go-opengl-pixel/graphics.go

package pixel

import (
	"image/color"
	"math"

	"github.com/faiface/pixel/pixelgl"
	"github.com/go-gl/mathgl/mgl32"
	"github.com/pkg/errors"
)

// Drawer is anything that can be drawn. It's by no means a drawer inside your table.
//
// Drawer consists of a single methods: Draw. Draw methods takes any number of Transform arguments. It applies these
// transforms in the reverse order and finally draws something transformed by these transforms.
//
// Example:
//
//   // object is a drawer
//   object.Draw(pixel.Position(pixel.V(100, 100).Rotate(math.Pi / 2)))
//   camera := pixel.Camera(pixel.V(0, 0), pixel.V(500, 500), pixel.V(window.Size()))
//   object.Draw(camera, pixel.Position(0).Scale(0.5))
type Drawer interface {
	Draw(t ...Transform)
}

// Deleter is anything that can be deleted. All graphics objects that have some associated video memory
// are deleters. It is necessary to call Delete when you're done with an object, otherwise you're going
// to have video memory leaks.
type Deleter interface {
	Delete()
}

// DrawDeleter combines Drawer and Deleter interfaces.
type DrawDeleter interface {
	Drawer
	Deleter
}

// PolygonColor is a polygon shape filled with a single color.
type PolygonColor struct {
	parent pixelgl.Doer
	color  color.Color
	points []Vec
	va     *pixelgl.VertexArray
}

// NewPolygonColor creates a new polygon shape filled with a single color. Parent is an object that this shape belongs to,
// such as a window, or a graphics effect.
func NewPolygonColor(parent pixelgl.Doer, c color.Color, points ...Vec) *PolygonColor {
	pc := &PolygonColor{
		parent: parent,
		color:  c,
		points: points,
	}

	var format pixelgl.VertexFormat
	parent.Do(func(ctx pixelgl.Context) {
		format = ctx.Shader().VertexFormat()
	})

	var err error
	pc.va, err = pixelgl.NewVertexArray(
		parent,
		format,
		pixelgl.TriangleFanDrawMode,
		pixelgl.DynamicUsage,
		len(points),
	)
	if err != nil {
		panic(errors.Wrap(err, "failed to create polygon"))
	}

	for i, p := range points {
		pc.va.SetVertexAttributeVec2(
			i,
			pixelgl.Position,
			mgl32.Vec2{
				float32(p.X()),
				float32(p.Y()),
			},
		)
		pc.va.SetVertexAttributeVec4(
			i,
			pixelgl.Color,
			mgl32.Vec4{1, 1, 1, 1},
		)
	}

	return pc
}

// Count returns the number of points in a polygon.
func (pc *PolygonColor) Count() int {
	return len(pc.points)
}

// SetColor changes the color of a polygon to c.
func (pc *PolygonColor) SetColor(c color.Color) {
	pc.color = c
}

// Color returns the current color of a polygon.
func (pc *PolygonColor) Color() color.Color {
	return pc.color
}

// SetPoint changes the position of a point in a polygon.
//
// If the index is out of range, this function panics.
func (pc *PolygonColor) SetPoint(i int, point Vec) {
	pc.points[i] = point
	pc.va.SetVertexAttributeVec2(i, pixelgl.Position, mgl32.Vec2{float32(point.X()), float32(point.Y())})
}

// Point returns the position of a point in a polygon.
//
// If the index is out of range, this function panics.
func (pc *PolygonColor) Point(i int) Vec {
	return pc.points[i]
}

// Draw draws a polygon transformed by the supplied transforms applied in the reverse order.
func (pc *PolygonColor) Draw(t ...Transform) {
	mat := mgl32.Ident3()
	for i := range t {
		mat = mat.Mul3(t[i].Mat3())
	}

	var shader *pixelgl.Shader
	pc.parent.Do(func(ctx pixelgl.Context) {
		shader = ctx.Shader()
	})

	r, g, b, a := colorToRGBA(pc.color)
	shader.SetUniformVec4(pixelgl.MaskColor, mgl32.Vec4{r, g, b, a})
	shader.SetUniformMat3(pixelgl.Transform, mat)
	shader.SetUniformInt(pixelgl.IsTexture, 0)

	pc.va.Draw()
}

// Delete destroys a polygon shape and releases it's video memory. Do not use this shape after calling Delete.
func (pc *PolygonColor) Delete() {
	pc.va.Delete()
}

// EllipseColor is an ellipse shape filled with a single color.
type EllipseColor struct {
	parent pixelgl.Doer
	color  color.Color
	radius Vec
	fill   float64
	va     *pixelgl.VertexArray
}

