place blocks

2022-02-24 20:20:33 +08:00 · 2022-02-24 20:20:33 +08:00 · 32b06810e2
commit 32b06810e2
parent 9195dd7c3f
17 changed files with 309 additions and 55 deletions
--- a/internal/asset/texture/world/log_oak_side.png
+++ b/internal/asset/texture/world/log_oak_side.png
--- a/internal/entity/entity.go
+++ b/internal/entity/entity.go
@ -64,6 +64,7 @@ func NewEntity(typename string, pos itype.Vec3d) *Entity {
 		b:    b,
 		pos:  pos,
 		name: typename,
 		ds:   make(itype.Dataset),
 	}
 }
@ -106,3 +107,29 @@ func (e *Entity) EyeHeight() float64 {
 func (e *Entity) EyePosition() itype.Vec3d {
 	return e.pos.Addv(0, e.EyeHeight(), 0)
 }
 func (e *Entity) DatasetI(name string) int64 {
 	return e.ds[name].(int64)
 }
 func (e *Entity) DatasetF(name string) float64 {
 	return e.ds[name].(float64)
 }
 func (e *Entity) DatasetS(name string) string {
 	return e.ds[name].(string)
 }
 func (e *Entity) DatasetB(name string) bool {
 	return e.ds[name].(bool)
 }
 func (e *Entity) SetDatasetI(name string, val int64) {
 	e.ds[name] = val
 }
 func (e *Entity) SetDatasetF(name string, val float64) {
 	e.ds[name] = val
 }
 func (e *Entity) SetDatasetS(name string, val string) {
 	e.ds[name] = val
 }
 func (e *Entity) SetDatasetB(name string, val bool) {
 	e.ds[name] = val
 }
--- a/internal/game/game.go
+++ b/internal/game/game.go
@ -1,6 +1,8 @@
 package game
 import (
 	"time"
 	"edgaru089.ml/go/gl01/internal/entity"
 	"edgaru089.ml/go/gl01/internal/render"
 	"edgaru089.ml/go/gl01/internal/util/itype"
@ -28,6 +30,8 @@ type Game struct {
 	fullscreen        bool
 	lastPos, lastSize itype.Vec2i // Window size before entering fullscreen
 	runtime time.Duration
 	io     imgui.IO
 	gui    guiState
 	paused bool
--- a/internal/game/imgui.go
+++ b/internal/game/imgui.go
@ -74,6 +74,11 @@ func (g *Game) imgui() {
 			pos := g.player.Position()
 			igwrap.TextBackground("Player: (%.3f, %.5f, %.3f) (Y%.2f, Z%.2f)", pos[0], pos[1], pos[2], g.rotY.Degrees(), g.rotZ)
 			if ok, bc, face, _, _ := g.world.CastViewRay(io.ViewPos, io.ViewDir.Normalize(), 10); ok {
 				igwrap.TextBackground("Looking At: (%d %d %d) facing %s", bc[0], bc[1], bc[2], itype.DirectionName[face])
 			}
 			imgui.End()
 		}
 	}
@ -138,4 +143,43 @@ func (g *Game) imgui() {
 	}
 	imgui.End()
 	imgui.SetNextWindowPosV(imgui.Vec2{float32(io.DisplaySize[0] / 2), float32(io.DisplaySize[1]) + 1}, imgui.ConditionAlways, imgui.Vec2{0.5, 1})
 	if igwrap.Begin("InventoryBar", nil, imgui.WindowFlagsAlwaysAutoResize|imgui.WindowFlagsNoNavFocus|imgui.WindowFlagsNoNavInputs|imgui.WindowFlagsNoDecoration|imgui.WindowFlagsNoBringToFrontOnFocus|imgui.WindowFlagsNoSavedSettings|imgui.WindowFlagsNoFocusOnAppearing) {
 		imgui.PushStyleColor(imgui.StyleColorBorder, imgui.Vec4{0.8, 0.8, 0.8, 1})
 		for i, id := range placeId {
 			if i != 0 {
 				imgui.SameLineV(0, 1)
 			}
 			if i == placei {
 				imgui.PushStyleVarFloat(imgui.StyleVarFrameBorderSize, 2)
 			}
 			app := world.GetBlockBehaviour(id).Appearance(itype.Vec3i{}, 0, nil, g.world)
 			var name string
 			switch app.RenderType {
 			case world.OneTexture:
 				name = app.Name + ".png"
