Files
gio/gpu/internal/rendertest/transform_test.go
T
Elias Naur 48a8540a68 all: [API] change clip.RRect and UniformRRect to take integer coordinates
Like the change to op.Offset before this, clip.RRect and UniformRRect
is usually used with integer coordinates. Change to integer coordinates
to eliminate many useless conversions to float32.

Signed-off-by: Elias Naur <mail@eliasnaur.com>
2022-05-31 10:24:09 +02:00

202 lines
5.8 KiB
Go

// SPDX-License-Identifier: Unlicense OR MIT
package rendertest
import (
"image"
"math"
"testing"
"golang.org/x/image/colornames"
"gioui.org/f32"
"gioui.org/op"
"gioui.org/op/clip"
"gioui.org/op/paint"
)
func TestPaintOffset(t *testing.T) {
run(t, func(o *op.Ops) {
defer op.Offset(image.Pt(10, 20)).Push(o).Pop()
paint.FillShape(o, red, clip.Rect(image.Rect(0, 0, 50, 50)).Op())
}, func(r result) {
r.expect(0, 0, transparent)
r.expect(59, 30, colornames.Red)
r.expect(60, 30, transparent)
r.expect(10, 70, transparent)
})
}
func TestPaintRotate(t *testing.T) {
run(t, func(o *op.Ops) {
a := f32.Affine2D{}.Rotate(f32.Pt(40, 40), -math.Pi/8)
defer op.Affine(a).Push(o).Pop()
paint.FillShape(o, red, clip.Rect(image.Rect(20, 20, 60, 60)).Op())
}, func(r result) {
r.expect(40, 40, colornames.Red)
r.expect(50, 19, colornames.Red)
r.expect(59, 19, transparent)
r.expect(21, 21, transparent)
})
}
func TestPaintShear(t *testing.T) {
run(t, func(o *op.Ops) {
a := f32.Affine2D{}.Shear(f32.Point{}, math.Pi/4, 0)
defer op.Affine(a).Push(o).Pop()
paint.FillShape(o, red, clip.Rect(image.Rect(0, 0, 40, 40)).Op())
}, func(r result) {
r.expect(10, 30, transparent)
})
}
func TestClipPaintOffset(t *testing.T) {
run(t, func(o *op.Ops) {
defer clip.RRect{Rect: image.Rect(10, 10, 30, 30)}.Push(o).Pop()
defer op.Offset(image.Pt(20, 20)).Push(o).Pop()
paint.FillShape(o, red, clip.Rect(image.Rect(0, 0, 100, 100)).Op())
}, func(r result) {
r.expect(0, 0, transparent)
r.expect(19, 19, transparent)
r.expect(20, 20, colornames.Red)
r.expect(30, 30, transparent)
})
}
func TestClipOffset(t *testing.T) {
run(t, func(o *op.Ops) {
defer op.Offset(image.Pt(20, 20)).Push(o).Pop()
defer clip.RRect{Rect: image.Rect(10, 10, 30, 30)}.Push(o).Pop()
paint.FillShape(o, red, clip.Rect(image.Rect(0, 0, 100, 100)).Op())
}, func(r result) {
r.expect(0, 0, transparent)
r.expect(29, 29, transparent)
r.expect(30, 30, colornames.Red)
r.expect(49, 49, colornames.Red)
r.expect(50, 50, transparent)
})
}
func TestClipScale(t *testing.T) {
run(t, func(o *op.Ops) {
a := f32.Affine2D{}.Scale(f32.Point{}, f32.Pt(2, 2)).Offset(f32.Pt(10, 10))
defer op.Affine(a).Push(o).Pop()
defer clip.RRect{Rect: image.Rect(10, 10, 20, 20)}.Push(o).Pop()
paint.FillShape(o, red, clip.Rect(image.Rect(0, 0, 1000, 1000)).Op())
}, func(r result) {
r.expect(19+10, 19+10, transparent)
r.expect(20+10, 20+10, colornames.Red)
r.expect(39+10, 39+10, colornames.Red)
r.expect(40+10, 40+10, transparent)
})
}
func TestClipRotate(t *testing.T) {
run(t, func(o *op.Ops) {
defer op.Affine(f32.Affine2D{}.Rotate(f32.Pt(40, 40), -math.Pi/4)).Push(o).Pop()
