func combohand(cx, cy, px, py, r, stroke openvg.VGfloat, t float64, value int, color string) {
thinr := float64(r * 0.25)
t = minadjust(t, value) * deg2rad
tx := cx + openvg.VGfloat(thinr*math.Cos(t))
ty := cy + openvg.VGfloat(thinr*math.Sin(t))
openvg.FillColor(color)
openvg.Ellipse(px, py, stroke*2, stroke*2)
openvg.Ellipse(tx, ty, stroke*2, stroke*2)
openvg.StrokeWidth(stroke)
openvg.StrokeColor(color)
openvg.Line(cx, cy, tx, ty)
openvg.StrokeWidth(stroke * 2)
openvg.Line(tx, ty, px, py)
openvg.StrokeWidth(0)
}
// rshapes draws shapes with random colors, openvg.Strokes, and sizes.
func rshapes(width, height, n int) {
var sx, sy, cx, cy, px, py, ex, ey, pox, poy float64
np := 10
polyx := make([]float64, np)
polyy := make([]float64, np)
openvg.Start(width, height)
for i := 0; i < n; i++ {
openvg.FillRGB(randcolor(), randcolor(), randcolor(), rand.Float64())
openvg.Ellipse(randf(width), randf(height), randf(200), randf(100))
openvg.Circle(randf(width), randf(height), randf(100))
openvg.Rect(randf(width), randf(height), randf(200), randf(100))
openvg.Arc(randf(width), randf(height), randf(200), randf(200), randf(360), randf(360))
sx = randf(width)
sy = randf(height)
openvg.StrokeRGB(randcolor(), randcolor(), randcolor(), 1)
openvg.StrokeWidth(randf(5))
openvg.Line(sx, sy, sx+randf(200), sy+randf(100))
openvg.StrokeWidth(0)
sx = randf(width)
sy = randf(height)
ex = sx + randf(200)
ey = sy
cx = sx + ((ex - sx) / 2.0)
cy = sy + randf(100)
openvg.Qbezier(sx, sy, cx, cy, ex, ey)
sx = randf(width)
sy = randf(height)
ex = sx + randf(200)
ey = sy
cx = sx + ((ex - sx) / 2.0)
cy = sy + randf(100)
px = cx
py = sy - randf(100)
openvg.Cbezier(sx, sy, cx, cy, px, py, ex, ey)
pox = randf(width)
poy = randf(height)
for j := 0; j < np; j++ {
polyx[j] = pox + randf(200)
polyy[j] = poy + randf(100)
}
openvg.Polygon(polyx, polyy) // , np)
pox = randf(width)
poy = randf(height)
for j := 0; j < np; j++ {
polyx[j] = pox + randf(200)
polyy[j] = poy + randf(100)
}
openvg.Polyline(polyx, polyy) // , np)
}
openvg.FillRGB(128, 0, 0, 1)
openvg.Text(20, 20, "OpenVG on the Raspberry Pi", "sans", 32)
openvg.End()
}
// drop shows the raindrop icon
func (d *dimen) drop(color string) {
x, y, w, h := d.x, d.y, d.width, d.height
openvg.FillColor(color)
openvg.Ellipse(x+(w/2), y+(h*0.40), w*0.52, h*0.65)
xp := []openvg.VGfloat{x + (w / 2), x + (w * 0.25), x + (w * 0.75)}
yp := []openvg.VGfloat{y + h, y + (h / 2), y + (h / 2)}
openvg.Polygon(xp, yp)
}
func roundhand(cx, cy, px, py, stroke openvg.VGfloat, color string) {
openvg.StrokeWidth(stroke)
openvg.StrokeColor(color)
openvg.Line(cx, cy, px, py)
openvg.StrokeWidth(0)
openvg.FillColor(color)
openvg.Ellipse(px, py, stroke, stroke)
}
func secondhand(cx, cy, sx, sy, textsize openvg.VGfloat) {
openvg.FillColor(secolor, 0.4)
openvg.Ellipse(sx, sy, textsize, textsize)
if secline {
openvg.StrokeWidth(textsize / 6)
openvg.StrokeColor(secolor)
openvg.Line(cx, cy, sx, sy)
openvg.StrokeWidth(0)
}
}
func face(x, y, r openvg.VGfloat, ts int) {
var fx, fy, va openvg.VGfloat
va = openvg.VGfloat(ts) / 2.0
secsize := openvg.VGfloat(ts) / 3
radius := float64(r)
ir := radius * 1.2
// hour display
openvg.FillColor(digitcolor)
openvg.StrokeColor(digitcolor)
openvg.StrokeWidth(5)
for h := 12; h > 0; h-- {
t := hourangles[h%12] * deg2rad
fx = x + openvg.VGfloat(radius*math.Cos(t))
fy = y + openvg.VGfloat(radius*math.Sin(t))
ix := x + openvg.VGfloat(ir*math.Cos(t))
iy := y + openvg.VGfloat(ir*math.Sin(t))
if showdigits {
openvg.TextMid(fx, fy-va, hourdigits[h%12], "sans", ts)
