GvizBaseFrame(wx.Frame): def create_base_ui(self): self.CreateStatusBar(1) self.SetStatusText(_("Layer number and Z position show here when you scroll")) hpanel = wx.Panel(self, -1) hbox = wx.BoxSizer(wx.HORIZONTAL) panel = wx.Panel(hpanel, -1) vbox = wx.BoxSizer(wx.VERTICAL) vbox = wx.BoxSizer(wx.VERTICAL) self.toolbar = wx.ToolBar(panel, -1, style = wx.TB_HORIZONTAL | wx.NO_BORDER | wx.TB_HORZ_TEXT) self.toolbar.AddSimpleTool(1, wx.Image(imagefile('zoom_in.png'), wx.BITMAP_TYPE_PNG).ConvertToBitmap(), _("Zoom In [+]"), '') self.toolbar.AddSimpleTool(2, wx.Image(imagefile('zoom_out.png'), wx.BITMAP_TYPE_PNG).ConvertToBitmap(), _("Zoom Out [-]"), '') self.toolbar.AddSeparator() self.toolbar.AddSimpleTool(3, wx.Image(imagefile('arrow_up.png'), wx.BITMAP_TYPE_PNG).ConvertToBitmap(), _("Move Up a Layer [U]"), '') self.toolbar.AddSimpleTool(4, wx.Image(imagefile('arrow_down.png'), wx.BITMAP_TYPE_PNG).ConvertToBitmap(), _("Move Down a Layer [D]"), '') self.toolbar.AddLabelTool(5, " " + _("Reset view"), wx.Image(imagefile('reset.png'), wx.BITMAP_TYPE_PNG).ConvertToBitmap(), shortHelp = _("Reset view"), longHelp = '') self.toolbar.AddSeparator() self.toolbar.AddSimpleTool(6, wx.Image(imagefile('inject.png'), wx.BITMAP_TYPE_PNG).ConvertToBitmap(), shortHelpString = _("Inject G-Code"), longHelpString = _("Insert code at the beginning of this layer")) self.toolbar.AddSimpleTool(7, wx.Image(imagefile('edit.png'), wx.BITMAP_TYPE_PNG).ConvertToBitmap(), shortHelpString = _("Edit layer"), longHelpString = _("Edit the G-Code of this layer")) vbox.Add(self.toolbar, 0, border = 5) panel.SetSizer(vbox) hbox.Add(panel, 1, flag = wx.EXPAND) self.layerslider = wx.Slider(hpanel, style = wx.SL_VERTICAL | wx.SL_AUTOTICKS | wx.SL_LEFT | wx.SL_INVERSE) self.layerslider.Bind(wx.EVT_SCROLL, self.process_slider) hbox.Add(self.layerslider, 0, border = 5, flag = wx.LEFT | wx.EXPAND) hpanel.SetSizer(hbox) return panel, vbox def setlayercb(self, layer): self.layerslider.SetValue(layer) def process_slider(self, event): raise NotImplementedError ID_ABOUT = 101 ID_EXIT = 110 class GvizWindow(GvizBaseFrame): def __init__(self, f = None, size = (600, 600), build_dimensions = [200, 200, 100, 0, 0, 0], grid = (10, 50), extrusion_width = 0.5, bgcolor = "#000000"): super(GvizWindow, self).__init__(None, title = _("Gcode view, shift to move view, mousewheel to set layer"), size = size) panel, vbox = self.create_base_ui() self.p = Gviz(panel, size = size, build_dimensions = build_dimensions, grid = grid, extrusion_width = extrusion_width, bgcolor = bgcolor, realparent = self) self.toolbar.Realize() vbox.Add(self.p, 1, wx.EXPAND) self.SetMinSize(self.ClientToWindowSize(vbox.GetMinSize())) self.Bind(wx.EVT_TOOL, lambda x: self.p.zoom(-1, -1, 1.2), id = 1) self.Bind(wx.EVT_TOOL, lambda x: self.p.zoom(-1, -1, 1 / 1.2), id = 2) self.Bind(wx.EVT_TOOL, lambda x: self.p.layerup(), id = 3) self.Bind(wx.EVT_TOOL, lambda x: self.p.layerdown(), id = 4) self.Bind(wx.EVT_TOOL, self.resetview, id = 5) self.Bind(wx.EVT_TOOL, lambda x: self.p.inject(), id = 6) self.Bind(wx.EVT_TOOL, lambda x: self.p.editlayer(), id = 7) self.initpos = None self.p.Bind(wx.EVT_KEY_DOWN, self.key) self.Bind(wx.EVT_KEY_DOWN, self.key) self.p.Bind(wx.EVT_MOUSEWHEEL, self.zoom) self.Bind(wx.EVT_MOUSEWHEEL, self.zoom) self.p.Bind(wx.EVT_MOUSE_EVENTS, self.mouse) self.Bind(wx.EVT_MOUSE_EVENTS, self.mouse) if