outline_paths = GU.buildCyclePathsForLineSegments(outline_line_list)
elif "COPPER_TOP" in layers:
t = layers["COPPER_TOP"];
outline_line_list = []
for t_l in t.layers:
if options.search_outline_nonzero:
outline_line_list += [k for k in t_l.draws if isinstance(k, GD.GerbObj_Line)]
else:
outline_line_list += [k for k in t_l.draws if isinstance(k, GD.GerbObj_Line) and k.width == 0]
outline_paths = GU.buildCyclePathsForLineSegments(outline_line_list)
# Calculate a bounding rectangle using either all visible objects, or only zero-width lines
check_layers = [v for k,v in layers.items() if not k.startswith("DRILL")]
if (options.bounding_from_visible_only):
check_layers = [v for k,v in layers.items() if k in render_order and not k.startswith("DRILL")]
artwork_bounds = GU.calculateBoundingRectFromPCBLayers(check_layers, options.size0)
# Calculate the board area, for use in setting up the image / image transform
if outline_paths and not options.bounds_artwork:
srcrect = GU.calculateBoundingRectFromOutlines(outline_paths)
srcrect_sane = True
copper_layers = [v for k,v in layers.iteritems() if k.startswith("COPPER")]
copper_bounds = GU.calculateBoundingRectFromPCBLayers(copper_layers)
# Check if we have artwork outside the source rectangle
if srcrect.getStartPoint().x > copper_bounds.getStartPoint().x or \
srcrect.getStartPoint().y > copper_bounds.getStartPoint().y or \
srcrect.getEndPoint().x < copper_bounds.getEndPoint().x or \
srcrect.getEndPoint().y < copper_bounds.getEndPoint().y:
srcrect_sane = False
for j in rep.layers: if (j.polarity == "LP_C"): cr.set_source_rgba(1,0,0, 1) else: cr.set_source_rgba(0,0,1, 1) for k in j.draws: GD.emitGerbObjectCairoPath(cr, k) cr.stroke() cr.pop_group_to_source() cr.paint_with_alpha(1) srcrect = GU.calculateBoundingRectFromPCBLayers([p], False) print srcrect # Calculate the image size and transform (width, height), transform = GD.prepareCairoTransform(1024, srcrect, pad = 50, trim_to_ratio = True) # Prepare a surface to render onto surface = cairo.ImageSurface(cairo.FORMAT_ARGB32, width, height) cr = cairo.Context(surface) # Apply the transform to the context transform(cr) renderGerberFile(p, cr)
]
else:
outline_line_list += [
k for k in t_l.draws
if isinstance(k, GD.GerbObj_Line) and k.width == 0
]
outline_paths = GU.buildCyclePathsForLineSegments(outline_line_list)
# Calculate a bounding rectangle using either all visible objects, or only zero-width lines
check_layers = [v for k, v in layers.items() if not k.startswith("DRILL")]
if (options.bounding_from_visible_only):
check_layers = [
v for k, v in layers.items()
if k in render_order and not k.startswith("DRILL")
]
artwork_bounds = GU.calculateBoundingRectFromPCBLayers(check_layers,
options.size0)
# Calculate the board area, for use in setting up the image / image transform
if outline_paths and not options.bounds_artwork:
srcrect = GU.calculateBoundingRectFromOutlines(outline_paths)
srcrect_sane = True
copper_layers = [
v for k, v in layers.iteritems() if k.startswith("COPPER")
]
copper_bounds = GU.calculateBoundingRectFromPCBLayers(copper_layers)
# Check if we have artwork outside the source rectangle
if srcrect.getStartPoint().x > copper_bounds.getStartPoint().x or \
srcrect.getStartPoint().y > copper_bounds.getStartPoint().y or \
srcrect.getEndPoint().x < copper_bounds.getEndPoint().x or \
