Main tscircuit package | tscircuit.com | tscircuit docs
Customize schematic and PCB layout algorithms for tscircuit.
import { layout } from "@tscircuit/layout" // or "tscircuit"
export const MyCircuit = () => (
<group layout={layout()
.auto_layout_schematic({ padding: 2 })
.manual_pcb_positions({ ... })}>
{/* ... */}
</group>
)[!NOTE] Soup is a JSON data format that represents the components of a circuit. Learn more
The layout builder is designed to be extensible. You can add new layout mechanism like this:
import { layout } from "@tscircuit/layout"
const customLayout = layout().extend({
name: "Move to Layer",
setLayer(layer: string) {
this.layer = layer
return this
},
applyToSoup(soup) {
return soup.map((component) => {
if ("layer" in component) {
component.layer = this.layer
}
}
}
})
export const MyCircuit = () => (
<group layout={customLayout.setLayer("top")}>
{/* ... */}
</group>
)The recommended way to do this is to create a new layout builder in your project with the defaults configured like so:
// lib/layout.ts
import { layout as builtinLayout } from "@tscircuit/layout"
export const layout = () =>
builtinLayout().auto_layout_schematic({ padding: 2 })// lib/MyCircuit.tsx
import { layout } from "lib/layout"
export const MyCircuit = () => <group layout={layout()}>{/* ... */}</group>In web development, there is a robust flexbox/grid system that has been developed
over decades to allow the definition placement through data attributes via CSS.
tscircuit needs complex layout and significant R&D would be required to develop
attributes that can quickly and simply define schematics and PCB layouts in code.
To speed up the development of the data attribute language, @tscircuit/layout
provides an extensible builder pattern with a flexible data definition mechanism.
The layout builder will constantly be extended with new capabilities and users
can easily implement the APIs or load in custom plugins to extend the capabilities.
Over time dominant patterns will emerge and an optimized data-attribute system
can be built.
This is a synchronous layout builder. Many complex designs will require computationally intensive asynchronous layout solvers. For those layouts, you can use a baker.
Synchronous layout builders are extremely useful because they give realtime feedback and can form the "starting conditions" of a large bake. Moreover, for 95% of circuits that are "good enough" without baking.