// NewEllipseColor creates a new ellipse shape filled with a single color. Parent is an object that this shape belongs to,
// such as a window, or a graphics effect. Fill should be a number between 0 and 1 which specifies how much of the ellipse will
// be filled (from the outside). The value of 1 means that the whole ellipse is filled. The value of 0 means that none of the
// ellipse is filled (which makes the ellipse invisible).
func NewEllipseColor(parent pixelgl.Doer, c color.Color, radius Vec, fill float64) *EllipseColor {
	const n = 256

	ec := &EllipseColor{
		parent: parent,
		color:  c,
		radius: radius,
		fill:   fill,
	}

	var format pixelgl.VertexFormat
	parent.Do(func(ctx pixelgl.Context) {
		format = ctx.Shader().VertexFormat()
	})

	var err error
	ec.va, err = pixelgl.NewVertexArray(
		parent,
		format,
		pixelgl.TriangleStripDrawMode,
		pixelgl.DynamicUsage,
		(n+1)*2,
	)
	if err != nil {
		panic(errors.Wrap(err, "failed to create circle"))
	}

	for k := 0; k < n+1; k++ {
		i, j := k*2, k*2+1
		angle := math.Pi * 2 * float64(k%n) / n
		ec.va.SetVertexAttributeVec2(
			i,
			pixelgl.Position,
			mgl32.Vec2{
				float32(math.Cos(angle)),
				float32(math.Sin(angle)),
			},
		)
		ec.va.SetVertexAttributeVec4(
			i,
			pixelgl.Color,
			mgl32.Vec4{1, 1, 1, 1},
		)
		ec.va.SetVertexAttributeVec2(
			j,
			pixelgl.Position,
			mgl32.Vec2{
				float32(math.Cos(angle) * (1 - fill)),
				float32(math.Sin(angle) * (1 - fill)),
			},
		)
		ec.va.SetVertexAttributeVec4(
			j,
			pixelgl.Color,
			mgl32.Vec4{1, 1, 1, 1},
		)
	}

	return ec
}

// SetColor changes the color of an ellipse.
func (ec *EllipseColor) SetColor(c color.Color) {
	ec.color = c
}

// Color returns the current color of an ellipse.
func (ec *EllipseColor) Color() color.Color {
	return ec.color
}

// SetRadius sets the radius (which can be different in X and Y axis) of an ellipse.
func (ec *EllipseColor) SetRadius(radius Vec) {
	ec.radius = radius
}

// Radius returns the current radius of an ellipse.
func (ec *EllipseColor) Radius() Vec {
	return ec.radius
}

// Draw dras an ellipse transformed by the supplied transforms applied in the reverse order.
func (ec *EllipseColor) Draw(t ...Transform) {
	mat := mgl32.Ident3()
	for i := range t {
		mat = mat.Mul3(t[i].Mat3())
	}
	mat = mat.Mul3(mgl32.Scale2D(float32(ec.radius.X()), float32(ec.radius.Y())))

	var shader *pixelgl.Shader
	ec.parent.Do(func(ctx pixelgl.Context) {
		shader = ctx.Shader()
	})

	r, g, b, a := colorToRGBA(ec.color)
	shader.SetUniformVec4(pixelgl.MaskColor, mgl32.Vec4{r, g, b, a})
	shader.SetUniformMat3(pixelgl.Transform, mat)
	shader.SetUniformInt(pixelgl.IsTexture, 0)

	ec.va.Draw()
}
add Drawer interface and PolygonColor shape 2016-12-03 09:25:41 -06:00			`package pixel`

			`import (`
			`"image/color"`
add ellipse shape 2016-12-03 12:51:43 -06:00			`"math"`
add Drawer interface and PolygonColor shape 2016-12-03 09:25:41 -06:00
			`"github.com/faiface/pixel/pixelgl"`
			`"github.com/go-gl/mathgl/mgl32"`
			`"github.com/pkg/errors"`
			`)`

			`// Drawer is anything that can be drawn. It's by no means a drawer inside your table.`
			`//`
add Deleter and DrawDeleter interfaces 2016-12-03 09:33:56 -06:00			`// Drawer consists of a single methods: Draw. Draw methods takes any number of Transform arguments. It applies these`
add Drawer interface and PolygonColor shape 2016-12-03 09:25:41 -06:00			`// transforms in the reverse order and finally draws something transformed by these transforms.`
			`//`
			`// Example:`
			`//`
			`// // object is a drawer`
			`// object.Draw(pixel.Position(pixel.V(100, 100).Rotate(math.Pi / 2)))`
			`// camera := pixel.Camera(pixel.V(0, 0), pixel.V(500, 500), pixel.V(window.Size()))`
			`// object.Draw(camera, pixel.Position(0).Scale(0.5))`
			`type Drawer interface {`
			`Draw(t ...Transform)`
			`}`

add Deleter and DrawDeleter interfaces 2016-12-03 09:33:56 -06:00			`// Deleter is anything that can be deleted. All graphics objects that have some associated video memory`
			`// are deleters. It is necessary to call Delete when you're done with an object, otherwise you're going`
			`// to have video memory leaks.`
			`type Deleter interface {`
			`Delete()`
			`}`

