Add PNG to SVG color separation tool for multi-color 3D printing
Created split_png_by_brightness.py to split rasterized logos into separate SVG files by color for Underground Magnetics logo conversion. Key features: - OpenCV contour hierarchy detection for proper hole handling - Letters with enclosed shapes (d, o, g, etc.) now render correctly - Tight brightness thresholds to avoid antialiasing artifacts - Automatic bounding box cropping for optimal file sizes - Black text: brightness < 40 (236k pixels, 21 shape groups) - Grey icon: brightness 108-118 (119k pixels, 2 shape groups) Results: - um_black.svg: 6.1KB, 3070x233px (was 139KB, 3613x391px) - um_grey.svg: 728B, 413x390px (was 253KB, 3613x391px) Files: - split_png_by_brightness.py: Main color separation tool - IMPROVEMENTS.md: Detailed changelog and comparison - README_underground_magnetics.md: Usage documentation - underground-magnetics.eps: Source logo file - um_black.svg: Separated black text (cropped) - um_grey.svg: Separated grey icon (cropped) - requirements.txt: Added opencv-python dependency 🤖 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com>
This commit is contained in:
62
IMPROVEMENTS.md
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IMPROVEMENTS.md
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# Improvements to split_png_by_brightness.py
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## Version 2 Fixes
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### 1. Proper Hole Handling
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**Problem**: Letters with enclosed shapes (like "d", "o", "g") were missing their holes, making them appear filled.
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**Solution**:
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- Switched from `scikit-image` contour detection to OpenCV's `cv2.findContours` with `RETR_CCOMP` mode
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- This detects contour hierarchy (parent/child relationships)
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- Holes are now included in the same SVG path as their parent contour
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- Using `fill-rule="evenodd"` properly renders the holes
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### 2. Better Color Detection
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**Problem**: Antialiasing pixels around edges were being included, creating artifacts and incorrect bounding boxes.
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**Solution**:
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- Changed from single threshold to tight ranges
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- Black text: brightness < 40 (was < 50)
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- Grey icon: brightness 108-118 (was 80-120)
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- This excludes antialiased edge pixels and prevents the grey icon from spanning the full image width
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### 3. Automatic Bounding Box Cropping
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**Problem**: SVG files contained a lot of empty space.
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**Solution**:
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- Added automatic cropping to bounding box by default
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- Each SVG is sized to fit its content exactly
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- `--no-crop` flag available if full canvas is needed
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## Results
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**Before (v1)**:
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- um_black.svg: 139K, 27 separate paths, many filled letters
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- um_grey.svg: 253K, 1609 paths, antialiasing artifacts, full width (3613px)
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**After (v2)**:
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- um_black.svg: 6.1K, 21 shape groups with proper holes, cropped to 3070x233
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- um_grey.svg: 728B, 2 shape groups, clean edges, cropped to 413x390
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## Dependencies Added
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- opencv-python==4.13.0.92
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## Default Parameters
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- Black threshold: < 40 brightness
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- Grey range: 108-118 brightness
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- Cropping: enabled by default
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## Usage
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```bash
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# Default (optimized for Underground Magnetics logo)
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python split_png_by_brightness.py input.png --prefix output
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# Custom thresholds
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python split_png_by_brightness.py input.png \
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--dark-threshold 40 \
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--mid-min 108 \
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--mid-max 118
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# Disable cropping
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python split_png_by_brightness.py input.png --no-crop
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```
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README_underground_magnetics.md
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README_underground_magnetics.md
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# Underground Magnetics Logo - Color Separation
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Successfully split the Underground Magnetics EPS logo into separate SVG files by color for multi-color 3D printing.
