Metadata-Version: 2.3
Name: pinviz
Version: 0.1.3
Summary: Programmatically generate Raspberry Pi GPIO connection diagrams
Keywords: raspberry-pi,gpio,diagram,wiring,visualization,electronics,svg,raspberry-pi-5,hardware,circuit-diagram
Author: Even Nordstad
Author-email: Even Nordstad <even.nordstad@scania.com>
License: MIT
Classifier: Development Status :: 4 - Beta
Classifier: Intended Audience :: Developers
Classifier: Intended Audience :: Education
Classifier: Intended Audience :: Science/Research
Classifier: Topic :: Software Development :: Libraries :: Python Modules
Classifier: Topic :: Scientific/Engineering :: Visualization
Classifier: Topic :: System :: Hardware
Classifier: License :: OSI Approved :: MIT License
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: Python :: 3.12
Classifier: Programming Language :: Python :: 3.13
Classifier: Operating System :: OS Independent
Classifier: Typing :: Typed
Requires-Dist: svgwrite>=1.4.3
Requires-Dist: pyyaml>=6.0.1
Requires-Python: >=3.12
Project-URL: Bug Tracker, https://github.com/nordstad/PinViz/issues
Project-URL: Changelog, https://github.com/nordstad/PinViz/blob/main/CHANGELOG.md
Project-URL: Documentation, https://nordstad.github.io/PinViz/
Project-URL: Homepage, https://nordstad.github.io/PinViz/
Project-URL: Repository, https://github.com/nordstad/PinViz
Description-Content-Type: text/markdown

# PinViz

[![CI](https://github.com/nordstad/PinViz/actions/workflows/ci.yml/badge.svg)](https://github.com/nordstad/PinViz/actions/workflows/ci.yml)
[![Documentation](https://img.shields.io/badge/docs-mkdocs-blue)](https://nordstad.github.io/PinViz/)
[![License: MIT](https://img.shields.io/badge/License-MIT-yellow.svg)](https://opensource.org/licenses/MIT)
[![Python 3.12+](https://img.shields.io/badge/python-3.12+-blue.svg)](https://www.python.org/downloads/)
[![PyPI version](https://img.shields.io/pypi/v/pinviz.svg)](https://pypi.org/project/pinviz/)

Programmatically generate beautiful Raspberry Pi GPIO connection diagrams in
SVG format.

PinViz makes it easy to create clear, professional wiring diagrams for
your Raspberry Pi projects. Define your connections using simple YAML/JSON
files or Python code, and automatically generate publication-ready SVG
diagrams.

## Features

- **Declarative Configuration**: Define diagrams using YAML or JSON
- **Programmatic API**: Create diagrams with Python code
- **Automatic Wire Routing**: Smart wire routing with configurable styles
  (orthogonal, curved, mixed)
- **Inline Components**: Add resistors, capacitors, and diodes directly on wires
- **Color-Coded Wires**: Automatic color assignment based on pin function
  (I2C, SPI, power, ground, etc.)
- **Built-in Templates**: Pre-configured boards (Raspberry Pi 5) and common
  devices (BH1750, IR LED rings, etc.)
- **GPIO Pin Reference**: Optional GPIO pinout diagram for easy reference
- **SVG Output**: Scalable, high-quality vector graphics

## Installation

### For CLI Usage (Recommended)

Install as a standalone tool with global access to the CLI:

```bash
uv tool install pinviz
```

After installation, `pinviz` will be available globally in your terminal. See [Quick Start](#quick-start) below to generate your first diagram.

### As a Project Dependency

If you want to use PinViz as a library in your Python project:

```bash
# Using uv
uv add pinviz

# Using pip
pip install pinviz
```

**Note**: If you install with `uv add`, the CLI tool will only be available via `uv run pinviz`. For direct CLI access, use `uv tool install` instead.

## Quick Start

### 1. Try a Built-in Example

The fastest way to get started is to generate one of the built-in examples:

```bash
# Generate a BH1750 light sensor wiring diagram
pinviz example bh1750 -o bh1750.svg

# See all available examples
pinviz list
```

This creates an SVG file you can open in any web browser or vector graphics editor.