			`// DrawDeleter combines Drawer and Deleter interfaces.`
			`type DrawDeleter interface {`
			`Drawer`
			`Deleter`
			`}`

add Drawer interface and PolygonColor shape 2016-12-03 09:25:41 -06:00			`// PolygonColor is a polygon shape filled with a single color.`
			`type PolygonColor struct {`
			`parent pixelgl.Doer`
			`color color.Color`
			`points []Vec`
			`va *pixelgl.VertexArray`
			`}`

			`// NewPolygonColor creates a new polygon shape filled with a single color. Parent is an object that this shape belongs to,`
add ellipse shape 2016-12-03 12:51:43 -06:00			`// such as a window, or a graphics effect.`
add Drawer interface and PolygonColor shape 2016-12-03 09:25:41 -06:00			`func NewPolygonColor(parent pixelgl.Doer, c color.Color, points ...Vec) *PolygonColor {`
			`pc := &PolygonColor{`
			`parent: parent,`
			`color: c,`
			`points: points,`
			`}`

			`var format pixelgl.VertexFormat`
			`parent.Do(func(ctx pixelgl.Context) {`
			`format = ctx.Shader().VertexFormat()`
			`})`

			`var err error`
add ellipse shape 2016-12-03 12:51:43 -06:00			`pc.va, err = pixelgl.NewVertexArray(`
			`parent,`
			`format,`
			`pixelgl.TriangleFanDrawMode,`
			`pixelgl.DynamicUsage,`
			`len(points),`
			`)`
add Drawer interface and PolygonColor shape 2016-12-03 09:25:41 -06:00			`if err != nil {`
			`panic(errors.Wrap(err, "failed to create polygon"))`
			`}`

			`for i, p := range points {`
add ellipse shape 2016-12-03 12:51:43 -06:00			`pc.va.SetVertexAttributeVec2(`
			`i,`
			`pixelgl.Position,`
			`mgl32.Vec2{`
			`float32(p.X()),`
			`float32(p.Y()),`
			`},`
			`)`
			`pc.va.SetVertexAttributeVec4(`
			`i,`
			`pixelgl.Color,`
			`mgl32.Vec4{1, 1, 1, 1},`
			`)`
add Drawer interface and PolygonColor shape 2016-12-03 09:25:41 -06:00			`}`

			`return pc`
			`}`

			`// Count returns the number of points in a polygon.`
			`func (pc *PolygonColor) Count() int {`
			`return len(pc.points)`
			`}`

			`// SetColor changes the color of a polygon to c.`
			`func (pc *PolygonColor) SetColor(c color.Color) {`
			`pc.color = c`
			`}`

			`// Color returns the current color of a polygon.`
			`func (pc *PolygonColor) Color() color.Color {`
			`return pc.color`
			`}`

			`// SetPoint changes the position of a point in a polygon.`
			`//`
			`// If the index is out of range, this function panics.`
			`func (pc *PolygonColor) SetPoint(i int, point Vec) {`
			`pc.points[i] = point`
			`pc.va.SetVertexAttributeVec2(i, pixelgl.Position, mgl32.Vec2{float32(point.X()), float32(point.Y())})`
			`}`

			`// Point returns the position of a point in a polygon.`
			`//`
			`// If the index is out of range, this function panics.`
			`func (pc *PolygonColor) Point(i int) Vec {`
			`return pc.points[i]`
			`}`

			`// Draw draws a polygon transformed by the supplied transforms applied in the reverse order.`
			`func (pc *PolygonColor) Draw(t ...Transform) {`
			`mat := mgl32.Ident3()`
			`for i := range t {`
			`mat = mat.Mul3(t[i].Mat3())`
			`}`

			`var shader *pixelgl.Shader`
			`pc.parent.Do(func(ctx pixelgl.Context) {`
			`shader = ctx.Shader()`
			`})`

			`r, g, b, a := colorToRGBA(pc.color)`
			`shader.SetUniformVec4(pixelgl.MaskColor, mgl32.Vec4{r, g, b, a})`
			`shader.SetUniformMat3(pixelgl.Transform, mat)`
			`shader.SetUniformInt(pixelgl.IsTexture, 0)`

