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"github.com/faiface/mainthread"
"github.com/faiface/pixel"
"github.com/go-gl/mathgl/mgl32"
"github.com/pkg/errors"
)
//TODO: make Canvas a Picture
// Canvas is an off-screen rectangular BasicTarget that you can draw onto.
// It supports TrianglesPosition, TrianglesColor, TrianglesPicture and PictureColor.
mat mgl32.Mat3
col mgl32.Vec4
}
// NewCanvas creates a new empty, fully transparent Canvas with given bounds. If the smooth flag
// set, then stretched Pictures will be smoothed and will not be drawn pixely onto this Canvas.
func NewCanvas(bounds pixel.Rect, smooth bool) *Canvas {
c := &Canvas{
smooth: smooth,
mat: mgl32.Ident3(),
col: mgl32.Vec4{1, 1, 1, 1},
}
mainthread.Call(func() {
var err error
canvasVertexFormat,
canvasUniformFormat,
canvasVertexShader,
canvasFragmentShader,
)
if err != nil {
panic(errors.Wrap(err, "failed to create Canvas, there's a bug in the shader"))
// MakeTriangles creates a specialized copy of the supplied Triangles that draws onto this Canvas.
//
// TrianglesPosition, TrianglesColor and TrianglesPicture are supported.
func (c *Canvas) MakeTriangles(t pixel.Triangles) pixel.TargetTriangles {
return &canvasTriangles{
GLTriangles: NewGLTriangles(c.s, t),
c: c,
// MakePicture create a specialized copy of the supplied Picture that draws onto this Canvas.
//
// PictureColor is supported.
func (c *Canvas) MakePicture(p pixel.Picture) pixel.TargetPicture {
bounds := p.Bounds()
bx, by, bw, bh := discreteBounds(bounds)
pixels := make([]uint8, 4*bw*bh)
if p, ok := p.(pixel.PictureColor); ok {
for y := 0; y < bh; y++ {
for x := 0; x < bw; x++ {
at := pixel.V(
math.Max(float64(bx+x), bounds.Pos.X()),
math.Max(float64(by+y), bounds.Pos.Y()),
)
color := p.Color(at)
pixels[(y*bw+x)*4+0] = uint8(color.R * 255)
pixels[(y*bw+x)*4+1] = uint8(color.G * 255)
pixels[(y*bw+x)*4+2] = uint8(color.B * 255)
pixels[(y*bw+x)*4+3] = uint8(color.A * 255)
}
}
var tex *glhf.Texture
mainthread.Call(func() {
tex = glhf.NewTexture(bw, bh, c.smooth, pixels)
orig: pixel.V(float64(bx), float64(by)),
size: pixel.V(float64(bw), float64(bh)),
// SetTransform sets a set of Transforms that every position in triangles will be put through.
func (c *Canvas) SetTransform(t ...pixel.Transform) {
c.mat = transformToMat(t...)
// SetColorMask sets a color that every color in triangles or a picture will be multiplied by.
func (c *Canvas) SetColorMask(col color.Color) {
nrgba := pixel.NRGBA{R: 1, G: 1, B: 1, A: 1}
if col != nil {
nrgba = pixel.NRGBAModel.Convert(col).(pixel.NRGBA)
}
c.col = mgl32.Vec4{
float32(nrgba.R),
float32(nrgba.G),
float32(nrgba.B),
float32(nrgba.A),
}
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// SetBounds resizes the Canvas to the new bounds. Old content will be preserved.
func (c *Canvas) SetBounds(bounds pixel.Rect) {
if c.Bounds() == bounds {
return
}
mainthread.Call(func() {
oldF := c.f
_, _, w, h := discreteBounds(bounds)
c.f = glhf.NewFrame(w, h, c.smooth)
// preserve old content
if oldF != nil {
relBounds := c.bounds
relBounds.Pos -= bounds.Pos
ox, oy, ow, oh := discreteBounds(relBounds)
oldF.Blit(
c.f,
ox, oy, ox+ow, oy+oh,
ox, oy, ox+ow, oy+oh,
)
}
c.s.Begin()
orig := bounds.Center()
c.s.SetUniformAttr(canvasOrig, mgl32.Vec2{
float32(orig.X()),
float32(orig.Y()),
})
c.s.SetUniformAttr(canvasSize, mgl32.Vec2{
float32(w),
float32(h),
})
c.s.End()
})
c.bounds = bounds
// Bounds returns the rectangular bounds of the Canvas.
func (c *Canvas) Bounds() pixel.Rect {
return c.bounds
// SetSmooth sets whether the stretched Pictures drawn onto this Canvas should be drawn smooth or
// pixely.
func (c *Canvas) SetSmooth(smooth bool) {
c.smooth = smooth
// Smooth returns whether the stretched Pictures drawn onto this Canvas are set to be drawn smooth
// or pixely.