} else {
openvg.Line(fx, fy, ix, iy)
}
}
// second display
openvg.FillColor(dotcolor)
openvg.StrokeColor(dotcolor)
openvg.StrokeWidth(2)
re := radius * edge
for a := 0.0; a < 360; a += 6.0 {
t := a * deg2rad
sx := x + openvg.VGfloat(re*math.Cos(t))
sy := y + openvg.VGfloat(re*math.Sin(t))
if showdots {
openvg.Ellipse(sx, sy, secsize, secsize)
} else {
ix := x + openvg.VGfloat(ir*math.Cos(t))
iy := y + openvg.VGfloat(ir*math.Sin(t))
openvg.Line(sx, sy, ix, iy)
}
}
openvg.StrokeWidth(0)
}
// refcard shows a reference card of shapes
func refcard(width, height int) {
shapenames := []string{
"Circle",
"Ellipse",
"Rectangle",
"Rounded Rectangle",
"Line",
"Polyline",
"Polygon",
"Arc",
"Quadratic Bezier",
"Cubic Bezier",
"Image",
}
top := float64(height) * .95
sx := float64(width) * 0.10
sy := top
sw := float64(width) * .05
sh := float64(height) * .045
dotsize := 7.0
spacing := 2.0
fontsize := int(float64(height) * .033)
shapecolor := Color{202, 225, 255, 1.0}
openvg.Start(width, height)
openvg.FillRGB(128, 0, 0, 1)
openvg.TextEnd(float64(width-20), float64(height/2),
"OpenVG on the Raspberry Pi", "sans", fontsize+(fontsize/2))
openvg.FillRGB(0, 0, 0, 1)
for _, s := range shapenames {
openvg.Text(sx+sw+sw/2, sy, s, "sans", fontsize)
sy -= sh * spacing
}
sy = top
cx := sx + (sw / 2)
ex := sx + sw
openvg.FillRGB(shapecolor.red, shapecolor.green, shapecolor.blue, shapecolor.alpha)
openvg.Circle(cx, sy, sw)
coordpoint(cx, sy, dotsize, shapecolor)
sy -= sh * spacing
openvg.Ellipse(cx, sy, sw, sh)
coordpoint(cx, sy, dotsize, shapecolor)
sy -= sh * spacing
openvg.Rect(sx, sy, sw, sh)
coordpoint(sx, sy, dotsize, shapecolor)
sy -= sh * spacing
openvg.Roundrect(sx, sy, sw, sh, 20, 20)
coordpoint(sx, sy, dotsize, shapecolor)
sy -= sh * spacing
openvg.StrokeWidth(1)
openvg.StrokeRGB(204, 204, 204, 1)
openvg.Line(sx, sy, ex, sy)
coordpoint(sx, sy, dotsize, shapecolor)
coordpoint(ex, sy, dotsize, shapecolor)
sy -= sh
px := []float64{sx, sx + (sw / 4), sx + (sw / 2), sx + ((sw * 3) / 4), sx + sw}
py := []float64{sy, sy - sh, sy, sy - sh, sy}
openvg.Polyline(px, py) // , 5)
coordpoint(px[0], py[0], dotsize, shapecolor)
coordpoint(px[1], py[1], dotsize, shapecolor)
coordpoint(px[2], py[2], dotsize, shapecolor)
coordpoint(px[3], py[3], dotsize, shapecolor)
coordpoint(px[4], py[4], dotsize, shapecolor)
sy -= sh * spacing
py[0] = sy
py[1] = sy - sh
py[2] = sy - (sh / 2)
py[3] = py[1] - (sh / 4)
py[4] = sy
openvg.Polygon(px, py) // , 5)
sy -= (sh * spacing) + sh
openvg.Arc(sx+(sw/2), sy, sw, sh, 0, 180)
coordpoint(sx+(sw/2), sy, dotsize, shapecolor)
sy -= sh * spacing
var cy, ey float64
cy = sy + (sh / 2)
ey = sy
openvg.Qbezier(sx, sy, cx, cy, ex, ey)
coordpoint(sx, sy, dotsize, shapecolor)
coordpoint(cx, cy, dotsize, shapecolor)
coordpoint(ex, ey, dotsize, shapecolor)
sy -= sh * spacing
ey = sy
cy = sy + sh
openvg.Cbezier(sx, sy, cx, cy, cx, sy, ex, ey)
coordpoint(sx, sy, dotsize, shapecolor)
coordpoint(cx, cy, dotsize, shapecolor)
coordpoint(cx, sy, dotsize, shapecolor)
coordpoint(ex, ey, dotsize, shapecolor)
sy -= (sh * spacing * 1.5)
openvg.Image(sx, sy, 110, 110, "starx.jpg")
openvg.End()
}
func frame(cx, cy, framesize, facesize, textsize openvg.VGfloat, framecolor, facecolor string) {
openvg.FillColor(framecolor)
openvg.Roundrect(cx-framesize/2, cy-framesize/2, framesize, framesize, textsize, textsize)
openvg.FillColor(facecolor)
openvg.Ellipse(cx, cy, facesize*2.4, facesize*2.4)
}
func centerdot(cx, cy, size openvg.VGfloat) {
openvg.FillColor(centercolor)
openvg.Ellipse(cx, cy, size, size)
}
