A fully typed SolidJS wrapper around TradingView's Lightweight Charts, providing declarative, reactive charting with support for time series, price, and yield curve data.
- ✨ Features
- 🎉 What's New in v0.4.0
- 📆 Installation
- 🚀 Quick Usage
- 📏 Chart Sizing & Layout
- 📊 Chart Examples
- 🛠 Playground & Examples
- 📚 Resources
- 📄 License
- ⚡ SolidJS-native reactivity for all chart options and data updates
- 🔀 Multiple chart types with specialized APIs:
TimeChartfor time-based financial dataPriceChartfor numeric-based price dataYieldCurveChartfor rate curves and duration-based data
- 📈 Built-in series support: Line, Area, Candlestick, Bar, Histogram, Baseline
- 🎨 Custom series support with full TypeScript integration across all chart types
- 📍 Series markers with declarative prop support and reactive updates
- 💬 Custom JSX tooltips with flexible rendering (inline JSX or reusable components)
- 📆 Namespaced APIs (e.g.
<TimeChart.Series />,<PriceChart.Series />) - 📊 Multi-Pane support for advanced multi-series visualization
- 🖼️ Pane/Series primitives for interactive drawings (trend lines, alerts, annotations)
- 🔄 Lifecycle/Event hooks for chart, series data, primitives and markers.
- 🔖 Core API compatibility - access underlying
lightweight-chartsAPIs when needed - 🧹 Automatic cleanup and proper lifecycle management
- Custom JSX Tooltips - Full tooltip support across all chart types (TimeChart, PriceChart, YieldCurveChart) with flexible rendering options using either inline JSX or reusable components
- For a full list of changes and details, see the CHANGELOG.md.
Install via your favorite package manager:
npm install solid-js lightweight-charts @dschz/solid-lightweight-charts
pnpm install solid-js lightweight-charts @dschz/solid-lightweight-charts
yarn install solid-js lightweight-charts @dschz/solid-lightweight-charts
bun install solid-js lightweight-charts @dschz/solid-lightweight-chartsThese are peer dependencies, so they must be installed manually:
solid-jslightweight-charts
import { TimeChart } from "@dschz/solid-lightweight-charts";
<TimeChart>
<TimeChart.Series
type="Line"
data={[
{ time: "2023-01-01", value: 100 },
{ time: "2023-01-02", value: 105 },
]}
lineWidth={2}
color="#2962FF"
/>
</TimeChart>;import { PriceChart } from "@dschz/solid-lightweight-charts";
<PriceChart>
<PriceChart.Series
type="Line"
data={[
{ time: 0, value: 100 },
{ time: 1, value: 105 },
]}
lineWidth={2}
color="#2962FF"
/>
</PriceChart>;import { YieldCurveChart } from "@dschz/solid-lightweight-charts";
<YieldCurveChart>
<YieldCurveChart.Series
type="Line"
data={[
{ time: 0, value: 3.5 }, // 0M
{ time: 12, value: 3.8 }, // 12M
{ time: 60, value: 4.2 }, // 5Y
]}
lineWidth={2}
color="#2962FF"
/>
</YieldCurveChart>;Chart components (TimeChart, PriceChart, YieldCurveChart) do not apply any default sizing styles. You have complete control over how your charts are sized.
It's important to understand that chart components have two levels of configuration:
<TimeChart
class="h-[400px] w-full" // Applied to container div
style={{ border: "1px solid red" }} // Applied to container div
autoSize={true} // Passed to Lightweight Charts
width={800} // Passed to Lightweight Charts (ignored if autoSize=true)
height={400} // Passed to Lightweight Charts (ignored if autoSize=true)
>
<TimeChart.Series type="Line" data={data} />
</TimeChart>Container Level (class, style, id):
- Controls the HTML div that wraps the chart
- Handles sizing, positioning, borders, backgrounds, etc.
- Uses standard CSS/HTML attributes
Chart Level (autoSize, width, height, chart options):
- Passed directly to the underlying Lightweight Charts instance
- Controls chart-specific behavior and rendering
- Uses Lightweight Charts API
Option 1: CSS Classes (Recommended)
<TimeChart class="h-[400px] w-full">
<TimeChart.Series type="Line" data={data} />
</TimeChart>Option 2: Inline Styles
<TimeChart style={{ height: "400px", width: "100%" }}>
<TimeChart.Series type="Line" data={data} />
</TimeChart>Option 3: Fixed Dimensions (autoSize=false)
<TimeChart autoSize={false} width={800} height={400}>
<TimeChart.Series type="Line" data={data} />
</TimeChart>autoSize: true(default): Chart fills its container div. Thewidthandheightprops are ignored.autoSize: false: Chart uses explicitwidthandheightprops for fixed dimensions.