 			case world.ThreeTexture:
 				name = app.Name + "_top.png"
 			case world.SixTexture:
 				name = app.Name + "_y+.png"
 			}
 			igwrap.ImageButtonV(
 				g.render.texture.Handle(),
 				itype.Vec2f{32, 32},
 				asset.WorldTextureAtlas.RectNormalized(name),
 				0, itype.Vec4f{}, itype.Vec4f{1, 1, 1, 1},
 			)
 			if i == placei {
 				imgui.PopStyleVar()
 			}
 		}
 		imgui.PopStyleColor()
 		imgui.End()
 	}
 }
--- a/internal/game/logic.go
+++ b/internal/game/logic.go
@ -12,12 +12,21 @@ import (
 	"edgaru089.ml/go/gl01/internal/util"
 	"edgaru089.ml/go/gl01/internal/util/itype"
 	"edgaru089.ml/go/gl01/internal/world"
 	"edgaru089.ml/go/gl01/internal/world/blocks"
 	"edgaru089.ml/go/gl01/internal/world/worldgen"
 	"github.com/go-gl/glfw/v3.3/glfw"
 	"github.com/go-gl/mathgl/mgl64"
 	"github.com/inkyblackness/imgui-go/v4"
 )
 const (
 	PlayerBreakCooldown = 200 * time.Millisecond
 	PlayerPlaceCooldown = 200 * time.Millisecond
 )
 var placeId = [10]int{blocks.Stone, blocks.Dirt, blocks.Grass, blocks.LogOak, blocks.PlanksOak, blocks.LeavesOak, blocks.Debug, blocks.DebugDir, blocks.Bedrock, blocks.Water}
 var placei = 0
 var logs string
 type logger struct{}
@ -43,6 +52,9 @@ func (g *Game) Init(win *glfw.Window) {
 		panic(err)
 	}
 	g.player.SetDatasetI("LastBreak", 0)
 	g.player.SetDatasetI("LastPlace", 0)
 	var seed int64 = time.Now().Unix()
 	gensync := make(chan struct{})
 	gensynccnt := 0
@ -163,6 +175,18 @@ func (g *Game) Init(win *glfw.Window) {
 	win.SetScrollCallback(func(w *glfw.Window, xpos, ypos float64) {
 		if g.paused {
 			backend.MouseScrollCallback(xpos, ypos)
 		} else {
 			if ypos > 0 {
 				placei--
 			} else if ypos < 0 {
 				placei++
 			}
 			if placei < 0 {
 				placei += len(placeId)
 			}
 			if placei >= len(placeId) {
 				placei -= len(placeId)
 			}
 		}
 	})
@ -172,6 +196,7 @@ const airAccel = 0.1
 // Update updates the game state, not necessarily in the main thread.
 func (g *Game) Update(win *glfw.Window, delta time.Duration) {
 	g.runtime += delta
 	backend.NewFrame()
 	clock := util.NewClock()
@ -242,6 +267,42 @@ func (g *Game) Update(win *glfw.Window, delta time.Duration) {
 		g.player.SetSpeed(itype.Vec3d{})
 	}
 	if ok, bc, dir, _, _ := g.world.CastViewRay(io.ViewPos, io.ViewDir.Normalize(), 6); ok {
 		ba := g.world.Block(bc).Appearance(bc)
 		for _, r := range ba.Lookbox {
 			render.Framewire.PushBox(r.GrowEven(itype.Vec3d{0.03125, 0.03125, 0.03125}).Offset(bc.ToFloat64()).ToFloat32(), color.White)
 		}
 		// Break/Place block
 		if win.GetMouseButton(glfw.MouseButtonLeft) == glfw.Press && g.runtime-time.Duration(g.player.DatasetI("LastBreak")) >= PlayerBreakCooldown {
 			// Break
 			g.world.Break(bc)
 			g.player.SetDatasetI("LastBreak", int64(g.runtime))
 		} else if win.GetMouseButton(glfw.MouseButtonRight) == glfw.Press && g.runtime-time.Duration(g.player.DatasetI("LastPlace")) >= PlayerBreakCooldown {
 			// Place
 			// Check hitbox
 			tobehit := world.GetBlockBehaviour(placeId[placei]).Appearance(bc.Add(itype.DirectionVeci[dir]), 0, nil, g.world).Hitbox
 			if len(tobehit) == 0 {
