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332 lines
16 KiB
332 lines
16 KiB
import os |
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import tempfile |
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from typing import Optional |
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import FreeCADGui as Gui |
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import FreeCAD as App |
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class AHB_Render: |
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def GetResources(self): |
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return {"MenuText": "Render", |
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"ToolTip": "Render to images", |
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"Pixmap": "" |
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} |
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def IsActive(self): |
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return True |
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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), mask_stages_below: Optional[int] = None, mask_color=(1.0,1.0,1.0)): |
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doc = App.activeDocument() |
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for obj in doc.Objects: |
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if obj.TypeId == 'Part::Feature': |
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if 'AssemblyHandbook_Stage' in obj.PropertiesList: |
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masked = mask_stages_below is not None and obj.AssemblyHandbook_Stage < mask_stages_below |
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if 'AssemblyHandbook_RenderLines' in obj.PropertiesList and not obj.AssemblyHandbook_RenderLines: |
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obj.ViewObject.LineColor = background_color |
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else: |
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obj.ViewObject.LineColor = line_color |
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obj.ViewObject.DisplayMode = 'Flat Lines' if not masked else 'Shaded' |
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obj.ViewObject.ShapeMaterial.AmbientColor = (0.0, 0.0, 0.0, 0.0) |
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obj.ViewObject.ShapeMaterial.DiffuseColor = (0.0, 0.0, 0.0, 0.0) |
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obj.ViewObject.ShapeMaterial.SpecularColor = (0.0, 0.0, 0.0, 0.0) |
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obj.ViewObject.ShapeMaterial.EmissiveColor = background_color if not masked else mask_color |
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def set_render_outlines(self, mask_stages_below: Optional[int] = None): |
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doc = App.activeDocument() |
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step = 8 |
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r = step |
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g = step |
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b = step |
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for obj in doc.Objects: |
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if obj.TypeId == 'Part::Feature': |
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if 'AssemblyHandbook_Stage' in obj.PropertiesList: |
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masked = mask_stages_below is not None and obj.AssemblyHandbook_Stage < mask_stages_below |
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obj.ViewObject.DisplayMode = 'Shaded' |
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obj.ViewObject.ShapeMaterial.AmbientColor = (0.0, 0.0, 0.0, 0.0) |
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obj.ViewObject.ShapeMaterial.DiffuseColor = (0.0, 0.0, 0.0, 0.0) |
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obj.ViewObject.ShapeMaterial.SpecularColor = (0.0, 0.0, 0.0, 0.0) |
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#obj.ViewObject.ShapeMaterial.EmissiveColor = (r/255.0, g/255.0, b/255.0, 0.0) if not masked else (1.0,1.0,1.0,0.0) |
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obj.ViewObject.ShapeMaterial.EmissiveColor = (r/255.0, g/255.0, b/255.0, 0.0) |
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if masked: |
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obj.ViewObject.Visibility = False |
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r = r + step |
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if r >= 256 - step: |
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r = step |
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g = g + step |
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if g >= 256 - step: |
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g = step |
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b = b + step |
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if b >= 256 - step: |
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b = step |
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def reset_display(self): |
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doc = App.activeDocument() |
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for obj in doc.Objects: |
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if obj.TypeId == 'Part::Feature': |
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if 'AssemblyHandbook_Stage' in obj.PropertiesList: |
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obj.ViewObject.LineColor = (0.0, 0.0, 0.0, 0.0) |
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obj.ViewObject.DisplayMode = 'Flat Lines' |
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obj.ViewObject.ShapeMaterial.AmbientColor = (0.3, 0.3, 0.3, 0.0) |
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obj.ViewObject.ShapeMaterial.DiffuseColor = (1.0, 1.0, 1.0, 0.0) |
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obj.ViewObject.ShapeMaterial.SpecularColor = (0.5, 0.5, 0.5, 0.0) |
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obj.ViewObject.ShapeMaterial.EmissiveColor = (0.0, 0.0, 0.0, 0.0) |
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workbench = Gui.getWorkbench("AssemblyHandbookWorkbench") |
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workbench.context.onPartStageChanged(None) |
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def render(self, resolution, filename: str, line_color=(0.0, 0.0, 0.0, 0.0), fill_color=(1.0, 1.0, 1.0, 0.0), mask_stages_below: Optional[int] = None): |
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import time |
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from PIL import Image, ImageFilter |
