epaper-dithering 0.3.2

Dithering algorithms for e-paper/e-ink displays

epaper-dithering

Dithering algorithms optimized for e-ink/e-paper displays with limited color palettes.

Installation

# With uv
uv add epaper-dithering

# With pip
pip install epaper-dithering

Features

• Perceptually Correct: Uses linear RGB color space with gamma correction for accurate error diffusion
• 8 Dithering Algorithms: From simple ordered dithering to high-quality Jarvis-Judice-Ninke
• 6 Color Schemes: Support for mono, 3-color, 4-color, and 6-color e-paper displays
• Serpentine Scanning: Reduces directional artifacts in error diffusion (enabled by default)
• RGBA Support: Automatic compositing on white background for transparent images

Quick Start

from PIL import Image
from epaper_dithering import dither_image, ColorScheme, DitherMode

# Load your image
image = Image.open("photo.jpg")

# Apply dithering for a black/white/red display
dithered = dither_image(image, ColorScheme.BWR, DitherMode.FLOYD_STEINBERG)

# Save result
dithered.save("output.png")

Supported Color Schemes

• MONO - Black and white (1-bit)
• BWR - Black, white, red (3-color)
• BWY - Black, white, yellow (3-color)
• BWRY - Black, white, red, yellow (4-color)
• BWGBRY - Black, white, green, blue, red, yellow (6-color Spectra)
• GRAYSCALE_4 - 4-level grayscale

Dithering Algorithms

Algorithm	Quality	Speed	Best For
NONE	Lowest	Fastest	Testing, simple graphics
ORDERED	Low	Very Fast	Patterns, textures
SIERRA_LITE	Medium	Fast	Quick results
BURKES	Good	Medium	General purpose (default)
FLOYD_STEINBERG	Good	Medium	Popular standard
SIERRA	High	Medium	Balanced quality
ATKINSON	Good	Medium	High contrast, artistic
STUCKI	Very High	Slow	Maximum quality
JARVIS_JUDICE_NINKE	Highest	Slowest	Smooth gradients

Usage Examples

Basic Usage

from PIL import Image
from epaper_dithering import dither_image, ColorScheme, DitherMode

# Load image
img = Image.open("photo.jpg")

# Apply Floyd-Steinberg dithering for BWR display
result = dither_image(img, ColorScheme.BWR, DitherMode.FLOYD_STEINBERG)
result.save("dithered.png")

All Color Schemes

from epaper_dithering import ColorScheme

# Black and white only
dithered = dither_image(img, ColorScheme.MONO)

# Black, white, and red (common for e-paper tags)
dithered = dither_image(img, ColorScheme.BWR)

# Grayscale (4 levels)
dithered = dither_image(img, ColorScheme.GRAYSCALE_4)

# 6-color display (Spectra)
dithered = dither_image(img, ColorScheme.BWGBRY)

Advanced Options

Serpentine Scanning

By default, error diffusion algorithms use serpentine scanning (alternating scan direction per row) to reduce directional artifacts and "worm" patterns. You can disable this for raster scanning:

# Default: serpentine scanning (recommended for best quality)
result = dither_image(img, ColorScheme.BWR, DitherMode.FLOYD_STEINBERG, serpentine=True)

# Disable serpentine for raster scanning (left-to-right only)
result = dither_image(img, ColorScheme.BWR, DitherMode.FLOYD_STEINBERG, serpentine=False)

Note: The serpentine parameter only affects error diffusion algorithms (Floyd-Steinberg, Burkes, Atkinson, Sierra, Sierra Lite, Stucki, Jarvis-Judice-Ninke). It has no effect on NONE and ORDERED modes.

RGBA Images

Images with transparency (RGBA mode) are automatically composited on a white background, matching the typical appearance of e-paper displays:

# RGBA images are handled automatically
rgba_img = Image.open("transparent.png")  # Has alpha channel
result = dither_image(rgba_img, ColorScheme.BWR)
# Transparent areas become white

Measured Display Colors

For the most accurate dithering, use measured RGB values from your specific e-paper display instead of theoretical pure RGB colors.

Why Measure?

E-paper displays use reflective technology, making colors 30-87% darker than pure RGB:

• Pure RGB White: (255, 255, 255) → Real display: ~(180-200, 180-200, 180-200)
• Pure RGB Red: (255, 0, 0) → Real display: ~(115-125, 10-20, 0-10)

Using measured values ensures dithered images match your display's actual appearance.

Using Pre-defined Measured Palettes

The library includes measured palettes for common displays:

from epaper_dithering import dither_image, SPECTRA_7_3_6COLOR, DitherMode

# Use measured palette for Spectra 7.3" 6-color display
result = dither_image(img, SPECTRA_7_3_6COLOR, DitherMode.FLOYD_STEINBERG)

Available measured palettes:

• SPECTRA_7_3_6COLOR - 7.3" Spectra™ 6-color (BWGBRY)
• MONO_4_26 - 4.26" Monochrome
• BWRY_4_2 - 4.2" BWRY
• SOLUM_BWR - Solum BWR
• HANSHOW_BWR - Hanshow BWR
• HANSHOW_BWY - Hanshow BWY

Note: Pre-defined palettes start with theoretical values. See CALIBRATION.md for measuring your specific display.

Creating Custom Measured Palettes

Measure your display and create a custom palette:

from epaper_dithering import dither_image, ColorPalette, DitherMode

# Your measured RGB values
my_display = ColorPalette(
    colors={
        'black': (5, 5, 5),           # Measured from your display
        'white': (185, 190, 180),     # Much darker than (255,255,255)
        'red': (120, 15, 5),          # Much darker than (255,0,0)
    },
    accent='red'
)

# Use it directly
result = dither_image(img, my_display, DitherMode.FLOYD_STEINBERG)

Measurement Quick Start

1. Display full-screen color patches on your e-paper
2. Photograph in consistent lighting (avoid shadows/reflections)
3. Sample RGB values from center using photo editor
4. Average 5+ samples per color
5. Create ColorPalette with measured values

See docs/CALIBRATION.md for detailed measurement procedures, including camera calibration, colorimeter usage, and validation techniques.

Development

# Install with dev dependencies
uv sync --all-extras

# Run tests
uv run pytest tests/ -v

# Run tests with coverage
uv run pytest tests/ --cov=src/epaper_dithering

# Lint
uv run ruff check src/ tests/

# Type check
uv run mypy src/epaper_dithering

Credits

Measured color calibration techniques and reference measurements inspired by:

• esp32-photoframe by aitjcize - Measured palette methodology and reference values for Waveshare 7.3" displays