Key Point: When autoSize={true}, the chart will automatically resize to match whatever size you've given the container div via class or style.
All chart containers include the solid-lwc-container class for easy global styling:
.solid-lwc-container {
height: 400px;
width: 100%;
}Responsive with Tailwind:
<TimeChart class="h-[400px] w-full md:h-[500px]">
<TimeChart.Series type="Line" data={data} />
</TimeChart>Fixed size for specific use cases:
<TimeChart autoSize={false} width={600} height={300}>
<TimeChart.Series type="Line" data={data} />
</TimeChart>Parent container sizing:
<div class="h-[400px] w-full">
<TimeChart style={{ height: "100%", width: "100%" }}>
<TimeChart.Series type="Line" data={data} />
</TimeChart>
</div>Container styling + chart options:
<TimeChart
class="h-[500px] w-full border rounded-lg shadow"
rightPriceScale={{ visible: true }}
timeScale={{ timeVisible: true }}
>
<TimeChart.Series type="Line" data={data} />
</TimeChart>Important: Charts need explicit dimensions to render. If you see a blank chart, make sure you've provided sizing through CSS classes, inline styles, or fixed dimensions.
import { TimeChart } from "@dschz/solid-lightweight-charts";
<TimeChart>
{/* Main pane with price data and declarative markers */}
<TimeChart.Series
type="Candlestick"
data={candleData}
markers={(data) => [
{
time: data[10].time,
position: "aboveBar",
color: "#f68410",
shape: "circle",
text: "Buy",
},
{
time: data[20].time,
position: "belowBar",
color: "#e91e63",
shape: "arrowDown",
text: "Sell",
},
]}
onSetMarkers={(markers) => console.log("Markers updated:", markers)}
/>
{/* Secondary pane with volume */}
<TimeChart.Pane>
<TimeChart.Series
type="Histogram"
data={volumeData}
priceScaleId="volume"
color="rgba(76, 175, 80, 0.8)"
/>
</TimeChart.Pane>
</TimeChart>;import { TimeChart } from "@dschz/solid-lightweight-charts";
// Define your custom pane view
const customPaneView = {
updateAllViews() {
/* implementation */
},
paneViews() {
/* implementation */
},
priceValueBuilder(plotRow) {
/* implementation */
},
isWhitespace(data) {
/* implementation */
},
defaultOptions() {
/* implementation */
},
};
<TimeChart>
<TimeChart.CustomSeries
paneView={customPaneView}
data={customData}
onCreateSeries={(series) => console.log("Custom series created:", series)}
/>
</TimeChart>;import { TimeChart, type SeriesPrimitive } from "@dschz/solid-lightweight-charts";
import type {
ISeriesPrimitiveAxisView,
IPrimitivePaneView,
IPrimitivePaneRenderer,
Time,
SeriesAttachedParameter,
} from "lightweight-charts";
// Trend line primitive with proper TypeScript implementation
class TrendLinePrimitive implements SeriesPrimitive<"Line", Time> {
private _paneViews: TrendLinePaneView[];
private _point1: { time: Time; value: number };
private _point2: { time: Time; value: number };
constructor(point1: { time: Time; value: number }, point2: { time: Time; value: number }) {
this._point1 = point1;
this._point2 = point2;
this._paneViews = [new TrendLinePaneView(this)];
}
updateAllViews() {
this._paneViews.forEach((pv) => pv.update());
}
paneViews() {
return this._paneViews;
}
attached(param: SeriesAttachedParameter<Time, "Line">) {
// Implementation for when primitive is attached
}
detached() {
// Cleanup when primitive is detached
}
getPoint1() {
return this._point1;
}
getPoint2() {
return this._point2;
}
}
class TrendLinePaneView implements IPrimitivePaneView {
private _source: TrendLinePrimitive;
private _renderer: TrendLinePaneRenderer;
constructor(source: TrendLinePrimitive) {
this._source = source;
this._renderer = new TrendLinePaneRenderer();
}
update() {
this._renderer.setData({
point1: this._source.getPoint1(),
point2: this._source.getPoint2(),
});
}
renderer() {
return this._renderer;
}
zOrder() {
return "normal" as const;
}
}
class TrendLinePaneRenderer implements IPrimitivePaneRenderer {
private _data: { point1: any; point2: any } | null = null;
setData(data: { point1: any; point2: any } | null) {
this._data = data;
}
draw(target: any) {
if (!this._data) return;
// Canvas 2D rendering implementation
target.useBitmapCoordinateSpace((scope: any) => {
const ctx = scope.context;
