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import algorithm
import unicode
import css/values
import img/bitmap
import img/path
import img/png
import types/color
import types/line
import types/vector
type CanvasFillRule* = enum
NON_ZERO = "nonzero"
EVEN_ODD = "evenodd"
# https://en.wikipedia.org/wiki/Bresenham's_line_algorithm#All_cases
proc plotLineLow(bmp: Bitmap, x0, y0, x1, y1: int64, color: RGBAColor) =
var dx = x1 - x0
var dy = y1 - y0
var yi = 1
if dy < 0:
yi = -1
dy = -dy
var D = 2 * dy - dx;
var y = y0;
for x in x0 ..< x1:
if x < 0 or y < 0 or uint64(x) >= bmp.width or uint64(y) >= bmp.height:
break
bmp.setpxb(uint64(x), uint64(y), color)
if D > 0:
y = y + yi;
D = D - 2 * dx;
D = D + 2 * dy;
proc plotLineHigh(bmp: Bitmap, x0, y0, x1, y1: int64, color: RGBAColor) =
var dx = x1 - x0
var dy = y1 - y0
var xi = 1
if dx < 0:
xi = -1
dx = -dx
var D = 2 * dx - dy
var x = x0
for y in y0 ..< y1:
if x < 0 or y < 0 or uint64(x) >= bmp.width or uint64(y) >= bmp.height:
break
bmp.setpxb(uint64(x), uint64(y), color)
if D > 0:
x = x + xi
D = D - 2 * dy
D = D + 2 * dx
#TODO should be uint64...
proc plotLine(bmp: Bitmap, x0, y0, x1, y1: int64, color: RGBAColor) =
if abs(y1 - y0) < abs(x1 - x0):
if x0 > x1:
bmp.plotLineLow(x1, y1, x0, y0, color)
else:
bmp.plotLineLow(x0, y0, x1, y1, color)
else:
if y0 > y1:
bmp.plotLineHigh(x1, y1, x0, y0, color)
else:
bmp.plotLineHigh(x0, y0, x1, y1, color)
proc plotLine(bmp: Bitmap, a, b: Vector2D, color: RGBAColor) =
bmp.plotLine(int64(a.x), int64(a.y), int64(b.x), int64(b.y), color)
proc plotLine(bmp: Bitmap, line: Line, color: RGBAColor) =
bmp.plotLine(line.p0, line.p1, color)
proc strokePath*(bmp: Bitmap, path: Path, color: RGBAColor) =
for line in path.lines:
bmp.plotLine(line, color)
func isInside(windingNumber: int, fillRule: CanvasFillRule): bool =
return case fillRule
of NON_ZERO: windingNumber != 0
of EVEN_ODD: windingNumber mod 2 == 0
# Mainly adapted from SerenityOS.
proc fillPath*(bmp: Bitmap, path: Path, color: RGBAColor,
fillRule: CanvasFillRule) =
let lines = path.getLineSegments()
var i = 0
var ylines: seq[LineSegment]
for y in int64(lines.miny) .. int64(lines.maxy):
for k in countdown(ylines.high, 0):
if ylines[k].maxy < float64(y):
ylines.del(k) # we'll sort anyways, so del is fine
for j in i ..< lines.len:
if lines[j].miny > float64(y):
break
if lines[j].maxy > float64(y):
ylines.add(lines[j])
inc i
ylines.sort(cmpLineSegmentX)
var w = if fillRule == NON_ZERO: 1 else: 0
for k in 0 ..< ylines.high:
let a = ylines[k]
let b = ylines[k + 1]
let sx = int64(a.minyx)
let ex = int64(b.minyx)
if isInside(w, fillRule) and y > 0:
for x in sx .. ex:
if x > 0:
bmp.setpxb(uint64(x), uint64(y), color)
if int64(a.p0.y) != y and int64(a.p1.y) != y and int64(b.p0.y) != y and
int64(b.p1.y) != y and sx != ex or a.islope * b.islope < 0:
case fillRule
of EVEN_ODD: inc w
of NON_ZERO:
if a.p0.y < a.p1.y:
inc w
else:
dec w
ylines[k].minyx += ylines[k].islope
if ylines.len > 0:
ylines[^1].minyx += ylines[^1].islope
proc fillRect*(bmp: Bitmap, x0, x1, y0, y1: uint64, color: RGBAColor) =
for y in y0 ..< y1:
for x in x0 ..< x1:
bmp.setpxb(x, y, color)
proc strokeRect*(bmp: Bitmap, x0, x1, y0, y1: uint64, color: RGBAColor) =
for x in x0 ..< x1:
bmp.setpxb(x, y0, color)
bmp.setpxb(x, y1, color)
for y in y0 ..< y1:
bmp.setpxb(x0, y, color)
bmp.setpxb(x1, y, color)
proc clearRect*(bmp: Bitmap, x0, x1, y0, y1: uint64) =
for y in y0 ..< y1:
for x in x0 ..< x1:
bmp.setpx(x, y, rgba(0, 0, 0, 0))
proc clear*(bmp: Bitmap) =
bmp.clearRect(0, bmp.width, 0, bmp.height)
const unifont = readFile"res/unifont_jp-15.0.05.png"
var unifontBitmap: Bitmap
var glyphCache: seq[tuple[u: uint32, bmp: Bitmap]]
var glyphCacheI = 0
proc getCharBmp(u: uint32): Bitmap =
# We only have the BMP.
let u = if u <= 0xFFFF: u else: 0xFFFD
if unifontBitmap == nil:
unifontBitmap = fromPNG(toOpenArrayByte(unifont, 0, unifont.high))
for (cu, bmp) in glyphCache:
if cu == u:
return bmp
# Unifont glyphs start at x: 32, y: 64, and are of 8x16/16x16 size
let gx = uint64(32 + 16 * (u mod 0xFF))
let gy = uint64(64 + 16 * (u div 0xFF))
var fullwidth = false
const white = rgba(255, 255, 255, 255)
block loop:
# hack to recognize full width characters
for y in 0 ..< 16u64:
for x in 8 ..< 16u64:
if unifontBitmap.getpx(gx + x, gy + y) != white:
fullwidth = true
break loop
let bmp = newBitmap(if fullwidth: 16 else: 8, 16)
for y in 0 ..< bmp.height:
for x in 0 ..< bmp.width:
let c = unifontBitmap.getpx(gx + x, gy + y)
if c != white:
bmp.setpx(x, y, c)
if glyphCache.len < 256:
glyphCache.add((u, bmp))
else:
glyphCache[glyphCacheI] = (u, bmp)
inc glyphCacheI
if glyphCacheI >= glyphCache.len:
glyphCacheI = 0
return bmp
proc drawBitmap(a, b: Bitmap, p: Vector2D) =
for y in 0 ..< b.height:
for x in 0 ..< b.width:
let ax = uint64(p.x) + x
let ay = uint64(p.y) + y
if ax >= 0 and ay >= y and ax < a.width and ay < a.height:
a.setpxb(ax, ay, b.getpx(x, y))
proc fillText*(bmp: Bitmap, text: string, x, y: float64, color: RGBAColor,
textAlign: CSSTextAlign) =
var w = 0f64
var glyphs: seq[Bitmap]
for r in text.runes:
let glyph = getCharBmp(uint32(r))
glyphs.add(glyph)
w += float64(glyph.width)
var x = x
#TODO rtl
case textAlign
of TEXT_ALIGN_LEFT, TEXT_ALIGN_START: discard
of TEXT_ALIGN_RIGHT, TEXT_ALIGN_END: x -= w
of TEXT_ALIGN_CENTER: x -= w / 2
else: doAssert false
for glyph in glyphs:
bmp.drawBitmap(glyph, Vector2D(x: x, y: y - 8))
x += float64(glyph.width)
proc strokeText*(bmp: Bitmap, text: string, x, y: float64, color: RGBAColor,
textAlign: CSSTextAlign) =
#TODO
bmp.fillText(text, x, y, color, textAlign)
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