mirror of
https://github.com/rsms/inter.git
synced 2024-12-26 00:54:14 +03:00
240 lines
5.2 KiB
JavaScript
240 lines
5.2 KiB
JavaScript
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function GraphPlot(canvas) {
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this.canvas = canvas
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const g = canvas.getContext('2d')
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if (g == null) {
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throw new Error('failed to acquire 2d context')
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}
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this.width = 0 // dp
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this.height = 0 // dp
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this.widthPx = 0 // px
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this.heightPx = 0 // px
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this.pixelRatio = 1
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this.g = g
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this.dataSegments = []
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this.axes = {
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x0: .5, // % from left to x=0
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y0: .5, // % from top to y=0
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scalex: 40, // pixels from x=0 to x=1
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scaley: 40, // pixels from y=0 to y=1
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negativeX: true,
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}
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if (!this.autosize()) {
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this.setSize(256, 256)
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}
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}
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GraphPlot.prototype.autosize = function() {
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try {
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this.canvas.width = null
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this.canvas.height = null
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this.canvas.style.width = null
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this.canvas.style.height = null
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var cs = window.getComputedStyle(this.canvas)
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var width = parseFloat(cs.width)
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var height = parseFloat(cs.height)
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this.setSize(width, height)
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return true
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} catch (err) {
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if (typeof console != 'undefined' && console.warn) {
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console.warn('GraphPlot.autosize failed: ' + err)
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}
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}
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return false
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}
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// setOrigin sets the origin of axis x and y
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// The values should be in the range [0-1] and maps to the extremes
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// of the canvas.
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//
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GraphPlot.prototype.setOrigin = function(x, y) {
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var p = this
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p.axes.x0 = x
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p.axes.y0 = y
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}
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// setScale sets the value scale for x and y axis.
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// The values should be provided as display points.
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//
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GraphPlot.prototype.setScale = function(x, y) {
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var p = this
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if (y === undefined) {
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y = x
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}
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p.axes.scalex = x
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p.axes.scaley = y
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}
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// setSize sets the size of canvas in display points
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//
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GraphPlot.prototype.setSize = function(width, height) {
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var p = this
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p.width = width
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p.height = height
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const el = p.canvas, g = p.g
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p.pixelRatio = window.devicePixelRatio || 1
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if (p.pixelRatio != 1) {
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el.width = p.widthPx = width * p.pixelRatio
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el.height = p.heightPx = height * p.pixelRatio
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g.scale(p.pixelRatio, p.pixelRatio)
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} else {
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el.width = p.widthPx = width
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el.height = p.heightPx = height
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g.scale(1, 1)
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}
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el.style.width = `${width}px`
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el.style.height = `${height}px`
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}
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GraphPlot.prototype.renderAxes = function() {
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var p = this
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, g = p.g
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, x0 = Math.round(p.axes.x0 * p.widthPx) / p.pixelRatio
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, y0 = Math.round(p.axes.y0 * p.heightPx) / p.pixelRatio
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g.beginPath()
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g.strokeStyle = "rgb(0, 0, 0, 0.2)"
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if (y0 > 0 && y0 < p.width) {
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g.moveTo(0, y0); g.lineTo(p.width, y0) // X axis
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}
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if (x0 > 0 && x0 < p.height) {
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g.moveTo(x0, 0); g.lineTo(x0, p.height) // Y axis
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}
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g.stroke()
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}
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// plotf plots an arbitrary function on the graph
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//
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GraphPlot.prototype.plotf = function(f, color) {
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var p = this
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, g = p.g
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, w = p.width
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, h = p.height
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, x0 = p.axes.x0 * p.width
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, y0 = p.axes.y0 * p.height
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, x = 0
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, y = 0
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, dx = 4 / p.pixelRatio // smaller means finer curves and more CPU
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, scalex = p.axes.scalex * w
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, scaley = p.axes.scaley * h
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, iMax = Math.round((w - x0) / dx)
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, iMin = p.axes.negativeX ? Math.round(-x0 / dx) : 0
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g.beginPath()
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g.lineWidth = 1
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g.strokeStyle = color || "rgb(0, 0, 0, 0.8)"
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for (var i = iMin; i <= iMax; i++) {
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x = dx * i
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y = f(x / scalex) * scaley
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if (i == iMin) {
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g.moveTo(x0 + x, y0 - y)
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} else {
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g.lineTo(x0 + x, y0 - y)
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}
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}
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g.stroke()
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}
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// plotLines draws straight lines between a collection of points
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//
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GraphPlot.prototype.plotLine = function(points, color) {
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var p = this
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, g = p.g
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, x0 = p.axes.x0 * p.width
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, y0 = p.axes.y0 * p.height
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, x = 0
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, y = 0
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, scalex = p.axes.scalex * p.width
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, scaley = p.axes.scaley * p.height
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, pt
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g.beginPath()
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g.lineWidth = 1
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g.strokeStyle = color || "rgb(0, 0, 0, 0.8)"
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var i = 0
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for (; i < points.length; i++) {
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pt = points[i]
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x = pt[0] * scalex
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y = pt[1] * scaley
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if (i == 0) {
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g.moveTo(x0 + x, y0 - y)
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} else {
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g.lineTo(x0 + x, y0 - y)
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}
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}
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g.stroke()
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}
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// plotPoints draws points
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//
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GraphPlot.prototype.plotPoints = function(points, color) {
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var p = this
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, g = p.g
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, x0 = p.axes.x0 * p.width
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, y0 = p.axes.y0 * p.height
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, x = 0
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, y = 0
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, scalex = p.axes.scalex * p.width
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, scaley = p.axes.scaley * p.height
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, pt
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, i = 0
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g.fillStyle = color || "rgb(0, 0, 0, 0.8)"
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for (; i < points.length; i++) {
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pt = points[i]
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x = x0 + pt[0] * scalex
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y = y0 - pt[1] * scaley
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g.beginPath()
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g.arc(x, y, 3, 0, Math.PI + (Math.PI * 2) / 2, false)
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g.fill()
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}
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}
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GraphPlot.prototype.clear = function() {
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var p = this
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p.g.clearRect(0, 0, p.width, p.height)
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p.renderAxes()
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}
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GraphPlot.prototype.renderDemo = function() {
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var p = this
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, g = p.g
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, dpscale = p.pixelRatio
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, w = p.widthPx
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, h = p.heightPx
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p.clear()
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p.plotf(
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function(x) { return Math.sin(x) },
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'blue'
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)
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p.plotf(
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function(x) { return Math.cos(3*x) },
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'hotpink'
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)
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// var scale = p.height / 4
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// g.moveTo(0, scale)
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// var i, sine, lines = 200, frag = p.width / lines
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// for (i = 0; i < lines; i++) {
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// sine = Math.sin(i / scale * 2) * scale
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// g.lineTo(i * frag, -sine + scale)
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// }
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// g.stroke()
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}
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