WorldEdit API ============= The WorldEdit API is composed of multiple modules, each of which is independent and can be used without the other. Each module is contained within a single file. For more information, see the [README](README.md). Manipulations ------------- Contained in manipulations.lua, this module allows several node operations to be applied over a region. ### count = worldedit.set(pos1, pos2, nodename) Sets a region defined by positions `pos1` and `pos2` to `nodename`. To clear to region, use "air" as the value of `nodename`. Returns the number of nodes set. ### count = worldedit.replace(pos1, pos2, searchnode, replacenode) Replaces all instances of `searchnode` with `replacenode` in a region defined by positions `pos1` and `pos2`. Returns the number of nodes replaced. ### count = worldedit.copy(pos1, pos2, axis, amount) Copies the region defined by positions `pos1` and `pos2` along the `axis` axis ("x" or "y" or "z") by `amount` nodes. Returns the number of nodes copied. ### count = worldedit.move(pos1, pos2, axis, amount) Moves the region defined by positions `pos1` and `pos2` along the `axis` axis ("x" or "y" or "z") by `amount` nodes. Returns the number of nodes moved. ### count = worldedit.stack(pos1, pos2, axis, count) Duplicates the region defined by positions `pos1` and `pos2` along the `axis` axis ("x" or "y" or "z") `count` times. Returns the number of nodes stacked. ### count, newpos1, newpos2 = worldedit.transpose(pos1, pos2, axis1, axis2) Transposes a region defined by the positions `pos1` and `pos2` between the `axis1` and `axis2` axes ("x" or "y" or "z"). Returns the number of nodes transposed, the new position 1, and the new position 2. ### count = worldedit.flip(pos1, pos2, axis) Flips a region defined by the positions `pos1` and `pos2` along the `axis` axis ("x" or "y" or "z"). Returns the number of nodes flipped. ### count, newpos2, newpos2 = worldedit.rotate(pos1, pos2, angle) Rotates a region defined by the positions `pos1` and `pos2` by `angle` degrees clockwise around the y axis (supporting 90 degree increments only). Returns the number of nodes rotated, the new position 1, and the new position 2. ### count = worldedit.dig(pos1, pos2) Digs a region defined by positions `pos1` and `pos2`. Returns the number of nodes dug. Primitives ---------- Contained in primitives.lua, this module allows the creation of several geometric primitives. ### count = worldedit.hollow_sphere(pos, radius, nodename) Adds a hollow sphere at `pos` with radius `radius`, composed of `nodename`. Returns the number of nodes added. ### count = worldedit.sphere(pos, radius, nodename) Adds a sphere at `pos` with radius `radius`, composed of `nodename`. Returns the number of nodes added. ### count = worldedit.hollow_cylinder(pos, axis, length, radius, nodename) Adds a hollow cylinder at `pos` along the `axis` axis ("x" or "y" or "z") with length `length` and radius `radius`, composed of `nodename`. Returns the number of nodes added. ### count = worldedit.cylinder(pos, axis, length, radius, nodename) Adds a cylinder at `pos` along the `axis` axis ("x" or "y" or "z") with length `length` and radius `radius`, composed of `nodename`. Returns the number of nodes added. ### count = worldedit.pyramid(pos, height, nodename) Adds a pyramid at `pos` with height `height`. Returns the number of nodes added. ### count = worldedit.spiral(pos, width, height, spacer, nodename) Adds a spiral at `pos` with width `width`, height `height`, space between walls `spacer`, composed of `nodename`. Returns the number of nodes added. Visualization ------------- Contained in visualization.lua, this module allows nodes to be visualized in different ways. ### volume = worldedit.volume(pos1, pos2) Determines the volume of the region defined by positions `pos1` and `pos2`. Returns the volume. ### count = worldedit.hide(pos1, pos2) Hides all nodes in a region defined by positions `pos1` and `pos2` by non-destructively replacing them with invisible nodes. Returns the number of nodes hidden. ### count = worldedit.suppress(pos1, pos2, nodename) Suppresses all instances of `nodename` in a region defined by positions `pos1` and `pos2` by non-destructively replacing them with invisible nodes. Returns the number of nodes suppressed. ### count = worldedit.highlight(pos1, pos2, nodename) Highlights all instances of `nodename` in a region defined by positions `pos1` and `pos2` by non-destructively hiding all other nodes. Returns the number of nodes found. ### count = worldedit.restore(pos1, pos2) Restores all nodes hidden with WorldEdit functions in a region defined by positions `pos1` and `pos2`. Returns the number of nodes restored. Serialization ------------- Contained in serialization.lua, this module allows regions of nodes to be serialized and deserialized to formats suitable for use outside MineTest. ### data, count = worldedit.serialize(pos1, pos2) Converts the region defined by positions `pos1` and `pos2` into a single string. Returns the serialized data and the number of nodes serialized. ### pos1, pos2, count = worldedit.allocate(originpos, value) Determines the volume the nodes represented by string `value` would occupy if deserialized at `originpos`. Returns the two corner positions and the number of nodes. ### count = worldedit.deserialize(originpos, value) Loads the nodes represented by string `value` at position `originpos`. Returns the number of nodes deserialized. ### count = worldedit.deserialize_old(originpos, value) Loads the nodes represented by string `value` at position `originpos`, using the older table-based WorldEdit format. This function is deprecated, and should not be used unless there is a need to support legacy WorldEdit save files. Returns the number of nodes deserialized. ### count = worldedit.metasave(pos1, pos2, file) Saves the nodes and meta defined by positions `pos1` and `pos2` into a file. Returns the number of nodes saved. ### count = worldedit.metaload(pos1, file) Loads the nodes and meta from `file` to position `pos1`. Returns the number of nodes loaded.