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render_start_time = time.perf_counter() |
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temp_lines_file_name = tempfile.gettempdir() + "/ahb_temp_lines.png" |
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temp_shapes_file_name = tempfile.gettempdir() + "/ahb_temp_shapes.png" |
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#temp_lines_file_name = filename + "-lines.png" |
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#temp_shapes_file_name = filename + "-shapes.png" |
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# render lines in black, background in red, fill shapes in green |
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# the green band contains the lines images, the red band contains the inverted alpha layer |
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self.set_render_lines((0.0, 0.0, 0.0), (0.0, 1.0, 0.0), mask_stages_below=mask_stages_below, mask_color=(1.0, 0.0, 1.0)) |
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Gui.ActiveDocument.ActiveView.saveImage(temp_lines_file_name, resolution[0]+2, resolution[1]+2, "#ff0000") |
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self.set_render_outlines(mask_stages_below=mask_stages_below) |
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Gui.ActiveDocument.ActiveView.saveImage(temp_shapes_file_name, (resolution[0]+2) * 2, (resolution[1]+2) * 2, "#ffffff") |
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lines_bands = Image.open(temp_lines_file_name).split() |
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lines = lines_bands[1] |
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alpha_band = lines_bands[0].point(lambda p: 255 - p) |
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shapes = Image.open(temp_shapes_file_name) |
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outlines_start_time = time.perf_counter() |
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outlines = None |
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for x in range(0, 3): |
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for y in range(0, 3): |
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if x == 1 and y == 1: continue |
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kernel = [0, 0, 0, 0, 1, 0, 0, 0, 0] |
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kernel[y * 3 + x] = -1 |
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partial_outlines = shapes.filter(ImageFilter.Kernel((3, 3), kernel, 1, 127)) |
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partial_outlines = partial_outlines.point(lambda p: 255 if p == 127 else 0) |
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partial_outlines = partial_outlines.convert("L") |
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partial_outlines = partial_outlines.point(lambda p: 255 if p == 255 else 0) |
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if outlines is None: |
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outlines = partial_outlines |
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else: |
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outlines.paste(partial_outlines, None, partial_outlines.point(lambda p: 0 if p == 255 else 255)) |
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# erase masked outlines |
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outlines.paste(outlines.point(lambda p: 255), None, lines_bands[2].resize(outlines.size).point(lambda p: 255 if p == 255 else 0)) |
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# outlines.save("/home/youen/dev_linux/vhelio-render/vhelio-outlines.png") |
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# outlines = outlines.resize(lines.size, Image.BILINEAR) |
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# lines.paste(outlines, None, outlines.point(lambda p: 255 - p)) |
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lines_fullres = lines.resize(outlines.size, Image.NEAREST) |
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lines_fullres.paste(outlines, None, outlines.point(lambda p: 255 if p == 0 else 0)) |
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lines = lines_fullres.resize(lines.size, Image.BILINEAR) |
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alpha_band_fullres = alpha_band.resize(outlines.size, Image.NEAREST) |
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alpha_band_fullres.paste(outlines.point(lambda p: 255), None, outlines.point(lambda p: 255 if p == 0 else 0)) |
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alpha_band = alpha_band_fullres.resize(lines.size, Image.BILINEAR) |
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outlines_end_time = time.perf_counter() |
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# colorize |
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result = Image.merge("RGBA", [ |
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lines.point(lambda p: int(fill_color[0] * p + line_color[0]*(255.0-p))), |
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lines.point(lambda p: int(fill_color[1] * p + line_color[1] * (255.0 - p))), |
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lines.point(lambda p: int(fill_color[2] * p + line_color[2] * (255.0 - p))), |
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alpha_band |
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]) |
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# crop 1px borders |
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result = result.crop((1, 1, result.size[0] - 1, result.size[1] - 1)) |
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result.save(filename) |
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print("Rendered " + filename + " in " + str( |
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round((outlines_end_time - render_start_time) * 1000) / 1000) + "s (outlines detection in " + str( |
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round((outlines_end_time - outlines_start_time) * 1000) / 1000) + "s)") |
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def Activated(self): |
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import shutil |
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from PIL import Image, ImageFilter |
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import math |
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from pivy import coin |
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import re |
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render_main = False |
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render_stages = True |