f: gcode = gcoder.GCode(f, get_home_pos(self.p.build_dimensions)) self.p.addfile(gcode) def set_current_gline(self, gline): return def process_slider(self, event): self.p.layerindex = self.layerslider.GetValue() z = self.p.get_currentz() wx.CallAfter(self.SetStatusText, _("Layer %d - Z = %.03f mm") % (self.p.layerindex + 1, z), 0) self.p.dirty = True wx.CallAfter(self.p.Refresh) def resetview(self, event): self.p.translate = [0.0, 0.0] self.p.scale = self.p.basescale self.p.zoom(0, 0, 1.0) def mouse(self, event): if event.ButtonUp(wx.MOUSE_BTN_LEFT) or event.ButtonUp(wx.MOUSE_BTN_RIGHT): if self.initpos is not None: self.initpos = None elif event.Dragging(): e = event.GetPositionTuple() if self.initpos is None: self.initpos = e self.basetrans = self.p.translate self.p.translate = [self.basetrans[0] + (e[0] - self.initpos[0]), self.basetrans[1] + (e[1] - self.initpos[1])] self.p.dirty = True wx.CallAfter(self.p.Refresh) else: event.Skip() def key(self, event): # Keycode definitions kup = [85, 315] # Up keys kdo = [68, 317] # Down Keys kzi = [388, 316, 61] # Zoom In Keys kzo = [390, 314, 45] # Zoom Out Keys x = event.GetKeyCode() cx, cy = self.p.translate if x in kup: self.p.layerup() if x in kdo: self.p.layerdown() if x in kzi: self.p.zoom(cx, cy, 1.2) if x in kzo: self.p.zoom(cx, cy, 1 / 1.2) def zoom(self, event): z = event.GetWheelRotation() if event.ShiftDown(): if z > 0: self.p.layerdown() elif z < 0: self.p.layerup() else: if z > 0: self.p.zoom(event.GetX(), event.GetY(), 1.2) elif z < 0: self.p.zoom(event.GetX(), event.GetY(), 1 / 1.2) class Gviz(wx.Panel): # Mark canvas as dirty when setting showall _showall = 0 def _get_showall(self): return self._showall def _set_showall(self, showall): if showall != self._showall: self.dirty = True self._showall = showall showall = property(_get_showall, _set_showall) def __init__(self, parent, size = (200, 200), build_dimensions = [200, 200, 100, 0, 0, 0], grid = (10, 50), extrusion_width = 0.5, bgcolor = "#000000", realparent = None): wx.Panel.__init__(self, parent, -1) self.widget = self size = [max(1.0, x) for x in size] ratio = size[0] / size[1] self.SetMinSize((150, 150 / ratio)) self.parent = realparent if realparent else parent self.size = size self.build_dimensions = build_dimensions self.grid = grid self.Bind(wx.EVT_PAINT, self.paint) self.Bind(wx.EVT_SIZE, self.resize) self.hilight = deque() self.hilightarcs = deque() self.hilightqueue = Queue(0) self.hilightarcsqueue = Queue(0) self.clear() self.filament_width = extrusion_width # set it to 0 to disable scaling lines with zoom self.update_basescale() self.scale = self.basescale penwidth = max(1.0, self.filament_width * ((self.scale[0] + self.scale[1]) / 2.0)) self.translate = [0.0, 0.0] self.mainpen = wx.Pen(wx.Colour(0, 0, 0), penwidth) self.arcpen = wx.Pen(wx.Colour(255, 0, 0), penwidth) self.travelpen = wx.Pen(wx.Colour(10, 80, 80), penwidth) self.hlpen = wx.Pen(wx.Colour(200, 50, 50), penwidth) self.fades = [wx.Pen(wx.Colour(250 - 0.6 ** i * 100, 250 - 0.6 ** i * 100, 200 - 0.4 ** i * 50), penwidth) for i in xrange(6)] self.penslist = [self.mainpen, self.travelpen, self.hlpen] + self.fades self.bgcolor = wx.Colour() self.bgcolor.SetFromName(bgcolor) self.blitmap = wx.EmptyBitmap(self.GetClientSize()[0], self.GetClientSize()[1], -1) self.paint_overlay = None def