326 lines
7.1 KiB
Go
326 lines
7.1 KiB
Go
package level_test
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import (
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"fmt"
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"testing"
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"git.kirsle.net/SketchyMaze/doodle/pkg/level"
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"git.kirsle.net/go/render"
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)
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func TestWorldSize(t *testing.T) {
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type TestCase struct {
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Size uint8
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Points []render.Point
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Expect render.Rect
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Zero render.Rect // expected WorldSizePositive
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}
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var tests = []TestCase{
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{
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Size: 200,
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Points: []render.Point{
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render.NewPoint(0, 0), // chunk 0,0
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render.NewPoint(512, 788), // 0,0
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render.NewPoint(1002, 500), // 1,0
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render.NewPoint(2005, 2006), // 2,2
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render.NewPoint(-5, -5), // -1,-1
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},
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Expect: render.Rect{
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X: -1000,
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Y: -1000,
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W: 2999,
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H: 2999,
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},
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Zero: render.NewRect(3999, 3999),
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},
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{
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Size: 128,
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Points: []render.Point{
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render.NewPoint(5, 5),
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},
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Expect: render.Rect{
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X: 0,
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Y: 0,
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W: 127,
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H: 127,
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},
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Zero: render.NewRect(127, 127),
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},
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{
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Size: 200,
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Points: []render.Point{
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render.NewPoint(-6000, -38556),
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render.NewPoint(12345, 1288000),
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},
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Expect: render.Rect{
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X: -6000,
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Y: -38600,
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W: 12399,
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H: 1288199,
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},
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Zero: render.NewRect(18399, 1326799),
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},
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}
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for _, test := range tests {
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c := level.NewChunker(test.Size)
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sw := &level.Swatch{
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Name: "solid",
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Color: render.Black,
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}
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for _, pt := range test.Points {
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c.Set(pt, sw)
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}
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size := c.WorldSize()
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if size != test.Expect {
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t.Errorf("WorldSize not as expected: %s <> %s", size, test.Expect)
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}
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zero := c.WorldSizePositive()
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if zero != test.Zero {
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t.Errorf("WorldSizePositive not as expected: %s <> %s", zero, test.Expect)
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}
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}
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}
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func TestViewportChunks(t *testing.T) {
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// Initialize a 100 chunk image with 5x5 chunks.
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var ChunkSize uint8 = 100
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var Offset int = 50
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c := level.NewChunker(ChunkSize)
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sw := &level.Swatch{
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Name: "solid",
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Color: render.Black,
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}
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// The 5x5 chunks are expected to be (diagonally)
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// -2,-2
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// -1,-1
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// 0,0
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// 1,1
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// 2,2
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// The chunk size is 100px so place a single pixel in each
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// 100px quadrant.
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fmt.Printf("size=%d offset=%d\n", ChunkSize, Offset)
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for x := -2; x <= 2; x++ {
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for y := -2; y <= 2; y++ {
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point := render.NewPoint(
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x*int(ChunkSize)+Offset,
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y*int(ChunkSize)+Offset,
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)
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fmt.Printf("in chunk: %d,%d set pt: %s\n",
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x, y, point,
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)
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c.Set(point, sw)
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}
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}
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// Sanity check the test canvas was created correctly.
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worldSize := c.WorldSize()
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expectSize := render.Rect{
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X: -200,
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Y: -200,
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W: 299,
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H: 299,
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}
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if worldSize != expectSize {
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t.Errorf(
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"Test canvas world size wasn't as expected:\n"+
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"Expected: %s\n"+
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" Actual: %s\n",
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expectSize,
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worldSize,
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)
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}
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if len(c.Chunks) != 25 {
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t.Errorf(
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"Test canvas chunk count wasn't as expected:\n"+
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"Expected: 25\n"+
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" Actual: %d\n",
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len(c.Chunks),
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)
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}
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type TestCase struct {
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Viewport render.Rect
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Expect map[render.Point]interface{}
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}
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var tests = []TestCase{
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{
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Viewport: render.Rect{X: -10000, Y: -10000, W: 10000, H: 10000},
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Expect: map[render.Point]interface{}{
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render.NewPoint(-2, -2): nil,
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render.NewPoint(-2, -1): nil,
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render.NewPoint(-2, 0): nil,
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render.NewPoint(-2, 1): nil,
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render.NewPoint(-2, 2): nil,
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render.NewPoint(-1, -2): nil,
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render.NewPoint(-1, -1): nil,
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render.NewPoint(-1, 0): nil,
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render.NewPoint(-1, 1): nil,
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render.NewPoint(-1, 2): nil,
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render.NewPoint(0, -2): nil,
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render.NewPoint(0, -1): nil,