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render_parts = False |
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Gui.Selection.clearSelection() |
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Gui.activeDocument().activeView().setCameraType("Orthographic") |
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workbench = Gui.getWorkbench("AssemblyHandbookWorkbench") |
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doc = App.activeDocument() |
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doc_file_name: str = doc.FileName |
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if doc_file_name is None: |
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raise BaseException("You must save your FreeCAD document before rendering images") |
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filename = os.path.splitext(doc_file_name)[0] + ".png" |
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dir = os.path.dirname(filename) |
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if render_main: |
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resolution = (3000,3000) |
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workbench.context.setAllStagesVisible(True) |
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self.render(resolution, filename) |
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self.reset_display() |
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img_full = Image.new('RGB', resolution, (255, 255, 255)) |
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img = Image.open(filename) |
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img_full.paste(img, None, img.getchannel('A')) |
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img_full.save(filename) |
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if render_stages: |
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shutil.rmtree(dir + "/stages", ignore_errors=True) |
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os.makedirs(dir + "/stages", exist_ok=True) |
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all_stages = workbench.context.getAllStages() |
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prev_stage_id: Optional[int] = None |
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for stage_id in all_stages: |
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stage_name = str(stage_id) |
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while len(stage_name) < 6: |
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stage_name = "0" + stage_name |
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resolution = (3000, 3000) |
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if prev_stage_id is not None: |
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workbench.context.setActiveStage(prev_stage_id) |
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workbench.context.setAllStagesVisible(False) |
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self.render(resolution, dir + "/stages/" + stage_name + "-bg.png", (0.7, 0.7, 0.7), (1,1,1)) |
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workbench.context.setActiveStage(stage_id) |
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workbench.context.setAllStagesVisible(False) |
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self.render(resolution, dir + "/stages/" + stage_name + ".png", mask_stages_below=stage_id) |
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# merge images |
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bg = Image.new('RGB', resolution, (255,255,255)) |
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if prev_stage_id is not None: |
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prev_stage = Image.open(dir + "/stages/" + stage_name + "-bg.png") |
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prev_stage.load() |
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os.remove(dir + "/stages/" + stage_name + "-bg.png") |
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bg.paste(prev_stage, None, prev_stage.getchannel('A')) |
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fg = Image.open(dir + "/stages/" + stage_name + ".png") |
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bg.paste(fg, None, fg.getchannel('A')) |
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bg.save(dir + "/stages/" + stage_name + ".png") |
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if prev_stage_id is not None: |
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pass |
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prev_stage_id = stage_id |
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self.reset_display() |
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if render_parts: |
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rendered_references = [] |
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max_length = 1500 |
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max_resolution = 800 |
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min_resolution = 350 |
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shutil.rmtree(dir + "/parts", ignore_errors=True) |
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os.makedirs(dir + "/parts", exist_ok=True) |
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count = 0 |
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for part_to_render in doc.Objects: |
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if part_to_render.TypeId in ['Part::Feature', 'App::Part']: |
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if 'Base_Reference' not in part_to_render.PropertiesList or part_to_render.Base_Reference == "" or part_to_render.Base_Reference in rendered_references: |
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continue |
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parent = part_to_render.Parents[0][0] if len(part_to_render.Parents) > 0 else None |
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if parent is not None and parent.TypeId != 'App::Part': |
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parent = None |
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if parent is not None and 'Base_Reference' in parent.PropertiesList and parent.Base_Reference != "": |
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continue |
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#if not part_to_render.Label.startswith("L") and not part_to_render.Label.startswith("M") and not part_to_render.Label.startswith("T") and not part_to_render.Label.startswith("R"): |
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# continue |
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rendered_references.append(part_to_render.Base_Reference) |
