gg/triangle.go

package gg

import (
	"math"
	"github.com/hajimehoshi/ebiten/v2"
)

// Ebitens vector in better abstractions like Vectors.
type Vertex struct {
	Dst Vector
	Src Vector
	Colority
}

type Triangle [3]Vector
type Triangles []Triangle
type DrawableTriangles struct {
	Triangles
	Visibility
	Colority
	ShaderOptions
	ebiten.DrawTrianglesOptions
}

func (v Vertex) Ebiten() ebiten.Vertex {
	return ebiten.Vertex {
		DstX: float32(v.Dst.X),
		DstY: float32(v.Dst.Y),
		SrcX: float32(v.Src.X),
		SrcY: float32(v.Src.Y),
		ColorR: float32(v.Color.R)/(float32(MaxColorV)),
		ColorG: float32(v.Color.G)/(float32(MaxColorV)),
		ColorB: float32(v.Color.B)/(float32(MaxColorV)),
		ColorA: float32(v.Color.A)/(float32(MaxColorV)),
	}
}

// Returns the area of the triangle.
func (t Triangle) Area() Float {
	x1 := t[0].X
	y1 := t[0].Y
	
	x2 := t[1].X
	y2 := t[1].Y
	
	x3 := t[2].X
	y3 := t[2].Y
	
	return math.Abs( (x1*(y2-y3) + x2*(y3-y1) + x3*(y1-y2))/2)
}
func sqr(v Float) Float {
	return v * v
}
// Return squares of lengths of sides of the triangle.
func (t Triangle) SideLengthSquares() ([3]Float) {
	
	l1 := LineSegment{t[0], t[1]}.LenSqr()
	l2 := LineSegment{t[1], t[2]}.LenSqr()
	l3 := LineSegment{t[2], t[0]}.LenSqr()
	
	return [3]Float{l1, l2, l3}
}

// Check whether the point is in the triangle.
func (t Triangle) ContainsPoint(p Point) bool {
	d1 := Triangle{p, t[0], t[1]}.Sgn()
	d2 := Triangle{p, t[1], t[2]}.Sgn()
	d3 := Triangle{p, t[2], t[0]}.Sgn()
	
	neg := (d1 < 0) || (d2 < 0) || (d3 < 0)
	pos := (d1 > 0) || (d2 > 0) || (d3 > 0)
	
	return !(neg && pos)
}

func (t Triangle) Sgn() Float {
	return (t[0].X - t[2].X) * (t[1].Y - t[2].Y)  -
		(t[1].X - t[2].X) * (t[0].Y - t[2].Y)
}

func (ts Triangles) ContainsPoint(p Point) bool {
	for _, t := range ts {
		if t.ContainsPoint(p) {
			return true
		}
	}
	
	return false
}

func (r *DrawableTriangles) Draw(c *Context) {
	m := c.Camera.RealMatrix()
	cm := &m
	
	// Draw solid color if no shader.
	if r.Shader == nil {
		vs := make([]ebiten.Vertex, len(r.Triangles) * 3)
		var buf Vertex
		buf.Color = r.Color
		for i := range r.Triangles {
			for j := range r.Triangles[i] {
				buf.Dst = r.Triangles[i][j].Apply(cm)
				vs[i*3 + j] = buf.Ebiten()
			}
		}
		
		is := make([]uint16, len(r.Triangles) * 3)
		for i := 0 ; i < len(is) ; i++ {
			is[i] = uint16(i)
		}
		
		img := NewImage(1, 1)
		img.Set(0, 0, r.Color)
		
		c.DrawTriangles(vs, is, img, &r.DrawTrianglesOptions)
		return
	}
	
	// Use the Color as base image if no is provided.
	/*if r.Images[0] == nil {
		r.Images[0] = NewImage(1, 1)
		r.Images[0].Set(0, 0, r.Color)
	} 
	
	w, h := r.Images[0].Size()
	