inject(self): layer = self.layers.index(self.layerindex) injector(self.gcode, self.layerindex, layer) def editlayer(self): layer = self.layers.index(self.layerindex) injector_edit(self.gcode, self.layerindex, layer) def clearhilights(self): self.hilight.clear() self.hilightarcs.clear() while not self.hilightqueue.empty(): self.hilightqueue.get_nowait() while not self.hilightarcsqueue.empty(): self.hilightarcsqueue.get_nowait() def clear(self): self.gcode = None self.lastpos = [0, 0, 0, 0, 0, 0, 0] self.hilightpos = self.lastpos[:] self.lines = {} self.pens = {} self.arcs = {} self.arcpens = {} self.layers = {} self.layersz = [] self.clearhilights() self.layerindex = 0 self.showall = 0 self.dirty = True self.partial = False self.painted_layers = set() wx.CallAfter(self.Refresh) def get_currentz(self): z = self.layersz[self.layerindex] z = 0. if z is None else z return z def layerup(self): if self.layerindex + 1 < len(self.layers): self.layerindex += 1 z = self.get_currentz() wx.CallAfter(self.parent.SetStatusText, _("Layer %d - Going Up - Z = %.03f mm") % (self.layerindex + 1, z), 0) self.dirty = True self.parent.setlayercb(self.layerindex) wx.CallAfter(self.Refresh) def layerdown(self): if self.layerindex > 0: self.layerindex -= 1 z = self.get_currentz() wx.CallAfter(self.parent.SetStatusText, _("Layer %d - Going Down - Z = %.03f mm") % (self.layerindex + 1, z), 0) self.dirty = True self.parent.setlayercb(self.layerindex) wx.CallAfter(self.Refresh) def setlayer(self, layer): if layer in self.layers: self.clearhilights() self.layerindex = self.layers[layer] self.dirty = True self.showall = 0 wx.CallAfter(self.Refresh) def update_basescale(self): self.basescale = 2 * [min(float(self.size[0] - 1) / self.build_dimensions[0], float(self.size[1] - 1) / self.build_dimensions[1])] def resize(self, event): old_basescale = self.basescale width, height = self.GetClientSizeTuple() if width < 1 or height < 1: return self.size = (width, height) self.update_basescale() zoomratio = float(self.basescale[0]) / old_basescale[0] wx.CallLater(200, self.zoom, 0, 0, zoomratio) def zoom(self, x, y, factor): if x == -1 and y == -1: side = min(self.size) x = y = side / 2 self.scale = [s * factor for s in self.scale] self.translate = [x - (x - self.translate[0]) * factor, y - (y - self.translate[1]) * factor] penwidth = max(1.0, self.filament_width * ((self.scale[0] + self.scale[1]) / 2.0)) for pen in self.penslist: pen.SetWidth(penwidth) self.dirty = True wx.CallAfter(self.Refresh) def _line_scaler(self, x): return (self.scale[0] * x[0], self.scale[1] * x[1], self.scale[0] * x[2], self.scale[1] * x[3],) def _arc_scaler(self, x): return (self.scale[0] * x[0], self.scale[1] * x[1], self.scale[0] * x[2], self.scale[1] * x[3], self.scale[0] * x[4], self.scale[1] * x[5],) def _drawlines(self, dc, lines, pens): scaled_lines = map(self._line_scaler, lines) dc.DrawLineList(scaled_lines, pens) def _drawarcs(self, dc, arcs, pens): scaled_arcs = map(self._arc_scaler, arcs) dc.SetBrush(wx.TRANSPARENT_BRUSH) for i in range(len(scaled_arcs)): dc.SetPen(pens[i] if type(pens) == list else pens) dc.DrawArc(*scaled_arcs[i]) def repaint_everything(self): width = self.scale[0] * self.build_dimensions[0] height = self.scale[1] * self.build_dimensions[1] self.blitmap = wx.EmptyBitmap(width + 1, height + 1, -1) dc = wx.MemoryDC() dc.SelectObject(self.blitmap) dc.SetBackground(wx.Brush((250, 