/
MaterialDistance.java
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/
MaterialDistance.java
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package com.denizenscript.denizen.objects.properties.material;
import com.denizenscript.denizen.objects.MaterialTag;
import com.denizenscript.denizencore.objects.Mechanism;
import com.denizenscript.denizencore.objects.ObjectTag;
import com.denizenscript.denizencore.objects.core.ElementTag;
import com.denizenscript.denizencore.objects.properties.Property;
import com.denizenscript.denizencore.objects.properties.PropertyParser;
import org.bukkit.block.data.type.Leaves;
import org.bukkit.block.data.type.Scaffolding;
public class MaterialDistance implements Property {
public static boolean describes(Object material) {
return material instanceof MaterialTag
&& ((MaterialTag) material).hasModernData()
&& (((MaterialTag) material).getModernData() instanceof Scaffolding
|| ((MaterialTag) material).getModernData() instanceof Leaves);
}
public static MaterialDistance getFrom(ObjectTag _material) {
if (!describes(_material)) {
return null;
}
else {
return new MaterialDistance((MaterialTag) _material);
}
}
public static final String[] handledMechs = new String[] {
"distance"
};
public MaterialDistance(MaterialTag _material) {
material = _material;
}
MaterialTag material;
public static void register() {
// <--[tag]
// @attribute <MaterialTag.distance>
// @returns ElementTag(Number)
// @mechanism MaterialTag.distance
// @group properties
// @description
// Returns the horizontal distance between a scaffolding block and the nearest scaffolding block placed above a 'bottom' scaffold,
// or between a leaves block and the nearest log (a distance of 7 will cause a leaf to decay if 'persistent' is also false, less than 7 will prevent decay).
// -->
PropertyParser.registerStaticTag(MaterialDistance.class, ElementTag.class, "distance", (attribute, material) -> {
return new ElementTag(material.getDistance());
});
}
public int getDistance() {
if (isScaffolding()) {
return getScaffolding().getDistance();
}
else if (isLeaves()) {
return getLeaves().getDistance();
}
throw new UnsupportedOperationException();
}
public Scaffolding getScaffolding() {
return (Scaffolding) material.getModernData();
}
public Leaves getLeaves() {
return (Leaves) material.getModernData();
}
public boolean isScaffolding() {
return material.getModernData() instanceof Scaffolding;
}
public boolean isLeaves() {
return material.getModernData() instanceof Leaves;
}
@Override
public String getPropertyString() {
return String.valueOf(getDistance());
}
@Override
public String getPropertyId() {
return "distance";
}
@Override
public void adjust(Mechanism mechanism) {
// <--[mechanism]
// @object MaterialTag
// @name distance
// @input ElementTag(Number)
// @description
// Sets the horizontal distance between a scaffolding block and the nearest scaffolding block placed above a 'bottom' scaffold, or between a leaves block and the nearest log.
// @tags
// <MaterialTag.distance>
// -->
if (mechanism.matches("distance") && mechanism.requireInteger()) {
int distance = mechanism.getValue().asInt();
if (isScaffolding()) {
if (distance >= 0 && distance <= getScaffolding().getMaximumDistance()) {
getScaffolding().setDistance(distance);
}
else {
mechanism.echoError("Distance must be between 0 and " + getScaffolding().getMaximumDistance());
}
}
else if (isLeaves()) {
getLeaves().setDistance(distance);
}
}
}
}