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## Process
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1. **EPS to PNG Conversion**: Used ImageMagick to convert `underground-magnetics.eps` to PNG format
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- Output: `underground-magnetics-0.png` and `underground-magnetics-1.png`
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2. **Color Separation**: Used `split_png_by_brightness.py` to extract separate colors
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- Analyzed brightness values to distinguish grey icon from black text
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- Created separate SVG files for each color region
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## Output Files
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- **underground-magnetics_grey.svg** - Grey "UM" icon (126,801 pixels, 1609 paths)
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- **underground-magnetics_black.svg** - Black "Underground Magnetics" text (237,130 pixels, 27 paths)
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## Usage
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To convert these SVG files to 3D models for multi-color printing:
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```bash
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# Convert grey icon to STL
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python svg_logo_to_stl.py underground-magnetics_grey.svg um_grey --width-mm 100 --base-thickness 1.5 --feature-height 2.5
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# Convert black text to STL
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python svg_logo_to_stl.py underground-magnetics_black.svg um_black --width-mm 100 --base-thickness 1.5 --feature-height 2.5
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```
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## Tools Created
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### split_png_by_brightness.py
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Splits PNG images into separate SVG files based on brightness/color clusters.
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**Usage:**
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```bash
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python split_png_by_brightness.py <input.png> [options]
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Options:
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--output-dir, -o Output directory (default: same as input)
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--prefix, -p Prefix for output files (default: input filename)
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--dark-threshold INT Brightness threshold for dark/black (default: 50)
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--mid-threshold INT Brightness threshold for mid/grey (default: 150)
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```
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**Example:**
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```bash
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python split_png_by_brightness.py underground-magnetics-0.png --prefix underground-magnetics
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```
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This creates separate SVG files for each color region detected in the PNG.
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## Color Detection
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The script analyzes pixel brightness to separate colors:
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- **Dark pixels** (brightness < 50): Black text → `_black.svg`
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- **Mid-range pixels** (50 ≤ brightness < 150): Grey icon → `_grey.svg`
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- **Light pixels** (brightness ≥ 150): White background (ignored)
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## Next Steps
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1. Import the separate SVG files into the 3D conversion tool
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2. Generate STL files for each color
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3. Create 3MF assembly with multiple selectable parts
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4. Import into BambuStudio for multi-color printing
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@@ -8,6 +8,7 @@ lazy-loader==0.5
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mapbox_earcut==2.0.0
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mapbox_earcut==2.0.0
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networkx==3.4.2
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networkx==3.4.2
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numpy==2.2.6
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numpy==2.2.6
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opencv-python==4.13.0.92
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packaging==26.2
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packaging==26.2
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pillow==12.2.0
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pillow==12.2.0
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pycparser==3.0
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pycparser==3.0
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split_png_by_brightness.py
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split_png_by_brightness.py
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#!/usr/bin/env python3
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"""
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Split a PNG file into multiple SVG files based on brightness/color clusters.
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Useful for multi-color 3D printing when the source is a rasterized logo.
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"""
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import argparse
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import numpy as np
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from PIL import Image
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from pathlib import Path
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import cv2
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import xml.etree.ElementTree as ET
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def extract_color_regions(image_path: Path, dark_threshold: int = 30, mid_min: int = 108, mid_max: int = 118):
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"""
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Extract different color regions from PNG based on brightness.
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Uses tighter thresholds to avoid antialiasing artifacts.
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Returns dict of {color_name: binary_mask}
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"""
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img = Image.open(image_path).convert('RGBA')
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img_array = np.array(img)
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# Get alpha mask (non-transparent pixels)
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alpha = img_array[..., 3] > 128
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# Calculate brightness for each pixel
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rgb = img_array[..., :3]
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brightness = np.mean(rgb, axis=-1)
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# Create masks for different brightness levels
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masks = {}
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# Dark pixels (black text) - very tight threshold to avoid antialiasing
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dark_mask = alpha & (brightness < dark_threshold)
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if np.sum(dark_mask) > 100:
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masks['black'] = dark_mask
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# Mid-range pixels (grey icon) - tight range to get only the core grey
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mid_mask = alpha & (brightness >= mid_min) & (brightness <= mid_max)
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if np.sum(mid_mask) > 100:
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masks['grey'] = mid_mask
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return masks
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def compute_contour_area(contour):
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"""Compute the signed area of a contour (positive = clockwise, negative = counter-clockwise)"""
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if len(contour) < 3:
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return 0
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# Shoelace formula
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x = contour[:, 0]
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y = contour[:, 1]
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return 0.5 * np.abs(np.dot(x, np.roll(y, 1)) - np.dot(y, np.roll(x, 1)))
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def mask_to_svg_paths_with_holes(mask: np.ndarray, simplify_epsilon: float = 1.0):
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"""
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Convert a binary mask to SVG path data with proper hole handling.