250, 200))) dc.Clear() dc.SetPen(wx.Pen(wx.Colour(180, 180, 150))) for grid_unit in self.grid: if grid_unit > 0: for x in xrange(int(self.build_dimensions[0] / grid_unit) + 1): draw_x = self.scale[0] * x * grid_unit dc.DrawLine(draw_x, 0, draw_x, height) for y in xrange(int(self.build_dimensions[1] / grid_unit) + 1): draw_y = self.scale[1] * (self.build_dimensions[1] - y * grid_unit) dc.DrawLine(0, draw_y, width, draw_y) dc.SetPen(wx.Pen(wx.Colour(0, 0, 0))) if not self.showall: # Draw layer gauge dc.SetBrush(wx.Brush((43, 144, 255))) dc.DrawRectangle(width - 15, 0, 15, height) dc.SetBrush(wx.Brush((0, 255, 0))) if self.layers: dc.DrawRectangle(width - 14, (1.0 - (1.0 * (self.layerindex + 1)) / len(self.layers)) * height, 13, height - 1) if self.showall: for i in range(len(self.layersz)): self.painted_layers.add(i) self._drawlines(dc, self.lines[i], self.pens[i]) self._drawarcs(dc, self.arcs[i], self.arcpens[i]) dc.SelectObject(wx.NullBitmap) return if self.layerindex < len(self.layers) and self.layerindex in self.lines: for layer_i in range(max(0, self.layerindex - 6), self.layerindex): self._drawlines(dc, self.lines[layer_i], self.fades[self.layerindex - layer_i - 1]) self._drawarcs(dc, self.arcs[layer_i], self.fades[self.layerindex - layer_i - 1]) self._drawlines(dc, self.lines[self.layerindex], self.pens[self.layerindex]) self._drawarcs(dc, self.arcs[self.layerindex], self.arcpens[self.layerindex]) self._drawlines(dc, self.hilight, self.hlpen) self._drawarcs(dc, self.hilightarcs, self.hlpen) self.paint_hilights(dc) dc.SelectObject(wx.NullBitmap) def repaint_partial(self): if self.showall: dc = wx.MemoryDC() dc.SelectObject(self.blitmap) for i in set(range(len(self.layersz))).difference(self.painted_layers): self.painted_layers.add(i) self._drawlines(dc, self.lines[i], self.pens[i]) self._drawarcs(dc, self.arcs[i], self.arcpens[i]) dc.SelectObject(wx.NullBitmap) def paint_hilights(self, dc = None): if self.hilightqueue.empty() and self.hilightarcsqueue.empty(): return hl = [] if not dc: dc = wx.MemoryDC() dc.SelectObject(self.blitmap) while not self.hilightqueue.empty(): hl.append(self.hilightqueue.get_nowait()) self._drawlines(dc, hl, self.hlpen) hlarcs = [] while not self.hilightarcsqueue.empty(): hlarcs.append(self.hilightarcsqueue.get_nowait()) self._drawarcs(dc, hlarcs, self.hlpen) dc.SelectObject(wx.NullBitmap) def paint(self, event): if self.dirty: self.dirty = False self.partial = False self.repaint_everything() elif self.partial: self.partial = False self.repaint_partial() self.paint_hilights() dc = wx.PaintDC(self) dc.SetBackground(wx.Brush(self.bgcolor)) dc.Clear() dc.DrawBitmap(self.blitmap, self.translate[0], self.translate[1]) if self.paint_overlay: self.paint_overlay(dc) def addfile_perlayer(self, gcode, showall = False): self.clear() self.gcode = gcode self.showall = showall generator = self.add_parsed_gcodes(gcode) generator_output = generator.next() while generator_output is not None: yield generator_output generator_output = generator.next() max_layers = len(self.layers) if hasattr(self.parent, "layerslider"): self.parent.layerslider.SetRange(0, max_layers - 1) self.parent.layerslider.SetValue(0) yield None def addfile(self, gcode = None, showall = False): generator = self.addfile_perlayer(gcode, showall) while generator.next() is not None: continue