120 lines
2.6 KiB
Go
120 lines
2.6 KiB
Go
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package geo
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import (
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. "testing"
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"github.com/stretchr/testify/assert"
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)
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func TestRect(t *T) {
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r := Rect{
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TopLeft: XY{1, 2},
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Size: XY{2, 2},
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}
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assert.Equal(t, 2, r.Edge(Up))
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assert.Equal(t, 3, r.Edge(Down))
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assert.Equal(t, 1, r.Edge(Left))
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assert.Equal(t, 2, r.Edge(Right))
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assert.Equal(t, XY{1, 2}, r.Corner(Left, Up))
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assert.Equal(t, XY{1, 3}, r.Corner(Left, Down))
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assert.Equal(t, XY{2, 2}, r.Corner(Right, Up))
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assert.Equal(t, XY{2, 3}, r.Corner(Right, Down))
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}
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func TestRectCenter(t *T) {
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assertCentered := func(exp, given Rect, center XY, rounder Rounder) {
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got := given.Centered(center, rounder)
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assert.Equal(t, exp, got)
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assert.Equal(t, center, got.Center(rounder))
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}
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{
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r := Rect{
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Size: XY{4, 4},
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}
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assert.Equal(t, XY{2, 2}, r.Center(Round))
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assert.Equal(t, XY{2, 2}, r.Center(Floor))
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assert.Equal(t, XY{2, 2}, r.Center(Ceil))
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assertCentered(
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Rect{TopLeft: XY{1, 1}, Size: XY{4, 4}},
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r, XY{3, 3}, Round,
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)
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assertCentered(
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Rect{TopLeft: XY{1, 1}, Size: XY{4, 4}},
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r, XY{3, 3}, Floor,
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)
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assertCentered(
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Rect{TopLeft: XY{1, 1}, Size: XY{4, 4}},
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r, XY{3, 3}, Ceil,
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)
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}
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{
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r := Rect{
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Size: XY{5, 5},
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}
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assert.Equal(t, XY{3, 3}, r.Center(Round))
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assert.Equal(t, XY{2, 2}, r.Center(Floor))
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assert.Equal(t, XY{3, 3}, r.Center(Ceil))
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assertCentered(
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Rect{TopLeft: XY{0, 0}, Size: XY{5, 5}},
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r, XY{3, 3}, Round,
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)
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assertCentered(
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Rect{TopLeft: XY{1, 1}, Size: XY{5, 5}},
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r, XY{3, 3}, Floor,
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)
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assertCentered(
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Rect{TopLeft: XY{0, 0}, Size: XY{5, 5}},
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r, XY{3, 3}, Ceil,
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)
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}
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}
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func TestRectUnion(t *T) {
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assertUnion := func(exp, r1, r2 Rect) {
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assert.Equal(t, exp, r1.Union(r2))
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assert.Equal(t, exp, r2.Union(r1))
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}
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{ // Zero
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r := Rect{TopLeft: XY{1, 1}, Size: XY{2, 2}}
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assertUnion(r, r, Rect{})
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}
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{ // Equal
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r := Rect{Size: XY{2, 2}}
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assertUnion(r, r, r)
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}
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{ // Overlapping corner
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r1 := Rect{TopLeft: XY{0, 0}, Size: XY{2, 2}}
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r2 := Rect{TopLeft: XY{1, 1}, Size: XY{2, 2}}
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ex := Rect{TopLeft: XY{0, 0}, Size: XY{3, 3}}
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assertUnion(ex, r1, r2)
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}
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{ // 2 overlapping corners
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r1 := Rect{TopLeft: XY{0, 0}, Size: XY{4, 4}}
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r2 := Rect{TopLeft: XY{1, 1}, Size: XY{4, 2}}
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ex := Rect{TopLeft: XY{0, 0}, Size: XY{5, 4}}
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assertUnion(ex, r1, r2)
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}
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{ // Shared edge
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r1 := Rect{TopLeft: XY{0, 0}, Size: XY{2, 1}}
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r2 := Rect{TopLeft: XY{1, 0}, Size: XY{1, 2}}
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ex := Rect{TopLeft: XY{0, 0}, Size: XY{2, 2}}
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assertUnion(ex, r1, r2)
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}
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{ // Adjacent edge
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r1 := Rect{TopLeft: XY{0, 0}, Size: XY{2, 2}}
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r2 := Rect{TopLeft: XY{2, 0}, Size: XY{2, 2}}
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ex := Rect{TopLeft: XY{0, 0}, Size: XY{4, 2}}
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assertUnion(ex, r1, r2)
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}
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}
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