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render.NewPoint(0, 0): nil,
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render.NewPoint(0, 1): nil,
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render.NewPoint(0, 2): nil,
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render.NewPoint(1, -2): nil,
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render.NewPoint(1, -1): nil,
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render.NewPoint(1, 0): nil,
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render.NewPoint(1, 1): nil,
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render.NewPoint(1, 2): nil,
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render.NewPoint(2, -2): nil,
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render.NewPoint(2, -1): nil,
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render.NewPoint(2, 0): nil,
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render.NewPoint(2, 1): nil,
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render.NewPoint(2, 2): nil,
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},
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},
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{
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Viewport: render.Rect{X: 0, Y: 0, W: 200, H: 200},
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Expect: map[render.Point]interface{}{
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render.NewPoint(0, 0): nil,
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render.NewPoint(0, 1): nil,
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render.NewPoint(1, 0): nil,
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render.NewPoint(1, 1): nil,
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},
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},
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// {
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// Viewport: render.Rect{X: -5, Y: 0, W: 200, H: 200},
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// Expect: map[render.Point]interface{}{
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// render.NewPoint(-1, 0): nil,
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// render.NewPoint(0, 0): nil,
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// render.NewPoint(1, 1): nil,
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// },
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// },
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}
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for _, test := range tests {
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chunks := []render.Point{}
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for chunk := range c.IterViewportChunks(test.Viewport) {
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chunks = append(chunks, chunk)
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}
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if len(chunks) != len(test.Expect) {
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t.Errorf("%s: chunk count mismatch: expected %d, got %d",
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test.Viewport,
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len(test.Expect),
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len(chunks),
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)
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}
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for _, actual := range chunks {
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if _, ok := test.Expect[actual]; !ok {
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t.Errorf("%s: got chunk coord %d but did not expect to",
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test.Viewport,
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actual,
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)
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}
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delete(test.Expect, actual)
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}
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if len(test.Expect) > 0 {
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t.Errorf("%s: failed to see these coords: %+v",
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test.Viewport,
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test.Expect,
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)
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}
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}
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}
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func TestRelativeCoordinates(t *testing.T) {
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var (
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chunker = level.NewChunker(128)
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)
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type TestCase struct {
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WorldCoord render.Point
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ChunkCoord render.Point
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ExpectRelative render.Point
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}
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var tests = []TestCase{
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{
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WorldCoord: render.NewPoint(4, 8),
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ExpectRelative: render.NewPoint(4, 8),
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},
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{
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WorldCoord: render.NewPoint(128, 128),
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ExpectRelative: render.NewPoint(0, 0),
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},
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{
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WorldCoord: render.NewPoint(143, 144),
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ExpectRelative: render.NewPoint(15, 16),
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},
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{
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WorldCoord: render.NewPoint(-105, -86),
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ExpectRelative: render.NewPoint(23, 42),
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},
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{
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WorldCoord: render.NewPoint(-252, 264),
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ExpectRelative: render.NewPoint(4, 8),
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},
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// These were seen breaking actual levels, at the corners of the chunk
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{
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WorldCoord: render.NewPoint(511, 256),
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ExpectRelative: render.NewPoint(127, 0), // was getting -1,0 in game
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},
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{
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WorldCoord: render.NewPoint(511, 512),
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ChunkCoord: render.NewPoint(4, 4),
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ExpectRelative: render.NewPoint(127, 0), // was getting -1,0 in game
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},
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{
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WorldCoord: render.NewPoint(127, 384),
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ChunkCoord: render.NewPoint(1, 3),
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ExpectRelative: render.NewPoint(-1, 0),
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},
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}
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for i, test := range tests {
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var (
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chunkCoord = test.ChunkCoord
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actualRelative = level.RelativeCoordinate(
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test.WorldCoord,
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chunkCoord,
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chunker.Size,
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)
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roundTrip = level.FromRelativeCoordinate(
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actualRelative,
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chunkCoord,
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chunker.Size,
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)
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)
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// compute expected chunk coord automatically?
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if chunkCoord == render.Origin {
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chunkCoord = chunker.ChunkCoordinate(test.WorldCoord)
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}
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if actualRelative != test.ExpectRelative {
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t.Errorf("Test %d: world coord %s in chunk %s\n"+
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"Expected RelativeCoordinate() to be: %s\n"+
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"But it was: %s",
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i,
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test.WorldCoord,
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chunkCoord,
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test.ExpectRelative,
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actualRelative,
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)
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}
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if roundTrip != test.WorldCoord {
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t.Errorf("Test %d: world coord %s in chunk %s\n"+
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"Did not survive round trip! Expected: %s\n"+
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"But it was: %s",
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i,
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test.WorldCoord,
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chunkCoord,
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test.WorldCoord,
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roundTrip,
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)
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}
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}
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}
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