def _get_movement(self, start_pos, gline): """Takes a start position and a gcode, and returns a 3-uple containing (final position, line, arc), with line and arc being None if not used""" target = start_pos[:] target[5] = 0.0 target[6] = 0.0 if gline.current_x is not None: target[0] = gline.current_x if gline.current_y is not None: target[1] = gline.current_y if gline.current_z is not None: target[2] = gline.current_z if gline.e is not None: if gline.relative_e: target[3] += gline.e else: target[3] = gline.e if gline.f is not None: target[4] = gline.f if gline.i is not None: target[5] = gline.i if gline.j is not None: target[6] = gline.j if gline.command in ["G0", "G1"]: line = [self._x(start_pos[0]), self._y(start_pos[1]), self._x(target[0]), self._y(target[1])] return target, line, None elif gline.command in ["G2", "G3"]: # startpos, endpos, arc center arc = [self._x(start_pos[0]), self._y(start_pos[1]), self._x(target[0]), self._y(target[1]), self._x(start_pos[0] + target[5]), self._y(start_pos[1] + target[6])] if gline.command == "G2": # clockwise, reverse endpoints arc[0], arc[1], arc[2], arc[3] = arc[2], arc[3], arc[0], arc[1] return target, None, arc def _y(self, y): return self.build_dimensions[1] - (y - self.build_dimensions[4]) def _x(self, x): return x - self.build_dimensions[3] def add_parsed_gcodes(self, gcode): start_time = time.time() layer_idx = 0 while layer_idx < len(gcode.all_layers): layer = gcode.all_layers[layer_idx] has_move = False for gline in layer: if gline.is_move: has_move = True break if not has_move: yield layer_idx layer_idx += 1 continue viz_layer = len(self.layers) self.lines[viz_layer] = [] self.pens[viz_layer] = [] self.arcs[viz_layer] = [] self.arcpens[viz_layer] = [] for gline in layer: if not gline.is_move: continue target, line, arc = self._get_movement(self.lastpos[:], gline) if line is not None: self.lines[viz_layer].append(line) self.pens[viz_layer].append(self.mainpen if target[3] != self.lastpos[3] else self.travelpen) elif arc is not None: self.arcs[viz_layer].append(arc) self.arcpens[viz_layer].append(self.arcpen) self.lastpos = target # Transform into a numpy array for memory efficiency self.lines[viz_layer] = numpy.asarray(self.lines[viz_layer], dtype = numpy.float32) self.pens[viz_layer] = numpy.asarray(self.pens[viz_layer]) self.arcs[viz_layer] = numpy.asarray(self.arcs[viz_layer], dtype = numpy.float32) self.arcpens[viz_layer] = numpy.asarray(self.arcpens[viz_layer]) # Only add layer to self.layers now to prevent the display of an # unfinished layer self.layers[layer_idx] = viz_layer self.layersz.append(layer.z) # Refresh display if more than 0.2s have passed if time.time() - start_time > 0.2: start_time = time.time() self.partial = True wx.CallAfter(self.Refresh) yield layer_idx layer_idx += 1 self.dirty = True wx.CallAfter(self.Refresh) yield None def addgcodehighlight(self, gline): if gline.command not in ["G0", "G1", "G2", "G3"]: return target, line, arc = self._get_movement(self.hilightpos[:], gline) if line is not None: self.hilight.append(line) self.hilightqueue.put_nowait(line) elif arc is not None: self.hilightarcs.append(arc) self.hilightarcsqueue.put_nowait(arc) self.hilightpos = target wx.CallAfter(self.Refresh) if __name__ == '__main__': import sys app = wx.App(False) main = GvizWindow(open(sys.argv[1], "rU")) main.Show() app.MainLoop()