 				tobehit = []itype.Boxd{{OffX: 0, OffY: 0, OffZ: 0, SizeX: 1, SizeY: 1, SizeZ: 1}}
 			}
 			canplace := true
 		outer:
 			for _, pb := range g.player.WorldHitbox() {
 				for _, b := range tobehit {
 					if ok, _ := b.Offset(bc.Add(itype.DirectionVeci[dir]).ToFloat64()).Intersect(pb); ok {
 						canplace = false
 						break outer
 					}
 				}
 			}
 			if canplace {
 				g.world.SetBlock(bc.Add(itype.DirectionVeci[dir]), placeId[placei], 0, nil)
 				g.player.SetDatasetI("LastPlace", int64(g.runtime))
 			}
 		}
 	}
 	io.Diagnostics.Times.Logic = clock.Restart()
 	imgui.ShowDemoWindow(nil)
--- a/internal/game/render.go
+++ b/internal/game/render.go
@ -479,4 +479,5 @@ func (g *Game) Render(win *glfw.Window) {
 	}
 	backend.Render(win)
 }
--- a/internal/igwrap/backend/shader.vert
+++ b/internal/igwrap/backend/shader.vert
@ -24,8 +24,5 @@ void main() {
 	fragUV = uv;
 	fragColor = color;
    gl_Position = projection * vec4(pos.xy, 0, 1);
 	if ((flags & FLAG_FLIP_Y) != 0)
 		fragUV.y = 1 - fragUV.y;
 }
--- a/internal/igwrap/imagewrap.go
+++ b/internal/igwrap/imagewrap.go
@ -13,11 +13,13 @@ import (
 // size is in pixels. texRange is in [0, 1].
 func Image(tex uint32, size itype.Vec2f, texRange itype.Rectf) {
 	min, max := texRange.MinPoint(), texRange.MaxPoint()
 	if GetTextureFlag(tex)&TextureFlag_FlipY == 0 {
 		min[1], max[1] = max[1], min[1] // swap minY/maxY
 	}
 	imgui.ImageV(
 		imgui.TextureID(tex),
 		Vec2(size),
-		imgui.Vec2{X: min[0], Y: max[1]},
+		Vec2(min), Vec2(max),
 		imgui.Vec2{X: max[0], Y: min[1]},
 		Color(255, 255, 255, 255),
 		imgui.Vec4{},
 	)
@ -28,17 +30,52 @@ func Image(tex uint32, size itype.Vec2f, texRange itype.Rectf) {
 //
 // size is in pixels. texRange is in [0, 1].
 func ImageV(tex uint32, size itype.Vec2f, texRange itype.Rectf, texColor itype.Vec4f, borderColor itype.Vec4f) {
 	min, max := texRange.MinPoint(), texRange.MaxPoint()
 	if GetTextureFlag(tex)&TextureFlag_FlipY == 0 {
 		min[1], max[1] = max[1], min[1] // swap minY/maxY
 	}
 	imgui.ImageV(
 		imgui.TextureID(tex),
 		Vec2(size),
-		Vec2(texRange.MinPoint()),
+		Vec2(min), Vec2(max),
 		Vec2(texRange.MaxPoint()),
 		Vec4(texColor),
 		Vec4(borderColor),
 	)
 }
-// Per-texture flags. This is passed to the shader as-is and handled only there.
+func ImageButton(tex uint32, size itype.Vec2f, texRange itype.Rectf) bool {
 	min, max := texRange.MinPoint(), texRange.MaxPoint()
 	if GetTextureFlag(tex)&TextureFlag_FlipY == 0 {
 		min[1], max[1] = max[1], min[1] // swap minY/maxY
 	}
 	return imgui.ImageButtonV(
 		imgui.TextureID(tex),
 		Vec2(size),
 		Vec2(min), Vec2(max),
 		-1,
 		imgui.Vec4{},
 		imgui.Vec4{1, 1, 1, 1},
 	)
 }
 func ImageButtonV(tex uint32, size itype.Vec2f, texRange itype.Rectf, padding int, bgCol, tintCol itype.Vec4f) bool {
 	min, max := texRange.MinPoint(), texRange.MaxPoint()
 	if GetTextureFlag(tex)&TextureFlag_FlipY == 0 {
 		min[1], max[1] = max[1], min[1] // swap minY/maxY
 	}
 	return imgui.ImageButtonV(
 		imgui.TextureID(tex),
 		Vec2(size),
 		Vec2(min), Vec2(max),
 		padding,
 		Vec4(bgCol),
 		Vec4(tintCol),
 	)
 }
 // Per-texture flags. This is passed to the shader as-is.
