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mc/server/block/sponge.go
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TarnaWijaya 26ed99fda6
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2026-07-09 08:33:57 +08:00

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package block
import (
"github.com/df-mc/dragonfly/server/block/cube"
"github.com/df-mc/dragonfly/server/item"
"github.com/df-mc/dragonfly/server/world"
"github.com/df-mc/dragonfly/server/world/particle"
"github.com/go-gl/mathgl/mgl64"
)
// Sponge is a block that can be used to remove water around itself when placed, turning into a wet sponge in the
// process.
type Sponge struct {
solid
// Wet specifies whether the dry or the wet variant of the block is used.
Wet bool
}
// BreakInfo ...
func (s Sponge) BreakInfo() BreakInfo {
return newBreakInfo(0.6, alwaysHarvestable, nothingEffective, oneOf(s))
}
// SmeltInfo ...
func (s Sponge) SmeltInfo() item.SmeltInfo {
if s.Wet {
return newSmeltInfo(item.NewStack(Sponge{}, 1), 0.15)
}
return item.SmeltInfo{}
}
// EncodeItem ...
func (s Sponge) EncodeItem() (name string, meta int16) {
if s.Wet {
return "minecraft:wet_sponge", 0
}
return "minecraft:sponge", 0
}
// EncodeBlock ...
func (s Sponge) EncodeBlock() (string, map[string]any) {
if s.Wet {
return "minecraft:wet_sponge", nil
}
return "minecraft:sponge", nil
}
// UseOnBlock places the sponge, absorbs nearby water if it's still dry and flags it as wet if any water has been
// absorbed.
func (s Sponge) UseOnBlock(pos cube.Pos, face cube.Face, _ mgl64.Vec3, tx *world.Tx, user item.User, ctx *item.UseContext) (used bool) {
var particles = false
pos, _, used = firstReplaceable(tx, pos, face, s)
if !used {
return
}
// Check if the Sponge is placed in the Nether and if so, turn it into a normal Sponge instantly.
if tx.World().Dimension().WaterEvaporates() && s.Wet {
s.Wet = false
particles = true
}
place(tx, pos, s, user, ctx)
if particles && placed(ctx) {
tx.AddParticle(pos.Side(cube.FaceUp).Vec3(), particle.Evaporate{})
}
return placed(ctx)
}
// NeighbourUpdateTick checks for nearby water flow. If water could be found and the sponge is dry, it will absorb the
// water and be flagged as wet.
func (s Sponge) NeighbourUpdateTick(pos, _ cube.Pos, tx *world.Tx) {
// The sponge is dry, so it can absorb nearby water.
if !s.Wet {
if s.absorbWater(pos, tx) > 0 {
// Water has been absorbed, so we flag the sponge as wet.
s.setWet(pos, tx)
}
}
}
// setWet flags a sponge as wet. It replaces the block at pos by a wet sponge block and displays a block break
// particle at the sponge's position with an offset of 0.5 on each axis.
func (s Sponge) setWet(pos cube.Pos, tx *world.Tx) {
s.Wet = true
tx.SetBlock(pos, s, nil)
tx.AddParticle(pos.Vec3Centre(), particle.BlockBreak{Block: Water{Depth: 1}})
}
// absorbWater replaces water blocks near the sponge by air out to a taxicab geometry of 7 in all directions.
// The maximum for absorbed blocks is 65.
// The returned int specifies the amount of replaced water blocks.
func (s Sponge) absorbWater(pos cube.Pos, tx *world.Tx) int {
// distanceToSponge binds a world.Position to its distance from the sponge's position.
type distanceToSponge struct {
block cube.Pos
distance int32
}
queue := make([]distanceToSponge, 0)
queue = append(queue, distanceToSponge{pos, 0})
// A sponge can only absorb up to 65 water blocks.
replaced := 0
for replaced < 65 {
if len(queue) == 0 {
break
}
// Pop the next distanceToSponge entry from the queue.
next := queue[0]
queue = queue[1:]
next.block.Neighbours(func(neighbour cube.Pos) {
liquid, found := tx.Liquid(neighbour)
if found {
if _, isWater := liquid.(Water); isWater {
tx.SetLiquid(neighbour, nil)
replaced++
if next.distance < 7 {
queue = append(queue, distanceToSponge{neighbour, next.distance + 1})
}
}
}
}, tx.Range())
}
return replaced
}