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Returns list of path d attributes with fill-rule evenodd.
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"""
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# Convert to uint8 for OpenCV
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mask_uint8 = (mask * 255).astype(np.uint8)
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# Find contours with hierarchy (to detect holes)
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contours, hierarchy = cv2.findContours(mask_uint8, cv2.RETR_CCOMP, cv2.CHAIN_APPROX_SIMPLE)
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if hierarchy is None or len(contours) == 0:
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return []
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# Simplify contours
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simplified_contours = []
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for contour in contours:
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if simplify_epsilon > 0:
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simplified = cv2.approxPolyDP(contour, simplify_epsilon, True)
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else:
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simplified = contour
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simplified_contours.append(simplified)
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# Group contours by parent/child relationship
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# hierarchy format: [Next, Previous, First_Child, Parent]
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hierarchy = hierarchy[0]
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# Find all top-level contours (no parent)
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top_level_indices = [i for i in range(len(hierarchy)) if hierarchy[i][3] == -1]
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paths = []
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for top_idx in top_level_indices:
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contour = simplified_contours[top_idx]
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if len(contour) < 3:
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continue
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# Start with outer contour
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path_data = contour_to_svg_path(contour)
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# Find all children (holes) of this contour
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child_idx = hierarchy[top_idx][2]
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while child_idx != -1:
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child_contour = simplified_contours[child_idx]
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if len(child_contour) >= 3:
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# Add hole to the same path (evenodd fill-rule will handle it)
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path_data += " " + contour_to_svg_path(child_contour)
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# Move to next sibling
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child_idx = hierarchy[child_idx][0]
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paths.append(path_data)
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return paths
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def contour_to_svg_path(contour):
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"""Convert OpenCV contour to SVG path data"""
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# OpenCV contours are shape (N, 1, 2)
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points = contour.reshape(-1, 2)
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if len(points) < 2:
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return ""
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path_data = f"M {points[0, 0]},{points[0, 1]}"
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for point in points[1:]:
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path_data += f" L {point[0]},{point[1]}"
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path_data += " Z"
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return path_data
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def get_mask_bounds(mask: np.ndarray):
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"""Get the bounding box of a binary mask"""
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rows = np.any(mask, axis=1)
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cols = np.any(mask, axis=0)
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if not np.any(rows) or not np.any(cols):
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return None
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y_min, y_max = np.where(rows)[0][[0, -1]]
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x_min, x_max = np.where(cols)[0][[0, -1]]
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return (x_min, y_min, x_max + 1, y_max + 1)
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def create_svg_from_mask(mask: np.ndarray, output_path: Path, color: str, image_size: tuple, crop_to_bounds: bool = True):
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"""Create SVG file from binary mask with proper hole handling and optional cropping"""
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width, height = image_size
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# Get bounding box of the mask
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if crop_to_bounds:
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bounds = get_mask_bounds(mask)
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if bounds is None:
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print(f"WARNING: No content found for {color}")
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return
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x_min, y_min, x_max, y_max = bounds
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cropped_width = x_max - x_min