 //
 // FilpY is handled by the ImageXXX() call.
 type TextureFlag int
 const (
--- a/internal/render/render_framewire.go
+++ b/internal/render/render_framewire.go
@ -75,7 +75,7 @@ func (f *FramewireRenderer) PushLine(p0, p1 itype.Vec3f, color0, color1 color.Co
 	)
 }
-const FramewireSizeShrink = 1e-2
+const FramewireSizeShrink = 1e-4
 // PushBox pushes a 3D box into the vertex array.
 //
--- a/internal/util/itype/dataset.go
+++ b/internal/util/itype/dataset.go
@ -4,7 +4,7 @@ package itype
 // This is the major way how complicated data is stored in blocks and entities.
 //
 // The empty interface should only hold these 4 types:
-//   - int
+//   - int64
 //   - float64
 //   - bool
 //   - string
--- a/internal/util/itype/direction.go
+++ b/internal/util/itype/direction.go
@ -62,6 +62,10 @@ func (d Direction) Opposite() Direction {
 	return 0
 }
 func (d Direction) String() string {
 	return DirectionName[d]
 }
 // DirectionIs returns X/Y/Z for 0/1/2, and +/- for #pos/neg.
 func DirectionIs(index int, positive bool) Direction {
 	switch index {
--- a/internal/util/itype/rect.go
+++ b/internal/util/itype/rect.go
@ -1,6 +1,8 @@
 package itype
-import "sort"
+import (
 	"sort"
 )
 // Recti is a 2D rectangle with int coordinates.
 type Recti struct {
@ -113,6 +115,32 @@ func (b Boxd) Offsetv(x, y, z float64) Boxd {
 	}
 }
 // GrowEven grows the box on each axis by deltaSize,
 // not moving its center.
 func (b Boxd) GrowEven(deltaSize Vec3d) Boxd {
 	return Boxd{
 		OffX:  b.OffX - deltaSize[0]/2,
 		OffY:  b.OffY - deltaSize[1]/2,
 		OffZ:  b.OffZ - deltaSize[2]/2,
 		SizeX: b.SizeX + deltaSize[0],
 		SizeY: b.SizeY + deltaSize[1],
 		SizeZ: b.SizeZ + deltaSize[2],
 	}
 }
 // GrowOrigin grows the box on each axis by deltaSize,
 // not moving its origin.
 func (b Boxd) GrowOrigin(deltaSize Vec3d) Boxd {
 	return Boxd{
 		OffX:  b.OffX,
 		OffY:  b.OffY,
 		OffZ:  b.OffZ,
 		SizeX: b.SizeX + deltaSize[0],
 		SizeY: b.SizeY + deltaSize[1],
 		SizeZ: b.SizeZ + deltaSize[2],
 	}
 }
 func (b Boxd) MinPoint() Vec3d {
 	return Vec3d{b.OffX, b.OffY, b.OffZ}
 }
@ -121,9 +149,9 @@ func (b Boxd) MaxPoint() Vec3d {
 }
 func (b Boxd) Contains(point Vec3d) bool {
-	return point[0] >= b.OffX && point[0] <= b.OffX+b.SizeX &&
+	return point[0] > b.OffX && point[0] < b.OffX+b.SizeX &&
-		point[1] >= b.OffY && point[1] <= b.OffY+b.SizeY &&
+		point[1] > b.OffY && point[1] < b.OffY+b.SizeY &&
-		point[2] >= b.OffZ && point[2] <= b.OffZ+b.SizeZ
+		point[2] > b.OffZ && point[2] < b.OffZ+b.SizeZ
 }
 func pointIntersect(n, m, p, q float64) (min, len float64) {
@ -157,7 +185,7 @@ func (box1 Boxd) Intersect(box2 Boxd) (ok bool, intersect Boxd) {
 }
 func between(val, min, max float64) bool {
-	return min <= val && val <= max
+	return min < val && val < max
 }
 // IntersectRay computes if a Box intersects with a ray.