> **Note**: If you installed with `uv add` instead of `uv tool install`, prefix commands with `uv run`:
> ```bash
> uv run pinviz example bh1750 -o bh1750.svg
> ```

### 2. Create Your Own Diagram

Once you've seen what PinViz can do, create your own configuration file `my-diagram.yaml`:

```yaml
title: "BH1750 Light Sensor Wiring"
board: "raspberry_pi_5"

devices:
  - type: "bh1750"
    name: "BH1750"

connections:
  - board_pin: 1     # 3V3
    device: "BH1750"
    device_pin: "VCC"

  - board_pin: 6     # GND
    device: "BH1750"
    device_pin: "GND"

  - board_pin: 5     # GPIO3 (I2C SCL)
    device: "BH1750"
    device_pin: "SCL"

  - board_pin: 3     # GPIO2 (I2C SDA)
    device: "BH1750"
    device_pin: "SDA"

show_gpio_diagram: true  # Optional: include GPIO pin reference
```

Generate your diagram:

```bash
pinviz my-diagram.yaml -o output.svg
```

### 3. Using Python API

For programmatic diagram generation in your Python projects:

```python
from pinviz import boards, devices, Connection, Diagram, SVGRenderer

# Create board and device
board = boards.raspberry_pi_5()
sensor = devices.bh1750_light_sensor()

# Define connections
connections = [
    Connection(1, "BH1750", "VCC"),  # 3V3 to VCC
    Connection(6, "BH1750", "GND"),  # GND to GND
    Connection(5, "BH1750", "SCL"),  # GPIO3/SCL to SCL
    Connection(3, "BH1750", "SDA"),  # GPIO2/SDA to SDA
]

# Create and render diagram
diagram = Diagram(
    title="BH1750 Light Sensor Wiring",
    board=board,
    devices=[sensor],
    connections=connections,
    show_gpio_diagram=True  # Optional: include GPIO pin reference
)

renderer = SVGRenderer()
renderer.render(diagram, "output.svg")
```

### Custom Wire Colors

Use the `WireColor` enum for standard electronics wire colors:

```python
from pinviz import (
    boards, devices, Connection, Diagram, SVGRenderer, WireColor
)

# Define connections with custom colors
connections = [
    Connection(1, "BH1750", "VCC", color=WireColor.RED),
    Connection(6, "BH1750", "GND", color=WireColor.BLACK),
    Connection(5, "BH1750", "SCL", color=WireColor.BLUE),
    Connection(3, "BH1750", "SDA", color=WireColor.GREEN),
]

# Or use hex colors directly
connections = [
    Connection(1, "BH1750", "VCC", color="#FF0000"),  # Red
]
```

**Available colors**: RED, BLACK, WHITE, GREEN, BLUE, YELLOW, ORANGE, PURPLE,
GRAY, BROWN, PINK, CYAN, MAGENTA, LIME, TURQUOISE

## CLI Commands

See the [Quick Start](#quick-start) section for basic usage. All examples below assume you installed with `uv tool install pinviz` or `pip install pinviz`. If you installed with `uv add`, prefix all commands with `uv run`.

### Rendering Custom Diagrams

```bash
# From YAML/JSON file with specified output
pinviz my-diagram.yaml -o output.svg

# Short form (output defaults to <config-name>.svg)
pinviz my-diagram.yaml
```

### Working with Built-in Examples

```bash
# List all available built-in examples
pinviz list

# Generate a specific example
pinviz example bh1750 -o bh1750.svg
pinviz example ir_led -o ir_led.svg
pinviz example i2c_spi -o i2c_spi.svg
```

## Example Diagrams

### LED with Resistor

Simple LED circuit with inline current-limiting resistor:

![LED with Resistor](https://raw.githubusercontent.com/nordstad/PinViz/main/images/led_with_resistor.svg)

### Multi-Device Setup

BH1750 light sensor + IR LED ring with custom wire colors:

![BH1750 + IR LED Ring](https://raw.githubusercontent.com/nordstad/PinViz/main/images/bh1750_ir_led.svg)

### Traffic Light

Three LEDs with individual resistors:

![Traffic Light](https://raw.githubusercontent.com/nordstad/PinViz/main/images/traffic_light.svg)

## Configuration Reference

### Diagram Options

```yaml
show_gpio_diagram: true  # Include GPIO pin reference (default: false)
```

The GPIO pin reference diagram displays all 40 GPIO pins with their functions,
providing a helpful reference when wiring your project.

