Files
op-pedal/vite/src/pipedal/ToobWaveShapeView.tsx
T
Robin E. R. Davies d78d78026c Port from CRT to Vite
2025-02-19 08:58:15 -05:00

452 lines
17 KiB
TypeScript

// Copyright (c) 2022 Robin Davies
//
// Permission is hereby granted, free of charge, to any person obtaining a copy of
// this software and associated documentation files (the "Software"), to deal in
// the Software without restriction, including without limitation the rights to
// use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
// the Software, and to permit persons to whom the Software is furnished to do so,
// subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
// FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
// COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
// IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
// CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
import React from 'react';
import { Theme } from '@mui/material/styles';
import WithStyles from './WithStyles';
import {createStyles} from './WithStyles';
import { withStyles } from "tss-react/mui";
import { PiPedalModelFactory, PiPedalModel, State, ControlValueChangedHandle } from "./PiPedalModel";
import { StandardItemSize } from './PluginControlView';
import Utility from './Utility';
import SvgPathBuilder from './SvgPathBuilder';
const WAVESHAPE_VECTOR_URI = "http://two-play.com/plugins/toob#waveShape";
const PLOT_WIDTH = StandardItemSize.height - 12;
const PLOT_HEIGHT = StandardItemSize.height - 12;
const styles = (theme: Theme) => createStyles({
frame: {
width: PLOT_WIDTH, height: PLOT_HEIGHT, background: "#444",
borderRadius: 6,
marginTop: 12, marginLeft: 8, marginRight: 8,
boxShadow: "1px 2px 4px #000 inset"
},
});
interface ToobWaveShapeProps extends WithStyles<typeof styles> {
instanceId: number;
controlNumber: number;
controlKeys: string[];
vuMin: number;
vuMax: number;
vuMinPeak: number;
vuMaxPeak: number;
vuOutMin: number;
vuOutMax: number;
vuOutMinPeak: number;
vuOutMaxPeak: number;
}
interface ToobWaveShapeState {
data: number[];
}
const HOLD_TIME: number = 1.6; // seconds.
const DECAY_RATE = 1.0; // full range/second.
export class BidirectionalVuPeak {
minValue: number = 0;
maxValue: number = 0;
minPeak: number = 0;
maxPeak: number = 0;
holdTime: number = 1E120; // don't decay until we have an actual peak.
lastTime: number = 0;
update(time: number, minValue: number, maxValue: number)
{
// decay peak.
if (time > this.holdTime)
{
let dt = time-this.lastTime;
let decay = dt*DECAY_RATE;
this.maxPeak -= decay;
if (this.maxPeak < 0) this.maxPeak = 0;
this.minPeak += decay;
if (this.minPeak > 0) this.minPeak = 0;
this.lastTime = time;
}
this.minValue = minValue;
this.maxValue = maxValue;
let resetPeakHold = false;
if (minValue < this.minPeak)
{
this.minPeak = minValue;
resetPeakHold = true;
}
if (maxValue > this.maxPeak)
{
this.maxPeak = maxValue;
resetPeakHold = true;
}
if (resetPeakHold)
{
this.holdTime = time+HOLD_TIME;
this.lastTime = this.holdTime;
}
}
}
const ToobWaveShapeView =
withStyles(
class extends React.Component<ToobWaveShapeProps, ToobWaveShapeState>
{
model: PiPedalModel;
customizationId: number = 1;
constructor(props: ToobWaveShapeProps) {
super(props);
this.model = PiPedalModelFactory.getInstance();
this.state = {
data: []
};
this.onPedalboardChanged = this.onPedalboardChanged.bind(this);
this.onStateChanged = this.onStateChanged.bind(this);
this.onControlValueChanged = this.onControlValueChanged.bind(this);
this.isReady = this.model.state.get() === State.Ready;
}
isReady: boolean;
onStateChanged() {
let isReady = this.model.state.get() === State.Ready;
if (this.isReady !== isReady) {
this.isReady = isReady;
if (isReady) {
this.requestDeferred = false;
this.requestOutstanding = false;
this.updateWaveShape(); // after a reconnect.
