// Copyright 2014 Hajime Hoshi // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package ebiten_test import ( "fmt" "math" "testing" . "github.com/hajimehoshi/ebiten" ) func TestGeoMInit(t *testing.T) { var m GeoM for i := 0; i < GeoMDim-1; i++ { for j := 0; j < GeoMDim; j++ { got := m.Element(i, j) want := 0.0 if i == j { want = 1 } if want != got { t.Errorf("m.Element(%d, %d) = %f, want %f", i, j, got, want) } } } } func TestGeoMAssign(t *testing.T) { m := GeoM{} m.SetElement(0, 0, 1) m2 := m m.SetElement(0, 0, 0) got := m2.Element(0, 0) want := 1.0 if want != got { t.Errorf("m2.Element(%d, %d) = %f, want %f", 0, 0, got, want) } } func TestGeoMConcat(t *testing.T) { matrix1 := GeoM{} matrix1.Scale(2, 2) matrix2 := GeoM{} matrix2.Translate(1, 1) matrix3 := matrix1 matrix3.Concat(matrix2) expected := [][]float64{ {2, 0, 1}, {0, 2, 1}, } for i := 0; i < 2; i++ { for j := 0; j < 3; j++ { got := matrix3.Element(i, j) want := expected[i][j] if want != got { t.Errorf("matrix3.Element(%d, %d) = %f,"+ " want %f", i, j, got, want) } } } matrix4 := matrix2 matrix4.Concat(matrix1) expected = [][]float64{ {2, 0, 2}, {0, 2, 2}, } for i := 0; i < 2; i++ { for j := 0; j < 3; j++ { got := matrix4.Element(i, j) want := expected[i][j] if want != got { t.Errorf("matrix4.Element(%d, %d) = %f, want %f", i, j, got, want) } } } } func TestGeoMConcatSelf(t *testing.T) { m := GeoM{} m.SetElement(0, 0, 1) m.SetElement(0, 1, 2) m.SetElement(0, 2, 3) m.SetElement(1, 0, 4) m.SetElement(1, 1, 5) m.SetElement(1, 2, 6) m.Concat(m) expected := [][]float64{ {9, 12, 18}, {24, 33, 48}, } for i := 0; i < 2; i++ { for j := 0; j < 3; j++ { got := m.Element(i, j) want := expected[i][j] if want != got { t.Errorf("m.Element(%d, %d) = %f, want %f", i, j, got, want) } } } } func geoMToString(g GeoM) string { a := g.Element(0, 0) b := g.Element(0, 1) c := g.Element(1, 0) d := g.Element(1, 1) tx := g.Element(0, 2) ty := g.Element(1, 2) return fmt.Sprintf("{a: %f, b: %f, c: %f, d: %f, tx: %f, ty: %f}", a, b, c, d, tx, ty) } func TestGeoMApply(t *testing.T) { trans := GeoM{} trans.Translate(1, 2) scale := GeoM{} scale.Scale(1.5, 2.5) cpx := GeoM{} cpx.Rotate(math.Pi) cpx.Scale(1.5, 2.5) cpx.Translate(-2, -3) cases := []struct { GeoM GeoM InX float64 InY float64 OutX float64 OutY float64 }{ { GeoM: GeoM{}, InX: 3.14159, InY: 2.81828, OutX: 3.14159, OutY: 2.81828, }, { GeoM: trans, InX: 3.14159, InY: 2.81828, OutX: 4.14159, OutY: 4.81828, }, { GeoM: scale, InX: 3.14159, InY: 2.81828, OutX: 4.71239, OutY: 7.04570, }, { GeoM: cpx, InX: 3.14159, InY: 2.81828, OutX: -6.71239, OutY: -10.04570, }, } const delta = 0.00001 for _, c := range cases { rx, ry := c.GeoM.Apply(c.InX, c.InY) if math.Abs(rx-c.OutX) > delta || math.Abs(ry-c.OutY) > delta { t.Errorf("%s.Apply(%f, %f) = (%f, %f), want (%f, %f)", geoMToString(c.GeoM), c.InX, c.InY, rx, ry, c.OutX, c.OutY) } } } func TestGeoMIsInvert(t *testing.T) { zero := GeoM{} zero.Scale(0, 0) trans := GeoM{} trans.Translate(1, 2) scale := GeoM{} scale.Scale(1.5, 2.5) cpx := GeoM{} cpx.Rotate(math.Pi) cpx.Scale(1.5, 2.5) cpx.Translate(-2, -3) cases := []struct { GeoM GeoM Invertible bool }{ { GeoM: zero, Invertible: false, }, { GeoM: GeoM{}, Invertible: true, }, { GeoM: trans, Invertible: true, }, { GeoM: scale, Invertible: true, }, { GeoM: cpx, Invertible: true, }, } pts := []struct { X float64 Y float64 }{ { X: 0, Y: 0, }, { X: 1, Y: 1, }, { X: 3.14159, Y: 2.81828, }, { X: -1000, Y: 1000, }, } const delta = 0.00001 for _, c := range cases { if c.GeoM.IsInvertible() != c.Invertible { t.Errorf("%s.IsInvertible(): got: %t, want: %t", geoMToString(c.GeoM), c.GeoM.IsInvertible(), c.Invertible) } if !c.GeoM.IsInvertible() { continue } invGeoM := c.GeoM invGeoM.Invert() for _, p := range pts { x, y := p.X, p.Y gotX, gotY := invGeoM.Apply(c.GeoM.Apply(x, y)) if math.Abs(gotX-x) > delta || math.Abs(gotY-y) > delta { t.Errorf("%s.Apply(%s.Apply(%f, %f)): got: (%f, %f), want: (%f, %f)", geoMToString(invGeoM), geoMToString(c.GeoM), x, y, gotX, gotY, x, y) } } } } func BenchmarkGeoM(b *testing.B) { var m GeoM for i := 0; i < b.N; i++ { m = GeoM{} m.Translate(10, 20) m.Scale(2, 3) m.Rotate(math.Pi / 2) } }