			`pc.va.Draw()`
			`}`
add Deleter and DrawDeleter interfaces 2016-12-03 09:33:56 -06:00
			`// Delete destroys a polygon shape and releases it's video memory. Do not use this shape after calling Delete.`
			`func (pc *PolygonColor) Delete() {`
			`pc.va.Delete()`
			`}`
add ellipse shape 2016-12-03 12:51:43 -06:00
			`// EllipseColor is an ellipse shape filled with a single color.`
			`type EllipseColor struct {`
			`parent pixelgl.Doer`
			`color color.Color`
			`radius Vec`
			`fill float64`
			`va *pixelgl.VertexArray`
			`}`

			`// NewEllipseColor creates a new ellipse shape filled with a single color. Parent is an object that this shape belongs to,`
			`// such as a window, or a graphics effect. Fill should be a number between 0 and 1 which specifies how much of the ellipse will`
			`// be filled (from the outside). The value of 1 means that the whole ellipse is filled. The value of 0 means that none of the`
			`// ellipse is filled (which makes the ellipse invisible).`
			`func NewEllipseColor(parent pixelgl.Doer, c color.Color, radius Vec, fill float64) *EllipseColor {`
			`const n = 256`

			`ec := &EllipseColor{`
			`parent: parent,`
			`color: c,`
			`radius: radius,`
			`fill: fill,`
			`}`

			`var format pixelgl.VertexFormat`
			`parent.Do(func(ctx pixelgl.Context) {`
			`format = ctx.Shader().VertexFormat()`
			`})`

			`var err error`
			`ec.va, err = pixelgl.NewVertexArray(`
			`parent,`
			`format,`
			`pixelgl.TriangleStripDrawMode,`
			`pixelgl.DynamicUsage,`
			`(n+1)*2,`
			`)`
			`if err != nil {`
			`panic(errors.Wrap(err, "failed to create circle"))`
			`}`

			`for k := 0; k < n+1; k++ {`
			`i, j := k2, k2+1`
			`angle := math.Pi * 2 * float64(k%n) / n`
			`ec.va.SetVertexAttributeVec2(`
			`i,`
			`pixelgl.Position,`
			`mgl32.Vec2{`
			`float32(math.Cos(angle)),`
			`float32(math.Sin(angle)),`
			`},`
			`)`
			`ec.va.SetVertexAttributeVec4(`
			`i,`
			`pixelgl.Color,`
			`mgl32.Vec4{1, 1, 1, 1},`
			`)`
			`ec.va.SetVertexAttributeVec2(`
			`j,`
			`pixelgl.Position,`
			`mgl32.Vec2{`
			`float32(math.Cos(angle) * (1 - fill)),`
			`float32(math.Sin(angle) * (1 - fill)),`
			`},`
			`)`
			`ec.va.SetVertexAttributeVec4(`
			`j,`
			`pixelgl.Color,`
			`mgl32.Vec4{1, 1, 1, 1},`
			`)`
			`}`

			`return ec`
			`}`

			`// SetColor changes the color of an ellipse.`
			`func (ec *EllipseColor) SetColor(c color.Color) {`
			`ec.color = c`
			`}`

			`// Color returns the current color of an ellipse.`
			`func (ec *EllipseColor) Color() color.Color {`
			`return ec.color`
			`}`

			`// SetRadius sets the radius (which can be different in X and Y axis) of an ellipse.`
			`func (ec *EllipseColor) SetRadius(radius Vec) {`
			`ec.radius = radius`
			`}`

			`// Radius returns the current radius of an ellipse.`
			`func (ec *EllipseColor) Radius() Vec {`
			`return ec.radius`
			`}`

			`// Draw dras an ellipse transformed by the supplied transforms applied in the reverse order.`
			`func (ec *EllipseColor) Draw(t ...Transform) {`
			`mat := mgl32.Ident3()`
			`for i := range t {`
			`mat = mat.Mul3(t[i].Mat3())`
			`}`
			`mat = mat.Mul3(mgl32.Scale2D(float32(ec.radius.X()), float32(ec.radius.Y())))`

			`var shader *pixelgl.Shader`
			`ec.parent.Do(func(ctx pixelgl.Context) {`
			`shader = ctx.Shader()`
			`})`

			`r, g, b, a := colorToRGBA(ec.color)`
			`shader.SetUniformVec4(pixelgl.MaskColor, mgl32.Vec4{r, g, b, a})`
			`shader.SetUniformMat3(pixelgl.Transform, mat)`
			`shader.SetUniformInt(pixelgl.IsTexture, 0)`

			`ec.va.Draw()`
			`}`