// Draw trend line using this._data.point1 and this._data.point2
// ... drawing logic
});
}
}
const trendLine = new TrendLinePrimitive(
{ time: "2023-01-01" as Time, value: 100 },
{ time: "2023-01-10" as Time, value: 120 },
);
<TimeChart>
<TimeChart.Series
type="Line"
data={priceData}
primitives={[trendLine]}
onAttachPrimitives={(primitives) => console.log("Primitives attached:", primitives)}
/>
</TimeChart>;import { TimeChart, type PanePrimitive } from "@dschz/solid-lightweight-charts";
import type {
IPanePrimitivePaneView,
IPrimitivePaneRenderer,
PaneAttachedParameter,
Time,
} from "lightweight-charts";
// Watermark primitive with proper TypeScript implementation
class WatermarkPrimitive implements PanePrimitive<Time> {
private _paneViews: WatermarkPaneView[];
private _text: string;
private _color: string;
private _fontSize: number;
constructor(text: string, color = "rgba(128, 128, 128, 0.3)", fontSize = 48) {
this._text = text;
this._color = color;
this._fontSize = fontSize;
this._paneViews = [new WatermarkPaneView(this)];
}
updateAllViews() {
this._paneViews.forEach((pv) => pv.update());
}
paneViews() {
return this._paneViews;
}
attached(param: PaneAttachedParameter<Time>) {
// Pane primitives can use this for initialization
}
detached() {
// Cleanup if needed
}
getText() {
return this._text;
}
getColor() {
return this._color;
}
getFontSize() {
return this._fontSize;
}
}
class WatermarkPaneView implements IPanePrimitivePaneView {
private _source: WatermarkPrimitive;
private _renderer: WatermarkPaneRenderer;
constructor(source: WatermarkPrimitive) {
this._source = source;
this._renderer = new WatermarkPaneRenderer();
}
update() {
this._renderer.setData({
text: this._source.getText(),
color: this._source.getColor(),
fontSize: this._source.getFontSize(),
});
}
renderer() {
return this._renderer;
}
zOrder() {
return "bottom" as const;
}
}
class WatermarkPaneRenderer implements IPrimitivePaneRenderer {
private _data: { text: string; color: string; fontSize: number } | null = null;
setData(data: { text: string; color: string; fontSize: number } | null) {
this._data = data;
}
draw(target: any) {
if (!this._data) return;
target.useBitmapCoordinateSpace((scope: any) => {
const ctx = scope.context;
const { width, height } = scope.bitmapSize;
ctx.save();
ctx.font = `${this._data!.fontSize}px Arial`;
ctx.fillStyle = this._data!.color;
ctx.textAlign = "center";
ctx.textBaseline = "middle";
// Draw watermark in center of pane
ctx.fillText(this._data!.text, width / 2, height / 2);
ctx.restore();
});
}
}
const watermark = new WatermarkPrimitive("DEMO CHART");
<TimeChart>
<TimeChart.Series type="Line" data={priceData} />
<TimeChart.Pane
primitives={[watermark]}
onAttachPrimitives={(primitives) => console.log("Pane primitives attached")}
>
<TimeChart.Series type="Histogram" data={volumeData} />
</TimeChart.Pane>
</TimeChart>;💡 Complete Examples: For fully working primitive implementations with comprehensive TypeScript types, see the interactive examples in our playground:
SeriesPrimitivesExample.tsx- Trend lines, support/resistance, price alerts, annotationsPanePrimitivesExample.tsx- Watermarks, grid overlays, corner badges
See playground/App.tsx for a complete working showcase with live interactive examples:
Core Chart Types:
- TimeChart with multiple panes (Candlestick+Line, Volume, Area) and series markers
- PriceChart with multiple panes (Line+Area, Histogram) and series markers
- YieldCurveChart with multiple panes (Line, Area) and series markers
Advanced Features (New in v0.2.0):
- Series Primitives Example - Interactive trend lines, support/resistance levels, price alerts, and text annotations
- Pane Primitives Example - Watermarks, custom grid overlays, and corner badges with live updates
- Custom Series Integration - Complete examples with proper TypeScript interfaces
- Dynamic Management - Real-time updates, lifecycle management, and memory optimization
Run the playground locally:
git clone https://github.com/dsnchz/solid-lightweight-charts
cd solid-lightweight-charts
bun install
bun startFull documentation and advanced guides coming soon.
MIT © Daniel Sanchez