def onclickmethod(*args):
canvasExists = True
try:
canvas = doc['brythoncanvas']
except KeyError:
canvasExists = False
v = PlotParamValidator()
if v.isValid():
pr = FunctionParser()
if pr.canParse():
if (canvasExists == True):
ctx = canvas.getContext('2d')
mgr = CanvasManager(v, pr)
mgr.drawFunction(ctx)
else:
p = Plot(v, pr)
p.run()
else:
pr.block()
else:
v.block()
def __init__(self, v, parser): self.v = v self.p = parser self.mgr = CanvasManager(v, parser)
class Plot:
def __init__(self, v, parser):
self.v = v
self.p = parser
self.mgr = CanvasManager(v, parser)
# Starts plotting.
def run(self):
container = doc['container']
container.clear()
self.step = self.v.unitsPerTick / self.v.getSpacing()
canvas = self.drawCanvas()
ctx = canvas.getContext('2d')
self.drawAxis(ctx)
self.mgr.drawFunction(ctx)
container <= canvas
# Creates HTML5 canvas with drawn axes, ticks and function.
def drawCanvas(self):
w = self.v.canvasWidth
h = self.v.canvasHeight
canvas = html.CANVAS(width = w, height = h, id = "brythoncanvas")
ctx = canvas.getContext('2d')
ctx.fillStyle = "#131313"
ctx.fillRect(0, 0, w, h)
return canvas
# Draws X and Y axes
def drawAxis(self, ctx):
ctx.beginPath()
ctx.strokeStyle = "white"
ctx.lineWidth = 2
ctx.moveTo(0, self.v.xAxis)
ctx.lineTo(self.v.canvasWidth, self.v.xAxis)
ctx.stroke()
ctx.moveTo(self.v.yAxis, 0)
ctx.lineTo(self.v.yAxis, self.v.canvasHeight)
ctx.stroke()
self.drawUnits(ctx)
# Draws ticks with labels
def drawUnits(self,ctx):
self.drawTicksHorizontal(ctx)
self.drawTicksVertical(ctx)
# Draws horizontal ticks with labels
def drawTicksHorizontal(self, ctx):
halfW = self.v.canvasWidth / 2
ticksCount = (halfW / self.v.getSpacing())
for i in range(1, ticksCount+1):
ctx.beginPath()
ctx.strokeStyle = "white"
ctx.lineWidth = 2
x = self.v.yAxis + (i*self.v.getSpacing())
ctx.moveTo(x, self.v.xAxis-4)
ctx.lineTo(x, self.v.xAxis+4)
ctx.stroke()
negX = self.v.yAxis - (i*self.v.getSpacing())
ctx.moveTo(negX, self.v.xAxis-4)
ctx.lineTo(negX, self.v.xAxis+4)
ctx.stroke()
xForLabel = i*self.v.unitsPerTick
xForLabelNeg = i*(-1)*self.v.unitsPerTick
self.drawLabelOnX(ctx, x, xForLabel)
self.drawLabelOnX(ctx, negX, xForLabelNeg)
# Draws single label on X-axis
def drawLabelOnX(self, ctx, x, xlabel):
ctx.fillStyle = "white"
ctx.font = "8px Arial"
label = str(int(xlabel))
ctx.fillText(label, x-2, self.v.xAxis+10)
# Draws vertical ticks with labels
def drawTicksVertical(self, ctx):
halfH = self.v.canvasHeight / 2
ticksCount = (halfH / self.v.getSpacing())
for i in range(1, ticksCount+1):
ctx.beginPath()
ctx.strokeStyle = "white"
ctx.lineWidth = 2
y = self.v.xAxis + (i*self.v.getSpacing())
ctx.moveTo(self.v.yAxis-4, y)
ctx.lineTo(self.v.yAxis+4, y)
ctx.stroke()
negY = self.v.xAxis - (i*self.v.getSpacing())
ctx.moveTo(self.v.yAxis-4, negY)
ctx.lineTo(self.v.yAxis+4, negY)
ctx.stroke()
yForLabel = i*self.v.unitsPerTick
yForLabelNeg = i*(-1)*self.v.unitsPerTick
self.drawLabelOnY(ctx,y, yForLabel)
self.drawLabelOnY(ctx,negY, yForLabelNeg)
# Draws single label on Y-axis
def drawLabelOnY(self, ctx, y, yLabel):
ctx.fillStyle = "white"
ctx.font = "8px Arial"
label = str(int((-1)*(yLabel)))
ctx.fillText(label, self.v.yAxis+10, y)