	// Drawing with shader.
	opts := &ebiten.DrawRectShaderOptions{
		GeoM: m,
		Images: r.Images,
		Uniforms: r.Uniforms,
	}
	i.DrawRectShader(w, h, r.Shader, opts)*/
}
Rebranding. 2023-10-23 15:45:18 +03:00			`package gg`
Started implementing colliders. Simplified structure for basic types like Camera. 2023-05-04 19:31:33 +03:00
How to fuckin draw a rectangle? 2023-05-22 23:39:01 +03:00			`import (`
			`"math"`
Implemented drawing triangles. 2023-06-15 20:18:58 +03:00			`"github.com/hajimehoshi/ebiten/v2"`
How to fuckin draw a rectangle? 2023-05-22 23:39:01 +03:00			`)`

Implemented drawing triangles. 2023-06-15 20:18:58 +03:00			`// Ebitens vector in better abstractions like Vectors.`
			`type Vertex struct {`
			`Dst Vector`
			`Src Vector`
			`Colority`
			`}`

			`type Triangle [3]Vector`
How to fuckin draw a rectangle? 2023-05-22 23:39:01 +03:00			`type Triangles []Triangle`
Implemented drawing triangles. 2023-06-15 20:18:58 +03:00			`type DrawableTriangles struct {`
			`Triangles`
			`Visibility`
			`Colority`
... 2023-05-27 18:00:27 +03:00			`ShaderOptions`
Implemented drawing triangles. 2023-06-15 20:18:58 +03:00			`ebiten.DrawTrianglesOptions`
			`}`

			`func (v Vertex) Ebiten() ebiten.Vertex {`
			`return ebiten.Vertex {`
			`DstX: float32(v.Dst.X),`
			`DstY: float32(v.Dst.Y),`
			`SrcX: float32(v.Src.X),`
			`SrcY: float32(v.Src.Y),`
			`ColorR: float32(v.Color.R)/(float32(MaxColorV)),`
			`ColorG: float32(v.Color.G)/(float32(MaxColorV)),`
			`ColorB: float32(v.Color.B)/(float32(MaxColorV)),`
			`ColorA: float32(v.Color.A)/(float32(MaxColorV)),`
			`}`
... 2023-05-27 18:00:27 +03:00			`}`
How to fuckin draw a rectangle? 2023-05-22 23:39:01 +03:00
			`// Returns the area of the triangle.`
			`func (t Triangle) Area() Float {`
			`x1 := t[0].X`
			`y1 := t[0].Y`

			`x2 := t[1].X`
			`y2 := t[1].Y`

			`x3 := t[2].X`
			`y3 := t[2].Y`

			`return math.Abs( (x1(y2-y3) + x2(y3-y1) + x3*(y1-y2))/2)`
Started implementing colliders. Simplified structure for basic types like Camera. 2023-05-04 19:31:33 +03:00			`}`
... 2023-05-27 18:00:27 +03:00			`func sqr(v Float) Float {`
			`return v * v`
			`}`
			`// Return squares of lengths of sides of the triangle.`
			`func (t Triangle) SideLengthSquares() ([3]Float) {`

			`l1 := LineSegment{t[0], t[1]}.LenSqr()`
			`l2 := LineSegment{t[1], t[2]}.LenSqr()`
... 2023-05-28 19:14:02 +03:00			`l3 := LineSegment{t[2], t[0]}.LenSqr()`
... 2023-05-27 18:00:27 +03:00
			`return [3]Float{l1, l2, l3}`
			`}`