}
}
}
onPedalboardChanged() {
this.updateWaveShape();
}
_valueChangedHandle?: ControlValueChangedHandle;
mounted: boolean = false;
componentDidMount() {
this.mounted = true;
this.model.state.addOnChangedHandler(this.onStateChanged);
this.model.pedalboard.addOnChangedHandler(this.onPedalboardChanged);
this._valueChangedHandle = this.model.addControlValueChangeListener(
this.props.instanceId,
this.onControlValueChanged);
this.isReady = this.model.state.get() === State.Ready;
this.updateWaveShape();
}
lastVuMin: number = -1000;
lastVuMax: number = -1000;
componentDidUpdate() {
}
componentWillUnmount() {
this.mounted = false;
if (this._valueChangedHandle) {
this.model.removeControlValueChangeListener(this._valueChangedHandle);
this._valueChangedHandle = undefined;
}
this.model.state.removeOnChangedHandler(this.onStateChanged);
this.model.pedalboard.removeOnChangedHandler(this.onPedalboardChanged);
}
onControlValueChanged(key: string, value: number) {
for (let i = 0; i < this.props.controlKeys.length; ++i) {
if (this.props.controlKeys[i] === (key)) {
this.updateWaveShape();
}
}
}
requestOutstanding: boolean = false;
requestDeferred: boolean = false;
// Size of the SVG element.
xMin: number = 4;
xMax: number = PLOT_WIDTH - 10;
yMin: number = 2;
yMax: number = PLOT_HEIGHT - 10;
vuHeight = 4;
nPoints: number = 0;
indexToX(value: number): number {
return (this.xMax - this.xMin) * value / this.nPoints + this.xMin;
}
toY(value: number): number {
let yMid = (this.yMin + this.yMax) / 2;
return yMid - (this.yMax-this.yMin)/2 * value;
}
toX(value: number): number {
let xMid = (this.xMin + this.xMax)/2;
return xMid+ (this.xMax-this.xMin)*0.5*value;
}
onWaveShapeUpdated(data: number[]) {
if (!this.mounted) {
return;
}
this.setState({data: data});
}
updateWaveShape() {
if (!this.isReady)
return;
if (this.requestOutstanding) { // throttling.
this.requestDeferred = true;
return;
}
this.requestOutstanding = true;
this.model.getPatchProperty<any>(this.props.instanceId, WAVESHAPE_VECTOR_URI + this.props.controlNumber)
.then((json) => {
if (!this.mounted) return;
if (json.otype_ === "Vector" && json.vtype_ === "Float")
{
let data = json.value;
this.onWaveShapeUpdated(data);
if (this.requestDeferred) {
Utility.delay(10) // take breath
.then(
() => {
this.requestOutstanding = false;
this.requestDeferred = false;
this.updateWaveShape();
}
);
} else {
this.requestOutstanding = false;
}
}
}).catch(error => {
// assume the connection was lost. We'll get saved by a reconnect.
this.requestOutstanding = false;
this.requestDeferred = false;
});
}
currentPath: string = "";
redColor: string = "#F00";
yellowColor: string = "#FF0";
greenColor: string = "#0F0";
horizontalVuMeter(minValue: number, maxValue: number, minPeak: number, maxPeak: number): React.ReactNode[]
{
let result: React.ReactNode[] = [];
let greenXMin = this.toX(-0.5);
let greenXMax = this.toX(0.5);
if (minValue < -1.0) minValue = -1.0;
if (maxValue > 1.0) maxValue = 1.0;
if (minPeak < -1.0) minPeak = -1;
if (maxPeak > 1.0) maxPeak = 1.0;
let nKey = 0;
let yTop = this.yMax+2;
let minX = this.toX(minValue);
let maxX = this.toX(maxValue);
let minPeakX = this.toX(minPeak);
let maxPeakX = this.toX(maxPeak);
if (minX < greenXMin)
{
result.push( ( <rect x={minX} y={yTop}
width={greenXMin-minX} height={this.vuHeight}
fill={this.yellowColor} stroke="none" key={"hr"+ nKey++} />));
minX = greenXMin;
}
if (maxX > greenXMax)
{
result.push( ( <rect x={greenXMax} y={yTop}
width={maxX-greenXMax} height={this.vuHeight}
fill={this.yellowColor} stroke="none" key={"hr"+ nKey++} />))
maxX = greenXMax;
}
if (maxX > minX)
{
result.push( ( <rect x={minX} y={yTop}
width={maxX-minX} height={this.vuHeight}
fill={this.greenColor} stroke="none" key={"hr"+ nKey++} />))
}
if (minPeakX+4 < maxPeakX)
{
let minColor = this.peakColor(minPeak);