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cropped_height = y_max - y_min
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# Crop the mask
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cropped_mask = mask[y_min:y_max, x_min:x_max]
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else:
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x_min, y_min = 0, 0
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cropped_width, cropped_height = width, height
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cropped_mask = mask
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# Create SVG root with cropped dimensions
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svg = ET.Element('svg', {
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'xmlns': 'http://www.w3.org/2000/svg',
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'width': str(cropped_width),
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'height': str(cropped_height),
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'viewBox': f'0 0 {cropped_width} {cropped_height}'
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})
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# Convert mask to paths with hole detection
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paths = mask_to_svg_paths_with_holes(cropped_mask, simplify_epsilon=1.0)
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# Color mapping
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color_hex = {
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'black': '#000000',
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'grey': '#808080',
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'gray': '#808080',
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'white': '#FFFFFF',
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}.get(color, color)
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# Add paths to SVG (no translation needed since we cropped the mask)
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for path_data in paths:
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ET.SubElement(svg, 'path', {
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'd': path_data,
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'fill': color_hex,
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'fill-rule': 'evenodd'
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})
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# Write SVG
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tree = ET.ElementTree(svg)
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ET.indent(tree, space=' ')
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tree.write(output_path, encoding='utf-8', xml_declaration=True)
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if crop_to_bounds:
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print(f"Created {output_path} with color {color} ({len(paths)} shape groups, cropped to {cropped_width}x{cropped_height})")
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else:
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print(f"Created {output_path} with color {color} ({len(paths)} shape groups)")
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def main():
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parser = argparse.ArgumentParser(
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description='Split PNG into separate SVG files by brightness/color'
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)
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parser.add_argument('input', help='Input PNG file')
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parser.add_argument('--output-dir', '-o', help='Output directory (default: same as input)')
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parser.add_argument('--prefix', '-p', help='Prefix for output files (default: input filename)')
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parser.add_argument('--dark-threshold', type=int, default=30,
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help='Brightness threshold for dark/black elements (default: 30)')
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parser.add_argument('--mid-min', type=int, default=108,
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help='Minimum brightness for mid/grey elements (default: 108)')
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parser.add_argument('--mid-max', type=int, default=118,
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help='Maximum brightness for mid/grey elements (default: 118)')
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parser.add_argument('--no-crop', action='store_true',
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help='Do not crop to bounding box (default: crop enabled)')
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args = parser.parse_args()
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||||||
|
input_path = Path(args.input)
|
||||||
|
|
||||||
|
if not input_path.exists():
|
||||||
|
print(f"ERROR: File not found: {input_path}")
|
||||||
|
return 1
|
||||||
|
|
||||||
|
# Setup output directory
|
||||||
|
if args.output_dir:
|
||||||
|
output_dir = Path(args.output_dir)
|
||||||
|
output_dir.mkdir(parents=True, exist_ok=True)
|
||||||
|
else:
|
||||||
|
output_dir = input_path.parent
|
||||||
|
|
||||||
|
# Setup prefix
|
||||||
|
prefix = args.prefix if args.prefix else input_path.stem
|
||||||
|
|
||||||
|
# Load image to get size
|
||||||
|
img = Image.open(input_path)
|
||||||
|
image_size = img.size
|
||||||
|
|
||||||
|
# Extract color regions
|
||||||
|
print(f"Analyzing colors in {input_path}...")
|
||||||
|
masks = extract_color_regions(input_path, args.dark_threshold, args.mid_min, args.mid_max)
|
||||||
|
|
||||||
|
if not masks:
|
||||||
|
print("No color regions found!")
|
||||||
|
return 1
|
||||||
|
|
||||||
|
print(f"\nFound {len(masks)} color regions:")
|
||||||
|
for color, mask in masks.items():
|
||||||
|
pixel_count = np.sum(mask)
|
||||||
|
print(f" {color}: {pixel_count:,} pixels")
|
||||||
|
|
||||||
|
# Create SVG for each color
|
||||||
|
print(f"\nCreating separate SVG files...")