### Board Selection

Currently supported boards:

- `raspberry_pi_5` (aliases: `rpi5`, `rpi`)

### Built-in Device Types

- `bh1750` - BH1750 I2C light sensor
- `ir_led_ring` - IR LED ring module
- `i2c_device` - Generic I2C device
- `spi_device` - Generic SPI device
- `led` - Simple LED
- `button` - Push button/switch

### Connection Configuration

Connections use **physical pin numbers** (1-40), not BCM GPIO numbers:

```yaml
connections:
  - board_pin: 1           # Physical pin number (required)
    device: "Device Name"  # Device name (required)
    device_pin: "VCC"      # Device pin name (required)
    color: "#FF0000"       # Custom wire color (optional)
    style: "mixed"         # Wire style: orthogonal, curved, mixed (optional)
    components:            # Inline components (optional)
      - type: "resistor"
        value: "220Ω"
        position: 0.55     # Position along wire (0.0-1.0, default: 0.55)
```

### Inline Components

Add resistors, capacitors, or diodes directly on wire connections:

```yaml
connections:
  - board_pin: 11
    device: "Red LED"
    device_pin: "+"
    color: "#FF0000"
    components:
      - type: "resistor"   # Component type: resistor, capacitor, diode
        value: "220Ω"      # Display value (required)
        position: 0.55     # Position along wire path (0.0 = board, 1.0 = device)
```

Python API:

```python
from pinviz import Component, ComponentType, Connection

connection = Connection(
    board_pin=11,
    device_name="Red LED",
    device_pin_name="+",
    color="#FF0000",
    components=[
        Component(
            type=ComponentType.RESISTOR,
            value="220Ω",
            position=0.55
        )
    ]
)
```

### Custom Devices

Define custom devices inline:

```yaml
devices:
  - name: "My Custom Sensor"
    width: 80.0
    height: 50.0
    color: "#4A90E2"
    pins:
      - name: "VCC"
        role: "3V3"
        position: {x: 5.0, y: 10.0}
      - name: "GND"
        role: "GND"
        position: {x: 5.0, y: 20.0}
      - name: "SDA"
        role: "I2C_SDA"
        position: {x: 5.0, y: 30.0}
      - name: "SCL"
        role: "I2C_SCL"
        position: {x: 5.0, y: 40.0}
```

### Pin Roles

Supported pin roles (for automatic color assignment):

- `3V3`, `5V` - Power rails
- `GND` - Ground
- `GPIO` - General purpose I/O
- `I2C_SDA`, `I2C_SCL` - I2C bus
- `SPI_MOSI`, `SPI_MISO`, `SPI_SCLK`, `SPI_CE0`, `SPI_CE1` - SPI bus
- `UART_TX`, `UART_RX` - UART serial
- `PWM` - PWM output

## Development

### Setup

```bash
# Clone repository
git clone https://gitlab.com/borkempire/pinviz.git
cd pinviz

# Install dependencies
uv sync --dev
```

### Code Quality

```bash
# Lint and format
uv run ruff check .
uv run ruff format .

# Run tests
uv run pytest
```

## Examples

The `examples/` directory contains:

- `bh1750.yaml` / `bh1750_python.py` - I2C light sensor
- `bh1750_ir_led.yaml` / `bh1750_ir_led_python.py` - Light sensor + IR LED ring
- `led_with_resistor.yaml` / `led_with_resistor_python.py` - LED with inline
  resistor
- `traffic_light.yaml` - Traffic light with 3 LEDs and resistors

All generated diagrams are in the `images/` directory.

## License

MIT License - See LICENSE file for details

## Contributing

Contributions are welcome! Please feel free to submit a Pull Request.

## Credits

Board and GPIO pin SVG assets courtesy of [FreeSVG.org](https://freesvg.org/)

## Author

Even Nordstad
