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Command Line Interface

tsci build

tsci build runs the TSCircuit evaluator and writes circuit.json files.

Usage

tsci build [file] [options]

Arguments

  • file (optional) – path to a source file or directory. If omitted, the command searches for a project entrypoint such as index.tsx or the mainEntrypoint defined in tscircuit.config.json. In addition, all files matching the *.circuit.tsx pattern are built automatically.

Output

Output files are placed in a dist/ directory relative to your project. The main entrypoint produces dist/circuit.json. Each *.circuit.tsx file generates its own subdirectory. For example, src/blink.circuit.tsx becomes dist/src/blink/circuit.json.

Options

Error Handling

  • --ignore-errors – do not exit with code 1 on evaluation errors.
  • --ignore-warnings – suppress warning messages.
  • --ignore-config – ignore options from tscircuit.config.json.

Build Control

  • --ci – run install and optional prebuild/build commands (or default CI build).
  • --disable-pcb – disable PCB outputs.
  • --disable-parts-engine – disable the parts engine.
  • --concurrency <number> – number of files to build in parallel (default: 1).

Output Formats

Images & 3D Models
  • --preview-images – generate preview images (PCB SVG, schematic SVG, 3D PNG) for the preview entrypoint.
  • --all-images – generate preview images for every successful build output.
  • --preview-gltf – generate a GLTF file from the preview entrypoint.
  • --glbs – generate GLB 3D model files for every successful build output.
KiCad Export
  • --kicad-project – generate KiCad project directories (.kicad_sch, .kicad_pcb, .kicad_pro) for each successful build output.
  • --kicad-library – generate KiCad symbol/footprint library in dist/kicad-library.
  • --kicad-pcm – generate KiCad PCM (Plugin and Content Manager) assets in dist/pcm.
Library & Site Generation
  • --transpile – transpile the entry file to JavaScript for use as a library.
  • --site – generate a static site in the dist directory.
  • --use-cdn-javascript – use CDN-hosted JavaScript instead of bundled standalone file for --site.

Targeting specific sources

  • tsci build path/to/file.circuit.tsx – builds the given file, even if it does not match the includeBoardFiles glob in tscircuit.config.json.
  • tsci build path/to/directory – scans only the files inside path/to/directory that both satisfy the includeBoardFiles glob and reside within the directory. Files outside the directory or filtered out by the glob are skipped.

Use this command before publishing or in CI to ensure your circuits evaluate correctly.

Output Directory Structure

When using various build options, the output structure looks like:

dist/
├── my-circuit/
│   ├── circuit.json          # Always generated
│   ├── pcb.svg               # With --preview-images or --all-images
│   ├── schematic.svg         # With --preview-images or --all-images
│   ├── 3d.png                # With --preview-images or --all-images
│   ├── 3d.glb                # With --glbs
│   └── kicad/
│       ├── my-circuit.kicad_sch   # With --kicad-project
│       ├── my-circuit.kicad_pcb   # With --kicad-project
│       └── my-circuit.kicad_pro   # With --kicad-project
├── my-circuit.gltf           # With --preview-gltf (preview entrypoint only)
├── kicad-library/            # With --kicad-library
├── pcm/                      # With --kicad-pcm
├── index.html                # With --site
├── standalone.min.js         # With --site (unless --use-cdn-javascript)
├── index.js                  # With --transpile
├── index.cjs                 # With --transpile
└── index.d.ts                # With --transpile

Transpiling circuit entrypoints

Pass the --transpile flag when you want your codebase to be a reusable module that can be imported into other projects. Your "entrypoint", usually lib/index.tsx will be the source for the bundle. Export any circuits you'd like out of that file

  • dist/<entry>/index.js – an ESM bundle
  • dist/<entry>.cjs – a CommonJS bundle
  • dist/<entry>.d.ts – generated type declarations that reflect the JSX surface of your entry file

Example project

Spin up a scratch directory with tsci init to reproduce the transpile flow locally:

mkdir tsci-transpile-demo
cd tsci-transpile-demo
tsci init

Replace the generated index.tsx with a tiny RC circuit:

index.tsx
import React from "react"

export default () => (
  <board>
    <resistor resistance="1k" footprint="0402" name="R1" schX={3} pcbX={3} />
    <capacitor
      capacitance="1000pF"
      footprint="0402"
      name="C1"
      schX={-3}
      pcbX={-3}
    />
    <trace from=".R1 > .pin1" to=".C1 > .pin1" />
  </board>
)

Then run the transpile build:

tsci build --transpile

The build writes dist/index/circuit.json as usual, then finishes by bundling the entrypoint and printing the paths to the emitted ESM, CJS, and type declaration artifacts.

dist
├── index
│   └── circuit.json
├── index.cjs
├── index.d.ts
└── index.js

2 directories, 4 files