Table of Contents
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3D PRINTING AND DESIGN REFERENCE DOCUMENT |
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Document Title: | Create SVG files using Python |
Document No.: | 1729077206 |
Author(s): | jattie |
Contributor(s): | yba2cuo3 |
REVISION HISTORY
Revision | Details of Modification(s) | Reason for modification | Date | By |
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0 | Draft release | How to exploit the power of SVG's in 3D designs. | 2024/10/16 11:13 | jattie |
Design generating SVG's with Python
SVG's(Scalable Vector Graphics) are very powerful in designs because of the scalability. Any existing logo or image can be converted to a .svg and as I recently discovered during a conversation with @yba2cuo3 on printables, there are very cool svg libraries available in python to exploit and generate sophisticated and intricate details for 3D designs.
This page aims to showcase this use case.
Create a SVG using Python code
The majority of this code was generated in copilot and I played around with the parameters until I managed to get what I wanted to see in the svg.
- create_sundial_svg.py
import svgwrite from math import cos, sin, pi def create_custom_sundial_face(): # Create an SVG drawing dwg = svgwrite.Drawing('custom_sundial_face.svg', profile='tiny', size=(500, 500)) # Center of the sundial center_x = 250 center_y = 250 radius = 160 # Draw the outer circle with a decorative border dwg.add(dwg.circle(center=(center_x, center_y), r=radius, stroke='black', fill='none', stroke_width=5)) # Function to draw lines def draw_line(angle, length, color='black', stroke_width=1): x1 = center_x + radius * (1 - length) * cos(angle) y1 = center_y + radius * (1 - length) * sin(angle) x2 = center_x + radius * cos(angle) y2 = center_y + radius * sin(angle) dwg.add(dwg.line(start=(x1, y1), end=(x2, y2), stroke=color, stroke_width=stroke_width)) # Function to draw text def draw_text(angle, text, radius_offset=10): x = center_x + (radius + radius_offset) * cos(angle) y = center_y + (radius + radius_offset) * sin(angle) + 0 # Adjust y coordinate for vertical alignment rotation_angle = angle * 180 / pi + 90 # Convert radians to degrees and adjust for vertical alignment #dwg.add(dwg.text(text, insert=(x, y), text_anchor="middle", font_size="12px", font_family="Roman")) dwg.add(dwg.text(text, insert=(x, y), text_anchor="middle", font_size="12px", font_family="Verdana", font_weight='bold', transform=f"rotate({rotation_angle},{x},{y})")) # Draw 5-minute lines for five_minute in range(288): if five_minute % 12 == 0: continue angle = (five_minute / 288) * 2 * pi - pi / 2 draw_line(angle, 0.05)#, color='purple') # Draw 15-minute lines for quarter_hour in range(96): if quarter_hour % 4 == 0: continue angle = (quarter_hour / 96) * 2 * pi - pi / 2 draw_line(angle, 0.08)#, color='red') # Draw half-hour lines for half_hour in range(48): if half_hour % 2 == 0: continue angle = (half_hour / 48) * 2 * pi - pi / 2 draw_line(angle, 0.10)#, color='green') # Draw hour lines and Roman numerals with custom colors for hour in range(24): angle = (hour / 24) * 2 * pi - pi / 2 draw_line(angle, 0.15, stroke_width=2)#, color='blue') roman_numeral = ["XII", "I", "II", "III", "IIII", "V", "VI", "VII", "VIII", "IX", "X", "XI"][hour % 12] if hour >= 12: roman_numeral #+= " PM" else: roman_numeral #+= " AM" draw_text(angle, roman_numeral) # Save the SVG file dwg.save() # Create the custom sundial face SVG create_custom_sundial_face() print("The custom sundial face SVG has been created and saved as 'custom_sundial_face.svg'.")
The result of the above code looks like this.
This is the SVG file, right click this to download directly for use.
How to use the SVG in Fusion360
Coming soon