			`// Check whether the point is in the triangle.`
Implemented checking whether point is in triangle. 2023-05-30 13:12:11 +03:00			`func (t Triangle) ContainsPoint(p Point) bool {`
			`d1 := Triangle{p, t[0], t[1]}.Sgn()`
			`d2 := Triangle{p, t[1], t[2]}.Sgn()`
			`d3 := Triangle{p, t[2], t[0]}.Sgn()`
... 2023-05-28 19:14:02 +03:00
Implemented checking whether point is in triangle. 2023-05-30 13:12:11 +03:00			`neg := (d1 < 0) \|\| (d2 < 0) \|\| (d3 < 0)`
			`pos := (d1 > 0) \|\| (d2 > 0) \|\| (d3 > 0)`
... 2023-05-28 19:14:02 +03:00
Implemented checking whether point is in triangle. 2023-05-30 13:12:11 +03:00			`return !(neg && pos)`
			`}`

			`func (t Triangle) Sgn() Float {`
			`return (t[0].X - t[2].X) * (t[1].Y - t[2].Y) -`
			`(t[1].X - t[2].X) * (t[0].Y - t[2].Y)`
... 2023-05-27 18:00:27 +03:00			`}`
Implemented checking whether point is in triangle. 2023-05-30 13:12:11 +03:00
... 2023-05-30 14:34:10 +03:00			`func (ts Triangles) ContainsPoint(p Point) bool {`
			`for _, t := range ts {`
			`if t.ContainsPoint(p) {`
			`return true`
			`}`
			`}`

			`return false`
			`}`

feat: using the new Context model I perform everywhere. 2023-12-20 22:39:33 +03:00			`func (r DrawableTriangles) Draw(c Context) {`
feat: ... 2023-12-23 00:09:07 +03:00			`m := c.Camera.RealMatrix()`
Implemented drawing triangles. 2023-06-15 20:18:58 +03:00			`cm := &m`
... 2023-05-27 18:00:27 +03:00
			`// Draw solid color if no shader.`
			`if r.Shader == nil {`
Implemented drawing triangles. 2023-06-15 20:18:58 +03:00			`vs := make([]ebiten.Vertex, len(r.Triangles) * 3)`
			`var buf Vertex`
			`buf.Color = r.Color`
			`for i := range r.Triangles {`
			`for j := range r.Triangles[i] {`
			`buf.Dst = r.Triangles[i][j].Apply(cm)`
			`vs[i*3 + j] = buf.Ebiten()`
			`}`
			`}`
... 2023-05-27 18:00:27 +03:00
Implemented drawing triangles. 2023-06-15 20:18:58 +03:00			`is := make([]uint16, len(r.Triangles) * 3)`
			`for i := 0 ; i < len(is) ; i++ {`
			`is[i] = uint16(i)`
			`}`
... 2023-05-27 18:00:27 +03:00
Implemented drawing triangles. 2023-06-15 20:18:58 +03:00			`img := NewImage(1, 1)`
			`img.Set(0, 0, r.Color)`
... 2023-05-27 18:00:27 +03:00
feat: using the new Context model I perform everywhere. 2023-12-20 22:39:33 +03:00			`c.DrawTriangles(vs, is, img, &r.DrawTrianglesOptions)`
... 2023-05-27 18:00:27 +03:00			`return`
			`}`

			`// Use the Color as base image if no is provided.`
Implemented drawing triangles. 2023-06-15 20:18:58 +03:00			`/*if r.Images[0] == nil {`
... 2023-05-27 18:00:27 +03:00			`r.Images[0] = NewImage(1, 1)`
			`r.Images[0].Set(0, 0, r.Color)`
			`}`

			`w, h := r.Images[0].Size()`

			`// Drawing with shader.`
			`opts := &ebiten.DrawRectShaderOptions{`
			`GeoM: m,`
			`Images: r.Images,`
			`Uniforms: r.Uniforms,`
			`}`
Implemented drawing triangles. 2023-06-15 20:18:58 +03:00			`i.DrawRectShader(w, h, r.Shader, opts)*/`
... 2023-05-27 18:00:27 +03:00			`}`
Started implementing colliders. Simplified structure for basic types like Camera. 2023-05-04 19:31:33 +03:00