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for part_to_hide in doc.Objects: |
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if part_to_hide.TypeId == 'Part::Feature': |
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part_to_hide.ViewObject.Visibility = False |
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part_to_render.ViewObject.Visibility = True |
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if part_to_render.TypeId == 'App::Part': |
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for feature in part_to_render.Group: |
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feature.ViewObject.Visibility = True |
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dimensions = [part_to_render.Shape.BoundBox.XLength, part_to_render.Shape.BoundBox.YLength, part_to_render.Shape.BoundBox.ZLength] |
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main_axis: int = 0; |
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main_length: float = part_to_render.Shape.BoundBox.XLength |
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if part_to_render.Shape.BoundBox.YLength > main_length: |
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main_axis = 1 |
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main_length = part_to_render.Shape.BoundBox.YLength |
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if part_to_render.Shape.BoundBox.ZLength > main_length: |
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main_axis = 2 |
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main_length = part_to_render.Shape.BoundBox.ZLength |
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center = coin.SbVec3f(part_to_render.Shape.BoundBox.Center) |
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offset = coin.SbVec3f(800, -2000, 800) |
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up = coin.SbVec3f(0, 0, 1) |
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if main_axis == 1: |
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offset[0], offset[1] = -offset[1], offset[0] |
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elif main_axis == 2: |
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offset[0], offset[2] = -offset[2], offset[0] |
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up = coin.SbVec3f(-1, 0, 0) |
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cam = Gui.ActiveDocument.ActiveView.getCameraNode() |
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cam.position = center + offset |
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cam.pointAt(center, up) |
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Gui.ActiveDocument.ActiveView.fitAll() |
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cross_length = 0 |
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if main_axis == 0: |
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cross_length = max(dimensions[1] * 0.5, dimensions[2]) |
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elif main_axis == 1: |
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cross_length = max(dimensions[0] * 0.5, dimensions[2]) |
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elif main_axis == 2: |
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cross_length = max(dimensions[0], dimensions[1] * 0.5) |
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cross_length = max(cross_length, main_length * 0.25 + cross_length * 0.8) |
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main_length_pixels = max(min_resolution, int(math.pow(min(1.0, main_length / max_length), 0.3) * max_resolution)) |
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cross_length_pixels = int(cross_length * main_length_pixels / main_length) |
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cam.scaleHeight(0.05 + 0.95 * cross_length_pixels / main_length_pixels) |
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resolution = (main_length_pixels, cross_length_pixels) |
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part_filename = dir + "/parts/" + re.sub('[^A-Z0-9_]', '-', part_to_render.Base_Reference.upper()) + ".png" |
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self.render(resolution, part_filename) |
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image = Image.new('RGB', resolution, (255, 255, 255)) |
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fg = Image.open(part_filename) |
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image.paste(fg, None, fg.getchannel('A')) |
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#image.save(part_filename) |
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final_apsect_ratio = 2.0 # width/height |
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final_resolution = (max_resolution, int(max_resolution / final_apsect_ratio)) |
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final_size = image.size |
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if final_size[0] > final_resolution[0]: |
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final_size = (final_size[0] * final_resolution[0] / final_size[0], final_size[1] * final_resolution[0] / final_size[0]) |
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if final_size[1] > final_resolution[1]: |
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final_size = (final_size[0] * final_resolution[1] / final_size[1], final_size[1] * final_resolution[1] / final_size[1]) |
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final_size = (int(final_size[0]), int(final_size[1])) |
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if final_size[0] < image.size[0] or final_size[1] < image.size[1]: |
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image.thumbnail(final_size, Image.ANTIALIAS) |
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final_image = Image.new('RGB', final_resolution, (255, 255, 255)) |
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final_image.paste(image, (final_resolution[0] - final_size[0], int(final_resolution[1]/2 - final_size[1]/2))) |
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final_image.save(part_filename) |
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count = count + 1 |
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if count == 10: |
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pass |
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self.reset_display() |
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workbench.context.setAllStagesVisible(True) |
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from ahb_command import AHB_CommandWrapper |
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AHB_CommandWrapper.addGuiCommand('AHB_render', AHB_Render())
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