let maxColor = this.peakColor(maxPeak);
result.push( ( <rect x={minPeakX} y={yTop}
width={2} height={this.vuHeight}
fill={minColor} stroke="none" key={"hr"+ nKey++} />))
result.push( ( <rect x={maxPeakX-2} y={yTop}
width={2} height={this.vuHeight}
fill={maxColor} stroke="none" key={"hr"+ nKey++} />))
}
return result;
}
verticalVuMeter(minValue: number, maxValue: number, minPeak: number, maxPeak: number): React.ReactNode[]
{
let result: React.ReactNode[] = [];
let greenYMin = this.toY(-0.5);
let greenYMax = this.toY(0.5);
if (minValue < -1.0) minValue = -1.0;
if (maxValue > 1.0) maxValue = 1.0;
if (minPeak < -1.0) minPeak = -1;
if (maxPeak > 1.0) maxPeak = 1.0;
let nKey = 0;
let xLeft = this.xMax+2;
let minY = this.toY(minValue);
let maxY = this.toY(maxValue);
let minPeakY = this.toY(minPeak);
let maxPeakY = this.toY(maxPeak);
if (minY > greenYMin)
{
result.push( ( <rect y={greenYMin} x={xLeft}
height={minY-greenYMin} width={4}
fill={this.yellowColor} stroke="none" key={"vr"+ nKey++} />));
minY = greenYMin;
}
if (maxY < greenYMax)
{
result.push( ( <rect y={maxY} x={xLeft}
height={greenYMax-maxY} width={4}
fill={this.yellowColor} stroke="none" key={"vr"+ nKey++} />))
maxY = greenYMax;
}
if (minY > maxY)
{
result.push( ( <rect y={maxY} x={xLeft}
height={minY-maxY} width={4}
fill={this.greenColor} stroke="none" key={"vr"+ nKey++} />))
}
if (minPeakY-4 > maxPeakY)
{
let minColor = this.peakColor(minPeak);
let maxColor = this.peakColor(maxPeak);
result.push( ( <rect y={minPeakY-4} x={xLeft}
width={4} height={2}
fill={minColor} stroke="none" key={"vr"+ nKey++} />))
result.push( ( <rect y={maxPeakY} x={xLeft}
width={4} height={2}
fill={maxColor} stroke="none" key={`vr${nKey++}`} />))
}
return result;
}
grid() : React.ReactNode[] {
let result : React.ReactNode[] = [];
let xMid = (this.xMin+this.xMax)/2;
let yMid = (this.yMin+this.yMax)/2;
let color = "#888";
let kx = 0;
result.push(
<line x1={this.xMin} y1={this.yMin} x2={this.xMax} y2={this.yMin} stroke={color} strokeWidth={0.5}
key={"grid"+ kx++}/>
);
result.push(
<line x1={this.xMin} y1={yMid} x2={this.xMax} y2={yMid} stroke={color} strokeWidth={0.5}
key={"grid"+ kx++}/>
);
result.push(
<line x1={this.xMin} y1={this.yMax} x2={this.xMax} y2={this.yMax} stroke={color} strokeWidth={0.5}
key={"grid"+ kx++}/>
);
result.push(
<line x1={this.yMin} y1={this.yMin} x2={this.yMin} y2={this.yMax} stroke={color} strokeWidth={0.5}
key={"grid"+ kx++}/>
);
result.push(
<line x1={xMid} y1={this.yMin} x2={xMid} y2={this.yMax} stroke={color} strokeWidth={0.5}
key={"grid"+ kx++}/>
);
result.push(
<line x1={this.xMax} y1={this.yMin} x2={this.xMax} y2={this.yMax} stroke={color} strokeWidth={0.5}
key={"grid"+ kx++}/>
);
return result;
}
peakColor(value: number): string {
if (value >= 1.0 || value <= -1.0) return this.redColor;
if (value >= 0.5 || value <= -0.5) return this.yellowColor;
return this.greenColor;
}
render() {
const classes = withStyles.getClasses(this.props);
let data = this.state.data;
let pathBuilder = new SvgPathBuilder();
this.nPoints = data.length;
if (data.length > 2) {
pathBuilder.moveTo(this.indexToX(0), this.toY(data[0]));
for (let i = 1; i < data.length; ++i) {
pathBuilder.lineTo(this.indexToX(i), this.toY(data[i]));
}
}
let currentPath = pathBuilder.toString();
return (
<div className={classes.frame} >
<svg width={PLOT_WIDTH} height={PLOT_HEIGHT} viewBox={"0 0 " + PLOT_WIDTH + " " + PLOT_HEIGHT} >
{
this.grid()
}
{ this.horizontalVuMeter(this.props.vuMin,this.props.vuMax,
this.props.vuMinPeak,this.props.vuMaxPeak)
}
{ this.verticalVuMeter(this.props.vuOutMin,this.props.vuOutMax,
this.props.vuOutMinPeak,this.props.vuOutMaxPeak)
}
<path d={currentPath} stroke="#0F8" fill="none" strokeWidth="2.5" opacity="0.6" />
</svg>
</div>);
}
},
styles
);
export default ToobWaveShapeView;