|
||||||
|
crop_enabled = not args.no_crop
|
||||||
|
for color, mask in masks.items():
|
||||||
|
output_path = output_dir / f"{prefix}_{color}.svg"
|
||||||
|
create_svg_from_mask(mask, output_path, color, image_size, crop_to_bounds=crop_enabled)
|
||||||
|
|
||||||
|
print(f"\nDone! Created {len(masks)} SVG files in {output_dir}")
|
||||||
|
|
||||||
|
|
||||||
|
if __name__ == '__main__':
|
||||||
|
main()
|
||||||
24
um_black.svg
Normal file
24
um_black.svg
Normal file
@@ -0,0 +1,24 @@
|
|||||||
|
<?xml version='1.0' encoding='utf-8'?>
|
||||||
|
<svg xmlns="http://www.w3.org/2000/svg" width="3070" height="233" viewBox="0 0 3070 233">
|
||||||
|
<path d="M 2952,58 L 2945,66 L 2940,80 L 2940,102 L 2945,116 L 2951,122 L 2965,127 L 3026,129 L 3029,130 L 3035,136 L 3036,146 L 3031,153 L 3023,156 L 2942,156 L 2942,183 L 3037,183 L 3046,181 L 3056,175 L 3064,165 L 3069,150 L 3069,133 L 3063,117 L 3053,108 L 3040,103 L 2983,101 L 2977,97 L 2975,93 L 2975,85 L 2979,79 L 2990,76 L 3062,76 L 3062,49 L 2982,49 L 2964,52 Z" fill="#000000" fill-rule="evenodd" />
|
||||||
|
<path d="M 2820,63 L 2809,76 L 2804,86 L 2799,104 L 2799,128 L 2801,138 L 2808,154 L 2815,164 L 2827,174 L 2837,179 L 2860,183 L 2916,183 L 2916,155 L 2861,155 L 2850,151 L 2840,141 L 2837,136 L 2834,123 L 2834,110 L 2836,99 L 2839,92 L 2846,84 L 2857,79 L 2868,77 L 2916,77 L 2916,49 L 2851,50 L 2835,54 Z" fill="#000000" fill-rule="evenodd" />
|
||||||
|
<path d="M 2735,49 L 2735,183 L 2771,183 L 2771,49 Z" fill="#000000" fill-rule="evenodd" />
|
||||||
|
<path d="M 2501,63 L 2494,70 L 2487,82 L 2483,94 L 2481,107 L 2481,125 L 2483,138 L 2486,148 L 2494,162 L 2508,174 L 2527,181 L 2541,183 L 2599,183 L 2599,156 L 2535,155 L 2528,152 L 2523,147 L 2519,135 L 2520,129 L 2599,129 L 2599,103 L 2519,102 L 2519,97 L 2523,86 L 2527,81 L 2533,78 L 2543,76 L 2599,76 L 2599,49 L 2533,50 L 2512,56 Z" fill="#000000" fill-rule="evenodd" />
|
||||||
|
<path d="M 2332,49 L 2332,183 L 2366,183 L 2366,79 L 2368,77 L 2406,78 L 2416,83 L 2420,94 L 2420,183 L 2454,183 L 2454,87 L 2450,72 L 2446,65 L 2440,59 L 2431,54 L 2415,50 Z" fill="#000000" fill-rule="evenodd" />
|
||||||
|
<path d="M 2298,49 L 2228,49 L 2210,51 L 2200,54 L 2188,61 L 2176,74 L 2167,94 L 2164,120 L 2166,135 L 2170,148 L 2179,163 L 2192,175 L 2207,181 L 2224,183 L 2264,184 L 2262,196 L 2258,201 L 2251,205 L 2179,206 L 2179,232 L 2262,231 L 2279,225 L 2291,213 L 2298,192 Z M 2216,81 L 2228,77 L 2264,78 L 2263,156 L 2226,155 L 2213,150 L 2206,143 L 2201,131 L 2200,108 L 2205,92 Z" fill="#000000" fill-rule="evenodd" />
|
||||||
|