defer clip.RRect{Rect: image.Rect(30, 30, 50, 50)}.Push(o).Pop()
paint.FillShape(o, red, clip.Rect(image.Rect(0, 40, 100, 100)).Op())
}, func(r result) {
r.expect(39, 39, transparent)
r.expect(41, 41, colornames.Red)
r.expect(50, 50, transparent)
})
}
func TestOffsetTexture(t *testing.T) {
run(t, func(o *op.Ops) {
defer op.Offset(image.Pt(15, 15)).Push(o).Pop()
squares.Add(o)
defer scale(50.0/512, 50.0/512).Push(o).Pop()
paint.PaintOp{}.Add(o)
}, func(r result) {
r.expect(14, 20, transparent)
r.expect(66, 20, transparent)
r.expect(16, 64, colornames.Green)
r.expect(64, 16, colornames.Green)
})
}
func TestOffsetScaleTexture(t *testing.T) {
run(t, func(o *op.Ops) {
defer op.Offset(image.Pt(15, 15)).Push(o).Pop()
squares.Add(o)
defer op.Affine(f32.Affine2D{}.Scale(f32.Point{}, f32.Pt(2, 1))).Push(o).Pop()
defer scale(50.0/512, 50.0/512).Push(o).Pop()
paint.PaintOp{}.Add(o)
}, func(r result) {
r.expect(114, 64, colornames.Blue)
r.expect(116, 64, transparent)
})
}
func TestRotateTexture(t *testing.T) {
run(t, func(o *op.Ops) {
squares.Add(o)
a := f32.Affine2D{}.Offset(f32.Pt(30, 30)).Rotate(f32.Pt(40, 40), math.Pi/4)
defer op.Affine(a).Push(o).Pop()
defer scale(20.0/512, 20.0/512).Push(o).Pop()
paint.PaintOp{}.Add(o)
}, func(r result) {
r.expect(40, 40-12, colornames.Blue)
r.expect(40+12, 40, colornames.Green)
})
}
func TestRotateClipTexture(t *testing.T) {
run(t, func(o *op.Ops) {
squares.Add(o)
a := f32.Affine2D{}.Rotate(f32.Pt(40, 40), math.Pi/8)
defer op.Affine(a).Push(o).Pop()
defer clip.RRect{Rect: image.Rect(30, 30, 50, 50)}.Push(o).Pop()
defer op.Affine(f32.Affine2D{}.Offset(f32.Pt(10, 10))).Push(o).Pop()
defer scale(60.0/512, 60.0/512).Push(o).Pop()
paint.PaintOp{}.Add(o)
}, func(r result) {
r.expect(0, 0, transparent)
r.expect(37, 39, colornames.Green)
r.expect(36, 39, colornames.Green)
r.expect(35, 39, colornames.Green)
r.expect(34, 39, colornames.Green)
r.expect(33, 39, colornames.Green)
})
}
func TestComplicatedTransform(t *testing.T) {
run(t, func(o *op.Ops) {
squares.Add(o)
defer clip.RRect{Rect: image.Rect(0, 0, 100, 100), SE: 50, SW: 50, NW: 50, NE: 50}.Push(o).Pop()
a := f32.Affine2D{}.Shear(f32.Point{}, math.Pi/4, 0)
defer op.Affine(a).Push(o).Pop()
defer clip.RRect{Rect: image.Rect(0, 0, 50, 40)}.Push(o).Pop()
defer scale(50.0/512, 50.0/512).Push(o).Pop()
paint.PaintOp{}.Add(o)
}, func(r result) {
r.expect(20, 5, transparent)
})
}
func TestTransformOrder(t *testing.T) {
// check the ordering of operations bot in affine and in gpu stack.
run(t, func(o *op.Ops) {
a := f32.Affine2D{}.Offset(f32.Pt(64, 64))
defer op.Affine(a).Push(o).Pop()
b := f32.Affine2D{}.Scale(f32.Point{}, f32.Pt(8, 8))
defer op.Affine(b).Push(o).Pop()
c := f32.Affine2D{}.Offset(f32.Pt(-10, -10)).Scale(f32.Point{}, f32.Pt(0.5, 0.5))
defer op.Affine(c).Push(o).Pop()
paint.FillShape(o, red, clip.Rect(image.Rect(0, 0, 20, 20)).Op())
}, func(r result) {
// centered and with radius 40
r.expect(64-41, 64, transparent)
r.expect(64-39, 64, colornames.Red)
r.expect(64+39, 64, colornames.Red)
r.expect(64+41, 64, transparent)
})
}