@ -174,14 +202,14 @@ func (box Boxd) IntersectRay(start, dir Vec3d, length float64) (ok bool, hitface
 	for i := 0; i < 3; i++ {
 		if dir[i] > 0 {
 			t[i] = (min[i] - start[i]) / dir[i]
-		} else {
+		} else if dir[i] < 0 {
 			t[i] = (max[i] - start[i]) / dir[i]
 		}
 	}
 	maxi := 0
-	for i, ti := range t {
+	for i := range t {
-		if ti > t[maxi] {
+		if t[i] > t[maxi] {
 			maxi = i
 		}
 	}
@ -190,7 +218,7 @@ func (box Boxd) IntersectRay(start, dir Vec3d, length float64) (ok bool, hitface
 		pt := start.Add(dir.Multiply(t[maxi]))
 		o1 := (maxi + 1) % 3
-		o2 := (maxi + 1) % 3
+		o2 := (maxi + 2) % 3
 		if between(pt[o1], min[o1], max[o1]) && between(pt[o2], min[o2], max[o2]) {
 			ok = true
@ -201,5 +229,6 @@ func (box Boxd) IntersectRay(start, dir Vec3d, length float64) (ok bool, hitface
 		}
 	}
 	ok = false
 	return
 }
--- a/internal/world/block.go
+++ b/internal/world/block.go
@ -19,7 +19,7 @@ const (
 // BlockAppearance describes basic appearance of a kind of block.
 type BlockAppearance struct {
 	Name        string // A short name, like "stone" or "dirt", used for texture lookups
-	Transparent bool   // Is block transparent?
+	Transparent bool   // Is block transparent, i.e., does not block nearby blocks in rendering?
 	NotSolid    bool   // Is block not solid, i.e., has no hitbox at all? (this makes the zero value reasonable)
 	Light       int    // The light level it emits, 0 is none
@ -72,6 +72,9 @@ type BlockBehaviour interface {
 	//
 	// Return true if this block also changed state, false otherwise.
 	BlockUpdate(position itype.Vec3i, aux int, data itype.Dataset, world *World) bool
 	// Break is called when the block is broken by natural means.
 	Break(position itype.Vec3i, aux int, data itype.Dataset, world *World)
 }
 type blockBehaviourStatic struct {
@ -87,6 +90,7 @@ func (b blockBehaviourStatic) Appearance(position itype.Vec3i, aux int, data ity
 func (blockBehaviourStatic) BlockUpdate(position itype.Vec3i, aux int, data itype.Dataset, world *World) bool {
 	return false
 }
 func (blockBehaviourStatic) Break(position itype.Vec3i, aux int, data itype.Dataset, world *World) {}
 // BlockBehaviourStatic returns a Static BlockBehaviour that has the given BlockAppearance.
 func BlockBehaviourStatic(app BlockAppearance) BlockBehaviour {
@ -172,6 +176,9 @@ type Block struct {
 // Appearance is a shortcut for Behaviour.Appearance().
 // It returns the Appearance of the block with the given parameters.
 func (b Block) Appearance(position itype.Vec3i) BlockAppearance {
 	if b.Behaviour == nil {
 		return BlockAppearance{}
 	}
 	app := b.Behaviour.Appearance(position, b.Aux, b.Dataset, b.World)
 	if !app.NotSolid && len(app.Hitbox) == 0 {
 		app.Hitbox = []itype.Boxd{{
--- a/internal/world/blocks/water.go
+++ b/internal/world/blocks/water.go
@ -35,3 +35,4 @@ func (WaterBehaviour) Appearance(position itype.Vec3i, aux int, data itype.Datas
 func (WaterBehaviour) BlockUpdate(position itype.Vec3i, aux int, data itype.Dataset, w *world.World) bool {
 	return false
 }
 func (WaterBehaviour) Break(position itype.Vec3i, aux int, data itype.Dataset, w *world.World) {}
--- a/internal/world/chunk.go
+++ b/internal/world/chunk.go
@ -4,6 +4,8 @@ import (
 	"encoding/gob"
 	"io"
 	"log"
 	"edgaru089.ml/go/gl01/internal/util/itype"
 )
 const (
@ -40,6 +42,27 @@ func (c *Chunk) SetBlock(x, y, z int, id, aux int) {
 	c.Id[x][y][z] = uint16(id)
 	c.Aux[x][y][z] = uint16(aux)
 	c.renderChanged = true
 	switch x {
 	case 0:
 		if cb, ok := c.world.Chunks[itype.Vec2i{c.X - 1, c.Z}]; ok {
 			cb.InvalidateRender()
 		}
 	case ChunkSizeX - 1:
 		if cb, ok := c.world.Chunks[itype.Vec2i{c.X + 1, c.Z}]; ok {
 			cb.InvalidateRender()
 		}
 	}
 	switch z {
 	case 0:
 		if cb, ok := c.world.Chunks[itype.Vec2i{c.X, c.Z - 1}]; ok {
 			cb.InvalidateRender()
 		}
 	case ChunkSizeZ - 1:
 		if cb, ok := c.world.Chunks[itype.Vec2i{c.X, c.Z + 1}]; ok {
 			cb.InvalidateRender()
 		}
 	}
 }
 // InvalidateRender should be called if a block inside the chunk has changed
--- a/internal/world/viewray.go
+++ b/internal/world/viewray.go
@ -1,48 +1,55 @@
 package world
-import "edgaru089.ml/go/gl01/internal/util/itype"
+import (
 	"edgaru089.ml/go/gl01/internal/util/itype"
 )
-// CastViewRay
+func (w *World) castworker(from, dir itype.Vec3d, maxlen float64, current itype.Vec3i, skipdir itype.Direction) (ok bool, blockcoord itype.Vec3i, face itype.Direction, where itype.Vec3d, dist float64) {
 func (w *World) CastViewRay(from, dir itype.Vec3d, maxlen float64) (ok bool, blockcoord itype.Vec3i, face itype.Direction, where itype.Vec3d, dist float64) {
-	bfrom := from.Floor()
+	// Length test
-	bfromdir := itype.Direction(-1)
+	if current.ToFloat64().Addv(0.5, 0.5, 0.5).Add(from.Negative()).Length() > maxlen+1 {
-	for bfrom.ToFloat64().Addv(0.5, 0.5, 0.5).Add(from.Negative()).Length() < maxlen {
+		return
 		for todir := itype.Direction(0); todir < 6; todir++ {
 			if todir == bfromdir {
 				continue
 	}
-			bto := bfrom.Add(itype.DirectionVeci[todir])
+	// Loose intersect test
-			block := w.Block(bto)
+	if ok, _, _, _ = (itype.Boxd{
-
+		OffX:  float64(current[0]),
-			if block.Id != 0 {
+		OffY:  float64(current[1]),
-				outbox := itype.Boxd{
+		OffZ:  float64(current[2]),
-					OffX:  float64(bto[0]),
+		SizeX: 1, SizeY: 1, SizeZ: 1,
-					OffY:  float64(bto[1]),
+	}).IntersectRay(from, dir, maxlen); !ok {
-					OffZ:  float64(bto[2]),
+		return
 					SizeX: 1,
 					SizeY: 1,
 					SizeZ: 1,
 	}
-				var outface itype.Direction
+
-				if ok, outface, _, _ = outbox.IntersectRay(from, dir, maxlen); ok {
+	// Go through the bounding boxes
-					app := block.Appearance(bto)
+	ba := w.Block(current).Appearance(current)
-					for _, lb := range app.Lookbox {
+	if !ba.NotSolid {
-						if ok, face, where, dist = lb.IntersectRay(from, dir, maxlen); ok {
+		for _, b := range ba.Lookbox {
-							blockcoord = bto
+			if ok, face, where, dist = b.Offset(current.ToFloat64()).IntersectRay(from, dir, maxlen); ok {
 				blockcoord = current
 				return
 			}
 		}
 	}
-				bfromdir = outface.Opposite()
+	// Test the directions
-				bfrom = bto
+	for i := itype.Direction(0); i < 6; i++ {
-				break
+		if i == skipdir {
 			continue
 		}
 		ok, blockcoord, face, where, dist = w.castworker(from, dir, maxlen, current.Add(itype.DirectionVeci[i]), i.Opposite())
 		if ok {
 			return
 		}
 	}
 	ok = false
 	return
 }
 // CastViewRay
 func (w *World) CastViewRay(from, dir itype.Vec3d, maxlen float64) (ok bool, blockcoord itype.Vec3i, face itype.Direction, where itype.Vec3d, dist float64) {
 	return w.castworker(from, dir, maxlen, from.Floor(), -1)
 }
--- a/internal/world/world.go
+++ b/internal/world/world.go
@ -84,6 +84,18 @@ func BlockPosToInChunk(blockpos itype.Vec3i) (x, y, z int) {
 	return
 }
 // Break breaks the block.
 func (w *World) Break(pos itype.Vec3i) {
 	cx, cz := BlockPosToChunk(pos)
 	cix, ciy, ciz := BlockPosToInChunk(pos)
 	c, ok := w.Chunks[itype.Vec2i{cx, cz}]
 	if !ok || ciy < 0 || ciy >= ChunkSizeY {
 		return
 	}
 	c.SetBlock(cix, ciy, ciz, 0, 0)
 }
 // Block returns the block at the position [pos], or an empty Block{} if it does not exist.
 func (w *World) Block(pos itype.Vec3i) Block {
 	cx, cz := BlockPosToChunk(pos)