<path d="M 2011,49 L 2011,76 L 2081,76 L 2090,78 L 2100,86 L 2103,101 L 2038,103 L 2025,106 L 2015,111 L 2007,120 L 2002,136 L 2003,157 L 2010,171 L 2021,179 L 2038,183 L 2138,183 L 2138,92 L 2134,75 L 2127,64 L 2120,58 L 2112,54 L 2098,50 Z M 2038,137 L 2044,130 L 2051,128 L 2102,128 L 2103,156 L 2045,156 L 2041,154 L 2038,150 Z" fill="#000000" fill-rule="evenodd" />
|
||||||
|
<path d="M 1370,49 L 1370,183 L 1405,183 L 1406,77 L 1445,78 L 1452,81 L 1455,84 L 1458,93 L 1458,183 L 1492,183 L 1492,86 L 1489,74 L 1485,66 L 1477,58 L 1469,54 L 1453,50 Z" fill="#000000" fill-rule="evenodd" />
|
||||||
|
<path d="M 1212,49 L 1212,136 L 1214,152 L 1221,167 L 1230,175 L 1251,182 L 1334,183 L 1334,49 L 1300,49 L 1299,154 L 1260,154 L 1253,151 L 1249,147 L 1246,132 L 1246,49 Z" fill="#000000" fill-rule="evenodd" />
|
||||||
|
<path d="M 1012,52 L 996,49 L 932,49 L 932,183 L 966,183 L 967,74 L 987,74 L 994,79 L 995,104 L 1028,104 L 1028,76 L 1026,66 L 1023,60 L 1018,55 Z" fill="#000000" fill-rule="evenodd" />
|
||||||
|
<path d="M 898,49 L 828,49 L 805,52 L 795,56 L 786,62 L 774,76 L 768,88 L 765,99 L 764,128 L 768,145 L 779,164 L 793,176 L 806,181 L 823,183 L 863,184 L 863,191 L 860,198 L 850,205 L 778,206 L 778,232 L 861,231 L 880,224 L 886,219 L 891,212 L 896,198 L 898,183 Z M 814,82 L 827,77 L 863,78 L 862,156 L 831,156 L 821,154 L 811,149 L 804,141 L 801,134 L 799,122 L 800,104 L 805,91 Z" fill="#000000" fill-rule="evenodd" />
|
||||||
|
<path d="M 730,52 L 713,49 L 649,49 L 649,183 L 684,183 L 685,74 L 705,74 L 712,79 L 713,104 L 746,104 L 746,78 L 744,67 L 740,59 Z" fill="#000000" fill-rule="evenodd" />
|
||||||
|
<path d="M 525,62 L 517,70 L 509,84 L 504,106 L 504,126 L 506,139 L 516,161 L 531,174 L 550,181 L 564,183 L 622,183 L 622,156 L 558,155 L 551,152 L 546,147 L 542,136 L 543,129 L 622,129 L 622,103 L 542,102 L 545,87 L 550,81 L 556,78 L 566,76 L 622,76 L 622,49 L 556,50 L 540,54 Z" fill="#000000" fill-rule="evenodd" />
|
||||||
|
<path d="M 197,49 L 197,183 L 231,183 L 232,77 L 271,78 L 278,81 L 281,84 L 284,93 L 284,183 L 318,183 L 318,86 L 315,74 L 311,66 L 303,58 L 295,54 L 279,50 Z" fill="#000000" fill-rule="evenodd" />
|
||||||
|
<path d="M 1081,54 L 1070,61 L 1059,72 L 1051,86 L 1047,99 L 1046,127 L 1050,144 L 1056,156 L 1074,174 L 1086,180 L 1100,184 L 1133,184 L 1145,181 L 1158,175 L 1173,162 L 1182,147 L 1186,134 L 1187,104 L 1183,88 L 1177,76 L 1171,68 L 1162,60 L 1150,53 L 1138,49 L 1126,47 L 1107,47 L 1095,49 Z M 1109,75 L 1124,75 L 1136,80 L 1145,89 L 1151,105 L 1151,128 L 1147,140 L 1143,146 L 1135,153 L 1129,156 L 1119,158 L 1104,156 L 1094,150 L 1088,143 L 1082,126 L 1082,106 L 1087,91 L 1097,80 Z" fill="#000000" fill-rule="evenodd" />
|
||||||
|
<path d="M 2735,0 L 2735,32 L 2771,32 L 2771,0 Z" fill="#000000" fill-rule="evenodd" />