func (c *Canvas) Smooth() bool {
return c.smooth
// Clear fill the whole Canvas with a single color.
func (c *Canvas) Clear(color color.Color) {
nrgba := pixel.NRGBAModel.Convert(color).(pixel.NRGBA)
mainthread.CallNonBlock(func() {
c.f.Begin()
glhf.Clear(
float32(nrgba.R),
float32(nrgba.G),
float32(nrgba.B),
float32(nrgba.A),
)
c.f.End()
})
}
type canvasTriangles struct {
func (ct *canvasTriangles) draw(cp *canvasPicture) {
// save the current state vars to avoid race condition
mat := ct.c.mat
col := ct.c.col
mainthread.CallNonBlock(func() {
ct.c.f.Begin()
ct.c.s.Begin()
ct.c.s.SetUniformAttr(canvasTransform, mat)
ct.c.s.SetUniformAttr(canvasColorMask, col)
if cp == nil {
ct.vs.Begin()
ct.vs.Draw()
ct.vs.End()
ct.c.s.SetUniformAttr(canvasTexOrig, mgl32.Vec2{
float32(cp.orig.X()),
float32(cp.orig.Y()),
})
ct.c.s.SetUniformAttr(canvasTexSize, mgl32.Vec2{
float32(cp.size.X()),
float32(cp.size.Y()),
})
ct.c.s.SetUniformAttr(canvasTexBounds, mgl32.Vec4{
float32(cp.bounds.X()),
float32(cp.bounds.Y()),
float32(cp.bounds.W()),
float32(cp.bounds.H()),
})
if cp.tex.Smooth() != ct.c.smooth {
cp.tex.SetSmooth(ct.c.smooth)
}
ct.vs.Begin()
ct.vs.Draw()
ct.vs.End()
cp.tex.End()
}
ct.c.s.End()
ct.c.f.End()
})
}
func (ct *canvasTriangles) Draw() {
ct.draw(nil)
}
type canvasPicture struct {
tex *glhf.Texture
orig, size pixel.Vec
bounds pixel.Rect
c *Canvas
}
func (cp *canvasPicture) Bounds() pixel.Rect {
return cp.bounds
}
func (cp *canvasPicture) Slice(r pixel.Rect) pixel.Picture {
return &canvasPicture{
bounds: r,
c: cp.c,
}
}
func (cp *canvasPicture) Draw(t pixel.TargetTriangles) {
ct := t.(*canvasTriangles)
if cp.c != ct.c {
panic(fmt.Errorf("%T.Draw: TargetTriangles generated by different Canvas", cp))
}
ct.draw(cp)
}
canvasPosition int = iota
canvasColor
canvasTexture
canvasIntensity
canvasPosition: {Name: "position", Type: glhf.Vec2},
canvasColor: {Name: "color", Type: glhf.Vec4},
canvasTexture: {Name: "texture", Type: glhf.Vec2},
canvasIntensity: {Name: "intensity", Type: glhf.Float},
canvasTransform int = iota
canvasColorMask
canvasTransform: {Name: "transform", Type: glhf.Mat3},
canvasColorMask: {Name: "colorMask", Type: glhf.Vec4},
canvasTexOrig: {Name: "texOrig", Type: glhf.Vec2},
canvasTexSize: {Name: "texSize", Type: glhf.Vec2},
canvasTexBounds: {Name: "texBounds", Type: glhf.Vec4},
canvasOrig: {Name: "orig", Type: glhf.Vec2},
canvasSize: {Name: "size", Type: glhf.Vec2},
}
var canvasVertexShader = `
#version 330 core
in vec2 position;
in vec4 color;
in vec2 texture;
out vec4 Color;
out vec2 Texture;
uniform mat3 transform;
uniform vec2 orig;
uniform vec2 size;
vec2 transPos = (transform * vec3(position, 1.0)).xy;
vec2 normPos = (transPos - orig) / (size/2);
gl_Position = vec4(normPos, 0.0, 1.0);
Color = color;
Texture = texture;
}
`
var canvasFragmentShader = `
#version 330 core
in vec4 Color;
in vec2 Texture;
uniform sampler2D tex;
void main() {
if (Intensity == 0) {
color = colorMask * Color;
color = vec4(0, 0, 0, 0);
color += (1 - Intensity) * colorMask * Color;
float bx = texBounds.x;
float by = texBounds.y;
float bw = texBounds.z;
float bh = texBounds.w;
if (bx <= Texture.x && Texture.x <= bx + bw && by <= Texture.y && Texture.y <= by + bh) {
vec2 t = (Texture - texOrig) / texSize;
color += Intensity * colorMask * Color * texture(tex, t);
}