From 14a93ae4d58c1255eca9f4daa9d7ee0140753e7c Mon Sep 17 00:00:00 2001 From: jaseg Date: Fri, 6 Jul 2018 20:24:21 +0200 Subject: Add README and rename tool to gerbolyze --- gerbimg.py | 411 ------------------------------------------------------------- 1 file changed, 411 deletions(-) delete mode 100755 gerbimg.py (limited to 'gerbimg.py') diff --git a/gerbimg.py b/gerbimg.py deleted file mode 100755 index 9f79a52..0000000 --- a/gerbimg.py +++ /dev/null @@ -1,411 +0,0 @@ -#!/usr/bin/env python3 - -import subprocess -import zipfile -import tempfile -import os.path as path -import os -import sys -import time -import shutil -import math - -import tqdm -import gerber -from gerber.render import GerberCairoContext -import numpy as np -import cv2 -import enum - -class Unit(enum.Enum): - MM = 0 - INCH = 1 - MIL = 2 - - -def generate_mask( - outline, - target, - scale, - debugimg, - status_print, - gerber_unit, - extend_overlay_r_mil, - subtract_gerber - ): - # Render all gerber layers whose features are to be excluded from the target image, such as board outline, the - # original silk layer and the solder paste layer to binary images. - with tempfile.TemporaryDirectory() as tmpdir: - img_file = path.join(tmpdir, 'target.png') - - status_print('Combining keepout composite') - fg, bg = gerber.render.RenderSettings((1, 1, 1)), gerber.render.RenderSettings((0, 0, 0)) - ctx = GerberCairoContext(scale=scale) - status_print(' * outline') - ctx.render_layer(outline, settings=fg, bgsettings=bg) - status_print(' * target layer') - ctx.render_layer(target, settings=fg, bgsettings=bg) - for fn, sub in subtract_gerber: - status_print(' * extra layer', os.path.basename(fn)) - layer = gerber.loads(sub) - ctx.render_layer(layer, settings=fg, bgsettings=bg) - status_print('Rendering keepout composite') - ctx.dump(img_file) - - # Vertically flip exported image - original_img = cv2.imread(img_file, cv2.IMREAD_GRAYSCALE)[::-1, :] - - f = 1 if gerber_unit == Unit.INCH else 25.4 # MM - r = 1+2*max(1, int(extend_overlay_r_mil/1000 * f * scale)) - status_print('Expanding keepout composite by', r) - - # Extend image by a few pixels and flood-fill from (0, 0) to mask out the area outside the outermost outline - # This ensures no polygons are generated outside the board even for non-rectangular boards. - border = 10 - outh, outw = original_img.shape - extended_img = np.zeros((outh + 2*border, outw + 2*border), dtype=np.uint8) - extended_img[border:outh+border, border:outw+border] = original_img - cv2.floodFill(extended_img, None, (0, 0), (255,)) - original_img = extended_img[border:outh+border, border:outw+border] - debugimg(extended_img, 'flooded') - - # Dilate the white areas of the image using gaussian blur and threshold. Use these instead of primitive dilation - # here for their non-directionality. - target_img = cv2.blur(original_img, (r, r)) - _, target_img = cv2.threshold(target_img, 255//(1+r), 255, cv2.THRESH_BINARY) - return target_img - -def render_gerbers_to_image(*gerbers, scale, bounds=None): - with tempfile.TemporaryDirectory() as tmpdir: - img_file = path.join(tmpdir, 'target.png') - fg, bg = gerber.render.RenderSettings((1, 1, 1)), gerber.render.RenderSettings((0, 0, 0)) - ctx = GerberCairoContext(scale=scale) - - for grb in gerbers: - ctx.render_layer(grb, settings=fg, bgsettings=bg, bounds=bounds) - - ctx.dump(img_file) - # Vertically flip exported image to align coordinate systems - return cv2.imread(img_file, cv2.IMREAD_GRAYSCALE)[::-1, :] - -def pcb_area_mask(outline, scale): - # Merge layers to target mask - img = render_gerbers_to_image(outline, scale=scale) - # Extend - imgh, imgw = img.shape - img_ext = np.zeros(shape=(imgh+2, imgw+2), dtype=np.uint8) - img_ext[1:-1, 1:-1] = img - # Binarize - img_ext[img_ext < 128] = 0 - img_ext[img_ext >= 128] = 255 - # Flood-fill - cv2.floodFill(img_ext, None, (0, 0), (255,)) # Flood-fill with white from top left corner (0,0) - img_ext_snap = img_ext.copy() - cv2.floodFill(img_ext, None, (0, 0), (0,)) # Flood-fill