|
||||||
|
<path d="M 2638,0 L 2638,48 L 2613,49 L 2613,75 L 2638,76 L 2638,147 L 2642,163 L 2651,175 L 2663,181 L 2673,183 L 2710,183 L 2710,157 L 2688,157 L 2681,154 L 2674,145 L 2672,133 L 2672,76 L 2710,75 L 2710,49 L 2673,49 L 2672,0 Z" fill="#000000" fill-rule="evenodd" />
|
||||||
|
<path d="M 1764,0 L 1764,183 L 1802,183 L 1798,64 L 1799,40 L 1848,183 L 1888,183 L 1923,74 L 1935,41 L 1936,66 L 1933,183 L 1969,183 L 1969,0 L 1914,0 L 1867,141 L 1865,139 L 1819,0 Z" fill="#000000" fill-rule="evenodd" />
|
||||||
|
<path d="M 1650,0 L 1616,0 L 1615,49 L 1580,49 L 1558,52 L 1546,57 L 1539,62 L 1528,75 L 1523,84 L 1519,97 L 1518,127 L 1520,138 L 1527,155 L 1531,161 L 1544,173 L 1563,181 L 1576,183 L 1650,183 Z M 1564,85 L 1575,79 L 1585,77 L 1616,78 L 1615,155 L 1575,154 L 1566,150 L 1559,143 L 1554,129 L 1554,105 L 1556,97 Z" fill="#000000" fill-rule="evenodd" />
|
||||||
|
<path d="M 476,0 L 442,0 L 441,49 L 406,49 L 384,52 L 369,59 L 359,68 L 354,75 L 348,87 L 344,103 L 345,133 L 353,155 L 357,161 L 370,173 L 389,181 L 402,183 L 476,183 Z M 390,85 L 401,79 L 411,77 L 442,78 L 441,155 L 406,155 L 392,150 L 386,144 L 383,139 L 380,128 L 380,106 L 383,95 Z" fill="#000000" fill-rule="evenodd" />
|
||||||
|
<path d="M 0,0 L 0,125 L 2,142 L 10,160 L 22,171 L 35,178 L 53,183 L 71,185 L 87,185 L 110,182 L 123,178 L 140,168 L 149,159 L 153,152 L 158,130 L 158,0 L 121,0 L 121,122 L 119,133 L 115,142 L 109,149 L 97,155 L 83,157 L 66,156 L 54,152 L 44,143 L 40,135 L 37,119 L 37,0 Z" fill="#000000" fill-rule="evenodd" />
|
||||||
|
</svg>
|
||||||
|
After Width: | Height: | Size: 6.1 KiB |
5
um_grey.svg
Normal file
5
um_grey.svg
Normal file
@@ -0,0 +1,5 @@
|
|||||||
|
<?xml version='1.0' encoding='utf-8'?>
|
||||||
|
<svg xmlns="http://www.w3.org/2000/svg" width="413" height="390" viewBox="0 0 413 390">
|
||||||
|
<path d="M 159,0 L 159,116 L 164,135 L 175,150 L 187,157 L 198,160 L 214,160 L 223,158 L 236,151 L 243,144 L 250,131 L 252,124 L 253,0 Z" fill="#808080" fill-rule="evenodd" />
|
||||||
|
<path d="M 0,0 L 0,389 L 99,389 L 100,292 L 107,302 L 122,317 L 135,326 L 161,337 L 178,341 L 198,343 L 234,341 L 263,333 L 279,325 L 294,314 L 306,301 L 312,292 L 313,389 L 412,389 L 412,0 L 314,0 L 314,119 L 311,140 L 305,159 L 299,171 L 290,184 L 272,201 L 261,208 L 241,217 L 212,223 L 200,223 L 182,220 L 153,209 L 134,196 L 120,181 L 111,167 L 102,143 L 98,114 L 98,0 Z" fill="#808080" fill-rule="evenodd" />
|
||||||
|
</svg>
|
||||||
|
After Width: | Height: | Size: 728 B |
BIN
underground-magnetics.eps
Normal file
BIN
underground-magnetics.eps
Normal file
Binary file not shown.
Reference in New Issue
Block a user