package block import ( "math/rand/v2" "github.com/df-mc/dragonfly/server/block/cube" "github.com/df-mc/dragonfly/server/block/model" "github.com/df-mc/dragonfly/server/item" "github.com/df-mc/dragonfly/server/world" "github.com/go-gl/mathgl/mgl64" ) // CocoaBean is a crop block found in jungle biomes. type CocoaBean struct { transparent // Facing is the direction from the cocoa bean to the log. Facing cube.Direction // Age is the stage of the cocoa bean's growth. 2 is fully grown. Age int } // BoneMeal ... func (c CocoaBean) BoneMeal(pos cube.Pos, tx *world.Tx) item.BoneMealResult { if c.Age == 2 { return item.BoneMealResultNone } c.Age++ tx.SetBlock(pos, c, nil) return item.BoneMealResultSmall } // HasLiquidDrops ... func (c CocoaBean) HasLiquidDrops() bool { return true } // NeighbourUpdateTick ... func (c CocoaBean) NeighbourUpdateTick(pos, _ cube.Pos, tx *world.Tx) { var woodType WoodType switch b := tx.Block(pos.Side(c.Facing.Face())).(type) { case Log: woodType = b.Wood case Wood: woodType = b.Wood } if woodType != JungleWood() { breakBlock(c, pos, tx) } } // UseOnBlock ... func (c CocoaBean) UseOnBlock(pos cube.Pos, face cube.Face, _ mgl64.Vec3, tx *world.Tx, user item.User, ctx *item.UseContext) bool { pos, _, used := firstReplaceable(tx, pos, face, c) if !used { return false } if face == cube.FaceUp || face == cube.FaceDown { return false } var woodType WoodType oppositePos := pos.Side(face.Opposite()) if log, ok := tx.Block(oppositePos).(Log); ok { woodType = log.Wood } else if wood, ok := tx.Block(oppositePos).(Wood); ok { woodType = wood.Wood } if woodType == JungleWood() { c.Facing = face.Opposite().Direction() ctx.IgnoreBBox = true place(tx, pos, c, user, ctx) return placed(ctx) } return false } // RandomTick ... func (c CocoaBean) RandomTick(pos cube.Pos, tx *world.Tx, r *rand.Rand) { if c.Age < 2 && r.IntN(5) == 0 { c.Age++ tx.SetBlock(pos, c, nil) } } // BreakInfo ... func (c CocoaBean) BreakInfo() BreakInfo { return newBreakInfo(0.2, alwaysHarvestable, axeEffective, func(item.Tool, []item.Enchantment) []item.Stack { if c.Age == 2 { return []item.Stack{item.NewStack(c, rand.IntN(2)+2)} } return []item.Stack{item.NewStack(c, 1)} }).withBlastResistance(15) } // CompostChance ... func (CocoaBean) CompostChance() float64 { return 0.65 } // EncodeItem ... func (c CocoaBean) EncodeItem() (name string, meta int16) { return "minecraft:cocoa_beans", 0 } // EncodeBlock ... func (c CocoaBean) EncodeBlock() (name string, properties map[string]any) { return "minecraft:cocoa", map[string]any{"age": int32(c.Age), "direction": int32(horizontalDirection(c.Facing))} } // Model ... func (c CocoaBean) Model() world.BlockModel { return model.CocoaBean{Facing: c.Facing, Age: c.Age} } // allCocoaBeans ... func allCocoaBeans() (cocoa []world.Block) { for i := cube.Direction(0); i <= 3; i++ { cocoa = append(cocoa, CocoaBean{Facing: i, Age: 0}) cocoa = append(cocoa, CocoaBean{Facing: i, Age: 1}) cocoa = append(cocoa, CocoaBean{Facing: i, Age: 2}) } return }