with black - cv2.floodFill(img_ext, None, (0, 0), (255,)) # Flood-fill with white - return np.logical_xor(img_ext_snap, img_ext)[1:-1, 1:-1].astype(float) - -def generate_template( - silk, mask, copper, outline, drill, - image, - gerber_unit=Unit.MM, - process_resolution:float=6, # mil - resolution_oversampling:float=10, # times - status_print=lambda *args:None - ): - - silk, mask, copper, outline, *drill = map(gerber.load_layer_data, [silk, mask, copper, outline, *drill]) - silk.layer_class = 'topsilk' - mask.layer_class = 'topmask' - copper.layer_class = 'top' - outline.layer_class = 'outline' - scale = (1000/process_resolution) / 25.4 * resolution_oversampling # dpmm - - # Create a new drawing context - ctx = GerberCairoContext(scale=scale) - - ctx.render_layer(copper) - ctx.render_layer(mask) - ctx.render_layer(silk) - for dr in drill: - ctx.render_layer(dr) - ctx.dump(image) - -def paste_image( - target_gerber:str, - outline_gerber:str, - source_img:np.ndarray, - subtract_gerber:list=[], - extend_overlay_r_mil:float=6, - extend_picture_r_mil:float=2, - status_print=lambda *args:None, - gerber_unit=Unit.MM, - debugdir:str=None): - - debugctr = 0 - def debugimg(img, name): - nonlocal debugctr - if debugdir: - cv2.imwrite(path.join(debugdir, '{:02d}{}.png'.format(debugctr, name)), img) - debugctr += 1 - - # Parse outline layer to get bounds of gerber file - status_print('Parsing outline gerber') - outline = gerber.loads(outline_gerber) - (minx, maxx), (miny, maxy) = outline.bounds - grbw, grbh = maxx - minx, maxy - miny - status_print(' * outline has offset {}, size {}'.format((minx, miny), (grbw, grbh))) - - # Parse target layer - status_print('Parsing target gerber') - target = gerber.loads(target_gerber) - (tminx, tmaxx), (tminy, tmaxy) = target.bounds - status_print(' * target layer has offset {}, size {}'.format((tminx, tminy), (tmaxx-tminx, tmaxy-tminy))) - - # Read source image - imgh, imgw = source_img.shape - scale = math.ceil(max(imgw/grbw, imgh/grbh)) # scale is in dpmm - status_print(' * source image has size {}, going for scale {}dpmm'.format((imgw, imgh), scale)) - - # Merge layers to target mask - target_img = generate_mask(outline, target, scale, debugimg, status_print, gerber_unit, extend_overlay_r_mil, subtract_gerber) - - # Threshold source image. Ideally, the source image is already binary but in case it's not, or in case it's not - # exactly binary (having a few very dark or very light grays e.g. due to JPEG compression) we're thresholding here. - status_print('Thresholding source image') - qr = 1+2*max(1, int(extend_picture_r_mil/1000 * scale)) - source_img = source_img[::-1] - _, source_img = cv2.threshold(source_img, 127, 255, cv2.THRESH_BINARY) - debugimg(source_img, 'thresh') - - # Pad image to size of target layer images generated above. After this, `scale` applies to the padded image as well - # as the gerber renders. For padding, zoom or shrink the image to completely fit the gerber's rectangular bounding - # box. Center the image vertically or horizontally if it has a different aspect ratio. - status_print('Padding source image') - tgth, tgtw = target_img.shape - padded_img = np.zeros(shape=target_img.shape, dtype=source_img.dtype) - offx = int((minx-tminx if tminx < minx else 0)*scale) - offy = int((miny-tminy if tminy < miny else 0)*scale) - offx += int(grbw*scale - imgw) // 2 - offy += int(grbh*scale - imgh) // 2 - endx, endy = min(offx+imgw, tgtw), min(offy+imgh, tgth) - print('off', (offx, offy), 'end', (endx, endy), 'img', (imgw, imgh), 'tgt', (tgtw, tgth)) - padded_img[offy:endy, offx:endx] = source_img[:endy-offy, :endx-offx] - debugimg(padded_img, 'padded') - debugimg(target_img, 'target') - - # Mask out excluded gerber features (source silk, holes, solder mask etc.) from the target image - status_print('Masking source image') - out_img = (np.multiply((padded_img/255.0), (target_img/255.0) * -1 + 1) * 255).astype(np.uint8) - - debugimg(out_img, 'multiplied') - - # Calculate contours from