import os import FreeCADGui as Gui import FreeCAD as App class AHB_Render: def GetResources(self): return {"MenuText": "Render", "ToolTip": "Render to images", "Pixmap": "" } def IsActive(self): return True def set_render_lines(self, line_color = (0.0,0.0,0.0,0.0), background_color = (1.0,1.0,1.0,0.0)): doc = App.activeDocument() for obj in doc.Objects: if obj.TypeId == 'Part::Feature': if 'AssemblyHandbook_Stage' in obj.PropertiesList: if 'AssemblyHandbook_RenderLines' in obj.PropertiesList and not obj.AssemblyHandbook_RenderLines: obj.ViewObject.LineColor = background_color else: obj.ViewObject.LineColor = line_color obj.ViewObject.DisplayMode = 'Flat Lines' obj.ViewObject.ShapeMaterial.AmbientColor = (0.0, 0.0, 0.0, 0.0) obj.ViewObject.ShapeMaterial.EmissiveColor = background_color def set_render_outlines(self): doc = App.activeDocument() step = 8 r = step g = step b = step for obj in doc.Objects: if obj.TypeId == 'Part::Feature': if 'AssemblyHandbook_Stage' in obj.PropertiesList: obj.ViewObject.DisplayMode = 'Shaded' obj.ViewObject.ShapeMaterial.AmbientColor = (0.0, 0.0, 0.0, 0.0) obj.ViewObject.ShapeMaterial.DiffuseColor = (0.0, 0.0, 0.0, 0.0) obj.ViewObject.ShapeMaterial.SpecularColor = (0.0, 0.0, 0.0, 0.0) obj.ViewObject.ShapeMaterial.EmissiveColor = (r/255.0, g/255.0, b/255.0, 0.0) r = r + step if r >= 256 - step: r = step g = g + step if g >= 256 - step: g = step b = b + step if b >= 256 - step: b = step def Activated(self): resolution = (1024, 1024) self.set_render_lines() Gui.ActiveDocument.ActiveView.saveImage("/home/youen/dev_linux/vhelio-render/vhelio.png", resolution[0], resolution[1], "#ffffff") self.set_render_outlines() Gui.ActiveDocument.ActiveView.saveImage("/home/youen/dev_linux/vhelio-render/vhelio-shapes.png", resolution[0]*2, resolution[1]*2, "#ffffff") from PIL import Image import time lines = Image.open("/home/youen/dev_linux/vhelio-render/vhelio.png") lines = lines.convert("L") shapes = Image.open("/home/youen/dev_linux/vhelio-render/vhelio-shapes.png") cacheWidth = 8 cacheHalfWidth = int(cacheWidth/2) cache = [] for y in range(0, 4): cacheLine = [] for x in range(0, cacheWidth + 2): cacheLine.append((0.0,0.0,0.0)) cache.append(cacheLine) startTime = time.perf_counter() for xb in range(1, lines.size[0]-cacheHalfWidth, cacheHalfWidth): for yb in range(1, lines.size[1]-1): for y in range(0, 4): cacheLine = cache[y] for x in range(0, cacheWidth + 2): cacheLine[x] = shapes.getpixel((xb*2+x-1, yb*2+y-1)) for xa in range(0, cacheHalfWidth): outline_color = 1.0 for xaa in range(0, 2): x = xa*2 + xaa for y in range(0, 2): c = cache[y+1][x+1] border = False if c != cache[y][x]: border = True if c != cache[y][x+1]: border = True if c != cache[y][x+2]: border = True if c != cache[y+1][x]: border = True if c != cache[y+1][x+2]: border = True if c != cache[y+2][x]: border = True if c != cache[y+2][x+1]: border = True if c != cache[y+2][x+2]: border = True if border: outline_color = outline_color - 0.25 lines.putpixel((xb+xa, yb), min(lines.getpixel((xb+xa, yb)), int(outline_color * 255.0))) endTime = time.perf_counter() print("Outline detection: " + str(round((endTime - startTime)*1000)/1000) + "s") lines.save("/home/youen/dev_linux/vhelio-render/vhelio-final.png") from ahb_command import AHB_CommandWrapper AHB_CommandWrapper.addGuiCommand('AHB_render', AHB_Render())