masked target image and plot them to the target gerber context - status_print('Calculating contour lines') - plot_contours(out_img, - target, - offx=(tminx, tminy), - scale=scale, - status_print=lambda *args: status_print(' ', *args)) - - # Write target gerber context to disk - status_print('Generating output gerber') - from gerber.render import rs274x_backend - ctx = rs274x_backend.Rs274xContext(target.settings) - target.render(ctx) - out = ctx.dump().getvalue() - status_print('Done.') - return out - - -def plot_contours( - img:np.ndarray, - layer:gerber.rs274x.GerberFile, - offx:tuple, - scale:float, - debug=lambda *args:None, - status_print=lambda *args:None): - imgh, imgw = img.shape - - # Extract contour hierarchy using OpenCV - status_print('Extracting contours') - img_cont_out, contours, hierarchy = cv2.findContours(img, cv2.RETR_TREE, cv2.CHAIN_APPROX_TC89_KCOS) - - aperture = list(layer.apertures)[0] - - from gerber.primitives import Line, Region - status_print('offx', offx, 'scale', scale) - - xbias, ybias = offx - def map(coord): - x, y = coord - return (x/scale + xbias, y/scale + ybias) - def contour_lines(c): - return [ Line(map(start), map(end), aperture, level_polarity='dark', units=layer.settings.units) - for start, end in zip(c, np.vstack((c[1:], c[:1]))) ] - - done = [] - process_stack = [-1] - next_process_stack = [] - parents = [ (i, first_child != -1, parent) for i, (_1, _2, first_child, parent) in enumerate(hierarchy[0]) ] - is_dark = True - status_print('Converting contours to gerber primitives') - with tqdm.tqdm(total=len(contours)) as progress: - while len(done) != len(contours): - for i, has_children, parent in parents[:]: - if parent in process_stack: - contour = contours[i] - polarity = 'dark' if is_dark else 'clear' - debug('rendering {} with parent {} as {} with {} vertices'.format(i, parent, polarity, len(contour))) - debug('process_stack is', process_stack) - debug() - layer.primitives.append(Region(contour_lines(contour[:,0]), level_polarity=polarity, units=layer.settings.units)) - if has_children: - next_process_stack.append(i) - done.append(i) - parents.remove((i, has_children, parent)) - progress.update(1) - debug('skipping to next level') - process_stack, next_process_stack = next_process_stack, [] - is_dark = not is_dark - debug('done', done) - -# Utility foo -# =========== - -def find_gerber_in_dir(dir_path, extensions, exclude=''): - contents = os.listdir(dir_path) - exts = extensions.split('|') - excs = exclude.split('|') - for entry in contents: - if any(entry.lower().endswith(ext.lower()) for ext in exts) and not any(entry.lower().endswith(ex) for ex in excs if exclude): - lname = path.join(dir_path, entry) - if not path.isfile(lname): - continue - with open(lname, 'r') as f: - return lname, f.read() - - raise ValueError(f'Cannot find file with suffix {extensions} in dir {dir_path}') - -# Gerber file name extensions for Altium/Protel | KiCAD | Eagle -LAYER_SPEC = { - 'top': { - 'paste': '.gtp|-F.Paste.gbr|.pmc', - 'silk': '.gto|-F.SilkS.gbr|.plc', - 'mask': '.gts|-F.Mask.gbr|.stc', - 'copper': '.gtl|-F.Cu.bgr|.cmp', - 'outline': '.gm1|-Edge.Cuts.gbr|.gmb', - }, - 'bottom': { - 'paste': '.gbp|-B.Paste.gbr|.pms', - 'silk': '.gbo|-B.SilkS.gbr|.pls', - 'mask': '.gbs|-B.Mask.gbr|.sts', - 'copper': '.gbl|-B.Cu.bgr|.sol', - 'outline': '.gm1|-Edge.Cuts.gbr|.gmb' - }, - } - -# Command line interface -# ====================== - -def process_gerbers(source, target, image, side, layer, debugdir): - if not os.path.isdir(source): - raise ValueError(f'Given source "{source}" is not a directory.') - - # Load input files - source_img = cv2.imread(image, cv2.IMREAD_GRAYSCALE) - if source_img is None: - print(f'"{image}" is not a valid image file', file=sys.stderr) - sys.exit(1) - - tlayer, slayer = { - 'silk': ('silk', 'mask'), - 'mask': ('mask', 'silk'), - 'copper': ('copper', None) - }[layer] - - layers = LAYER_SPEC[side] - tname, tgrb = find_gerber_in_dir(source, layers[tlayer]) - print('Target layer file {}'.format(os.path.basename(tname))) - oname, ogrb = find_gerber_in_dir(source, layers['outline']) - print('Outline layer file {}'.format(os.path.basename(oname))) - subtract = find_gerber_in_dir(source, layers[slayer]) if slayer else None - - # Prepare output. Do this now to error out as early as possible if there's a problem. - if os.path.exists(target): - if os.path.isdir(target) and sorted(os.listdir(target)) == sorted(os.listdir(source)): - shutil.rmtree(target) - else: - print('Error: Target already exists and does not look like source. Please manually remove the target dir before proceeding.', file=sys.stderr) - sys.exit(1) - - # Generate output - out = paste_image(tgrb, ogrb, source_img, [subtract], debugdir=debugdir, status_print=lambda *args: print(*args, flush=True)) - - shutil.copytree(source, target) - with open(os.path.join(target, os.path.basename(tname)), 'w') as f: - f.write(out) - -def render_preview(source, image, side, process_resolution, resolution_oversampling): - def load_layer(layer): - name, grb = find_gerber_in_dir(source, LAYER_SPEC[side][layer]) - print(f'{layer} layer file {os.path.basename(name)}') - return grb - - outline = load_layer('outline') - silk = load_layer('silk') - mask = load_layer('mask') - copper = load_layer('copper') - - try: - nm, npth = find_gerber_in_dir(source, '-npth.drl') - print(f'npth drill file {nm}') - except ValueError: - npth = None - nm, drill = find_gerber_in_dir(source, '.drl|.txt', exclude='-npth.drl') - print(f'drill file {nm}') - drill = ([npth] if npth else []) + [drill] - - generate_template( - silk, mask, copper, outline, drill, - image, - gerber_unit=Unit.MM, - process_resolution=process_resolution, - resolution_oversampling=resolution_oversampling, - ) - -if __name__ == '__main__': - # Parse command line arguments - import argparse - parser = argparse.ArgumentParser() - - subcommand = parser.add_subparsers(help='Sub-commands') - subcommand.required, subcommand.dest = True, 'command' - vectorize_parser = subcommand.add_parser('vectorize', help='Vectorize bitmap image onto gerber layer') - render_parser = subcommand.add_parser('render', help='Render bitmap preview of board suitable as a template for positioning and scaling the input image') - - parser.add_argument('-d', '--debugdir', type=str, default=None, help='Directory to place intermediate images into for debuggin') - - vectorize_parser.add_argument('side', choices=['top', 'bottom'], help='Target board side') - vectorize_parser.add_argument('--layer', '-l', choices=['silk', 'mask', 'copper'], default='silk', help='Target layer on given side') - - vectorize_parser.add_argument('source', help='Source gerber directory') - vectorize_parser.add_argument('target', help='Target gerber directory') - vectorize_parser.add_argument('image', help='Image to render') - - render_parser.add_argument('--fab-resolution', '-r', type=float, nargs='?', default=6.0, help='Smallest feature size supported by PCB manufacturer, in mil. On silkscreen layers, this is the minimum font stroke width.') - render_parser.add_argument('--oversampling', '-o', type=float, nargs='?', default=10, help='Oversampling factor for the image. If set to say, 10 pixels, one minimum feature size (see --fab-resolution) will be 10 pixels long. The input image for vectorization should not contain any detail of smaller pixel size than this number in order to be manufacturable.') - render_parser.add_argument('side', choices=['top', 'bottom'], help='Target board side') - render_parser.add_argument('source', help='Source gerber directory') - render_parser.add_argument('image', help='Output image filename') - args = parser.parse_args() - - #try: - if args.command == 'vectorize': - process_gerbers(args.source, args.target, args.image, args.side, args.layer, args.debugdir) - else: # command == render - render_preview(args.source, args.image, args.side, args.fab_resolution, args.oversampling) - #except ValueError as e: - # print(*e.args, file=sys.stderr) - # sys.exit(1) - -- cgit